CN111939405B - Breathing and oxygen production all-in-one machine convenient to disassemble - Google Patents

Abstract

The invention discloses a breathable and oxygen-generating integrated machine which is easy to disassemble, which comprises a casing, a support plate is horizontally fixed on the inner side of the casing, and two movable base plates are movably installed on the upper surface of the support plate, and the upper surfaces of the movable base plates are both Side plates are fixedly installed by welding, conveyor belts are arranged on the opposite surfaces of the two side plates, a movable plate is fixedly installed on the top of the side plate, and a lifting plate is movably installed above the support plate, and the opposite sides of the two movable plates Two sets of splints are arranged on the surface, and the inner side of the shell is horizontally provided with the first installation board and the second installation board. It is connected with the oxygen generating assembly; the present invention ensures the safety of the internal parts of the breathing and oxygen generating integrated machine, the breathing and oxygen generating integrated machine is easy to disassemble, the installation and dismounting process is completely automatic, the internal installation is orderly, and it is convenient to use.

Description

An all-in-one breather and oxygen generator that is easy to disassemble

technical field

The invention relates to the technical field of oxygen-generating equipment, in particular to an all-in-one respiratory and oxygen-generating machine that is easy to disassemble.

Background technique

Oxygen concentrator is a kind of machine for producing oxygen. Its principle is to use air separation technology. First, the air is compressed with high density, and then the condensation point of each component in the air is used to separate the gas and liquid at a certain temperature, and then it is obtained by further rectification; the adsorption performance of molecular sieves is used, and through physical principles, the large-scale exhaust The oil-free compressor is used as the power to separate the nitrogen and oxygen in the air, and finally obtain high-concentration oxygen. This type of oxygen generator produces oxygen quickly and has a high oxygen concentration. It is suitable for oxygen therapy and oxygen health care for various groups of people. ;

The installation of the internal parts of the traditional breathing and oxygen all-in-one machine is unstable, and the safety of the internal parts of the breathing and oxygen all-in-one machine cannot be guaranteed. In addition, manual disassembly is used during the disassembly process. The disassembly steps are complicated, labor-intensive, and work efficiency is low. The breathing mask and the internal components of the machine are placed in a mess, which is not convenient to use. Some breathing masks are placed outside the breathing and oxygen all-in-one machine, which is easy to be stained with dust and bacteria, which will affect the normal use.

Contents of the invention

The purpose of the present invention is to provide a breathable and oxygen-generating integrated machine that is easy to disassemble. The present invention drives the second lead screw to rotate by starting the first motor and cooperating with the pulley and the belt. The second lead screw drives the two moving bottom plates to face each other or Move in reverse, and drive the two movable plates to move towards each other or in the opposite direction. Adjust the distance between the two movable plates according to the width of the first mounting plate, which can meet the installation of the first and second mounting plates of different sizes, and start the third Motor, the third motor drives the first lead screw to rotate forward through the pulley and the belt, the first lead screw moves upward while rotating, and drives the lifting plate to move upward, and the lifting plate pushes the installation plate 1 and the oxygen making component to rise, so that the installation As soon as the plate rises to the position of the upper group of splints, start the clamping cylinder, and the clamping cylinder drives the splints to rotate, so that the two splints of each pair are respectively abutted against the upper and lower sides of the mounting plate, and the mounting plate is fixed by another set of splints. Two are fixed, the mounting plate one and the mounting plate two in the present invention are clamped and fixed by corresponding splints, and the mounting plate one and the mounting plate two are limited by two limit plates to ensure that the mounting plate one and the mounting plate two The installation is stable, which solves the technical problem that the internal parts of the traditional breathing oxygen generator are unstable and cannot guarantee the safety of the internal parts of the breathing oxygen generator;

In the present invention, the third motor drives the first lead screw to reversely rotate through the pulley and the belt, and the first lead screw drives the lifting plate to rise, so that the bottom surface of the lifting plate is in close contact with the bottom surface of the second mounting plate, and the clamping cylinder drives the splint to rotate, so that The splint is separated from the top and bottom of the second mounting plate, the third motor drives the lifting plate down, and drives the second mounting plate to drop to the conveyor belt, the second motor drives the transmission rod to rotate reversely through the pulley and the belt, and the transmission rod drives the transmission roller to reverse Rotate, and drive the conveyor belt to rotate in reverse, send the installation plate 2 and the breathing mask out of the housing, repeat the above steps, and remove the upper installation plate 1 together with the oxygen generator assembly. , The installation and disassembly process is completely automated, which solves the technical problems of manual disassembly when disassembling the traditional breathing oxygen generator, complex disassembly steps, high labor intensity and low work efficiency;

In the present invention, a mounting plate 1 and a mounting plate 2 are horizontally arranged on the inner side of the casing, an oxygen-generating component is arranged on the mounting plate 1, and a breathing mask is arranged on the mounting plate 2, and the breathing mask connects with the oxygen-generating component through an inhalation tube. The breathing and oxygen all-in-one machine is layered through the first installation plate and the second installation plate, so that two installation spaces are formed inside the breathing and oxygen all-in-one machine. The oxygen-generating components and breathing masks in the breathing and oxygen all-in-one machine are placed independently , to avoid confusion, the breathing mask can be used by transferring the installation plate 2 together with the breathing mask to the outside of the shell through the conveyor belt, which is more convenient and solves the problem of confusing placement of the breathing mask and internal components of the traditional breathing oxygen generator, which is not easy to use technical problem.

The purpose of the present invention can be achieved through the following technical solutions:

An all-in-one respiratory and oxygen generator that is easy to disassemble, comprising a housing, a support plate is horizontally fixed on the inner side of the housing, and two movable bottom plates are movably installed on the upper surface of the support plate, and the upper surfaces of the two mobile bottom plates are Side plates are fixedly installed on the surfaces by welding, conveyor belts are arranged on opposite surfaces of the two side plates, and movable plates are fixedly installed on the top of the side plates;

A lifting plate is movably installed above the supporting plate, and the lifting plate is arranged horizontally. Two groups of splints are arranged on the opposite surfaces of the two movable plates, and the splints of the two groups are distributed up and down. The splints include two pairs of splints;

The inner side of the housing is horizontally provided with a mounting plate 1 and a mounting plate 2, and the mounting plate 1 and the mounting plate 2 are distributed up and down, and the oxygen making component is fixedly installed on the mounting plate 1, and the mounting plate 2 A breathing mask is arranged on the top, and the breathing mask is connected with the oxygen generating assembly through an inhalation tube.

Further, the oxygen generating assembly includes an air filter, an air compressor, an adsorber, and a fine sieve tower, the air filter is connected to the air compressor through a conduit, and the air compressor is connected to the adsorber through a conduit, so The adsorber is connected with the fine sieve tower through the conduit, and the fine sieve tower is connected with the breathing mask through the suction pipe.

Further, the two pairs of splints are respectively located on the side of the movable plate close to the corresponding limit plate, and the two splints of each pair are arranged oppositely;

One side of the movable plate is provided with two splint grooves, and the two splints are respectively located in the two splint grooves, and the two splints of each pair are distributed up and down on the inner side of the splint groove, and the splints Rotately connected with the groove wall of the splint groove, two cylinder grooves are opened on the movable plate, the two cylinder grooves are respectively located above and below the splint groove, and the two cylinder grooves are connected with the splint groove, Clamping cylinders are arranged inside the two cylinder grooves, the two clamping cylinders are respectively hinged to the walls of the corresponding cylinder grooves, and the ends of the output rods of the two clamping cylinders are respectively hinged to the two splints.

Further, a fixed plate is horizontally arranged below the supporting plate, and the fixed plate is connected to the lifting plate through two vertical rods, and the top and bottom ends of the vertical rods are respectively connected with the bottom surface of the lifting plate and the bottom surface of the fixed plate. The upper surface is welded and fixed, the vertical rod runs through the supporting plate in the vertical direction, and the vertical rod is slidably matched with the supporting plate, and a first lead screw is vertically arranged between the fixed plate and the lifting plate, and the first The top and the bottom of the lead screw are respectively rotatably connected to the lifting plate and the fixed plate through bearings, the first lead screw is screwed to the supporting plate, the third motor is fixedly installed on the fixed plate, and the output shaft of the third motor A belt pulley is fixedly installed at the end, and a belt pulley is also fixedly installed at the bottom end of the first lead screw, and the two belt pulleys are connected by a belt.

Further, two transmission rollers are rotatably installed on the opposite surfaces of the two side plates, and the two transmission rollers are connected by a transmission belt, and a transmission rod is rotatably installed on the upper surface of the support plate. The two corresponding transmission rollers on the side plates are respectively sleeved on the transmission rods. Both sides of the transmission rods are planar structures, and the transmission rods are slidingly connected to the corresponding transmission rollers. The upper surface of the support plate A second motor is fixedly installed, the output shaft end of the second motor is fixedly installed with a pulley, and one end of the transmission rod is also fixedly installed with a pulley, and the two pulleys are connected by a belt.

Further, the upper surface of the support plate is rotatably installed with a second lead screw, the first motor is fixedly installed on the support plate, the output shaft end of the first motor is fixedly equipped with a pulley, and the second lead screw A pulley is also fixedly installed at one end of the pulley, and the two pulleys are connected by a belt. The second lead screw is respectively threaded with the bottoms of the two moving bottom plates, and the threads at both ends of the second lead screw are in the shape of Symmetrical distribution.

Further, two slide rails are fixedly installed on the upper surface of the supporting plate, and sliders are fixedly installed on both side edges of the bottom surface of the moving base plate, and the moving base plate is slidably connected to the supporting plate through the sliders and slide rails .

Further, two limiting plates are fixedly installed on the opposite surfaces of the two movable plates by bolts, and the two limiting plates are respectively located at both side edges of one side surface of the movable plate, and the limiting plates The board is perpendicular to the movable board.

Further, a switch door and a ventilation screen are installed on one side of the housing.

Further, the working steps of the breathing and oxygen all-in-one machine are:

Step 1. Start the first motor. The first motor drives the second lead screw to rotate through the pulley and the belt. The second lead screw drives the two movable bottom plates to move toward each other or reversely, and drives the two movable plates to move toward each other or reversely. According to The width of the installation plate 1 adjusts the distance between the two movable plates, open the switch door, put the end of the installation plate 1 with the oxygen generator assembly on the conveyor belt, start the second motor, and the second motor is driven by the pulley and the belt The transmission rod rotates in the forward direction, the transmission rod drives the transmission roller to rotate in the forward direction, and drives the transmission belt to rotate in the forward direction, and the transmission belt drives the installation plate 1 and the oxygen-generating assembly to move to the inside of the housing;

Step 2. Start the third motor. The third motor drives the first lead screw to rotate forward through the pulley and the belt. The first lead screw moves upward while rotating, and drives the lifting plate to move upward. The lifting plate pushes the mounting plate and the system The oxygen component rises, so that the mounting plate rises to the position of a group of splints above, start the clamping cylinder, and the clamping cylinder drives the splint to rotate, so that the two splints of each pair contact the upper and lower sides of the mounting plate respectively, repeat the above The step is to raise the mounting plate 2 and the breathing mask to the position of a set of splints below, and fix the mounting plate 2 through another set of splints;

Step 3. When disassembling, start the third motor, the third motor drives the first lead screw to rotate in reverse through the pulley and the belt, and the first lead screw drives the lifting plate to rise, so that the bottom surface of the lifting plate is in close contact with the bottom surface of the second installation plate, The clamping cylinder drives the splint to rotate, so that the splint is separated from the upper and lower sides of the second mounting plate. The third motor drives the lifting plate to descend, and drives the second mounting plate to drop to the conveyor belt. The second motor drives the transmission rod to rotate reversely through the pulley and the belt. , the transmission rod drives the transmission roller to rotate in reverse, and drives the transmission belt to rotate in reverse, send the installation plate 2 and the breathing mask out of the housing, repeat the above steps, and remove the upper installation plate 1 together with the oxygen generator assembly.

Beneficial effects of the present invention:

The present invention drives the second lead screw to rotate by starting the first motor and cooperating with pulleys and belts. The second lead screw drives the two movable bottom plates to move toward each other or reversely, and drives the two movable plates to move toward each other or reversely. The width of mounting plate 1 adjusts the distance between the two movable plates, which can meet the installation of mounting plate 1 and mounting plate 2 of different sizes, start the third motor, and the third motor drives the first lead screw to rotate forward through the pulley and belt , the first lead screw moves upwards while rotating, and drives the lifting plate to move upwards, the lifting plate pushes the mounting plate 1 and the oxygen generator assembly up, so that the mounting plate 1 rises to the position of a group of splints above, and starts the clamping cylinder. The clamping cylinder drives the splints to rotate, so that the two splints of each pair are respectively abutted against the upper and lower sides of the first mounting plate, and the second mounting plate is fixed by another set of splints. The first mounting plate and the second mounting plate in the present invention pass corresponding The splint is clamped and fixed, and the installation plate 1 and the installation plate 2 are limited by two limit plates to ensure the stable installation of the installation plate 1 and the installation plate 2, thereby ensuring the safety of the internal parts of the breathing oxygen generator ;

In the present invention, the third motor drives the first lead screw to reversely rotate through the pulley and the belt, and the first lead screw drives the lifting plate to rise, so that the bottom surface of the lifting plate is in close contact with the bottom surface of the second mounting plate, and the clamping cylinder drives the splint to rotate, so that The splint is separated from the top and bottom of the second mounting plate, the third motor drives the lifting plate down, and drives the second mounting plate to drop to the conveyor belt, the second motor drives the transmission rod to rotate reversely through the pulley and the belt, and the transmission rod drives the transmission roller to reverse Rotate, and drive the conveyor belt to rotate in reverse, send the installation plate 2 and the breathing mask out of the housing, repeat the above steps, and remove the upper installation plate 1 together with the oxygen generator assembly. , The installation and disassembly process is fully automated, which greatly reduces labor intensity and improves work efficiency;

In the present invention, a mounting plate 1 and a mounting plate 2 are horizontally arranged on the inner side of the casing, an oxygen-generating component is arranged on the mounting plate 1, and a breathing mask is arranged on the mounting plate 2, and the breathing mask connects with the oxygen-generating component through an inhalation tube. The breathing and oxygen all-in-one machine is layered through the first installation plate and the second installation plate, so that two installation spaces are formed inside the breathing and oxygen all-in-one machine. The oxygen-generating components and breathing masks in the breathing and oxygen all-in-one machine are placed independently , to avoid confusion, it is more convenient to transfer the installation plate 2 together with the breathing mask to the outside of the shell to use the breathing mask through the transmission belt.

Description of drawings

In order to facilitate the understanding of those skilled in the art, the present invention will be further described below in conjunction with the accompanying drawings.

Fig. 1 is a side view sectional view of an all-in-one respiratory oxygen generator that is easy to disassemble according to the present invention;

Fig. 2 is a three-dimensional structure diagram of an all-in-one respiratory oxygen generator that is easy to disassemble according to the present invention;

Fig. 3 is a three-dimensional view of a partial structure of an all-in-one respiratory and oxygen generator that is easy to disassemble according to the present invention;

Fig. 4 is a front view of a partial structure of an all-in-one respiratory and oxygen generator that is easy to disassemble according to the present invention;

Fig. 5 is the assembling drawing of mounting plate one and oxygen generating assembly of the present invention;

Fig. 6 is an assembly diagram of the movable plate, the clamping cylinder and the splint of the present invention.

In the figure: 1. Shell; 2. Supporting plate; 3. Movable plate; 301. Plywood groove; 302. Cylinder groove; 4. Moving bottom plate; 5. Side plate; 6. Conveyor belt; Transmission rod; 9, the first motor; 10, the second motor; 11, the second leading screw; 12, the lifting plate; 13, the fixed plate; 14, the vertical rod; 15, the first leading screw; 16, the third motor; 17. Limiting plate; 18. Plywood; 19. Clamping cylinder; 20. Mounting plate 1; 21. Switch door; 22. Mounting plate 2; 23. Breathing mask; 24. Inhalation pipe; 25. Ventilation mesh plate; 26. Air filter; 27. Air compressor; 28. Adsorber; 29. Fine sieve tower.

Detailed ways

The technical solutions of the present invention will be clearly and completely described below in conjunction with the embodiments. Apparently, the described embodiments are only some of the embodiments of the present invention, not all of them. Based on the embodiments of the present invention, all other embodiments obtained by persons of ordinary skill in the art without creative efforts fall within the protection scope of the present invention.

As shown in Figures 1-6, an all-in-one respiratory and oxygen generator that is easy to disassemble includes a housing 1, a support plate 2 is horizontally fixed on the inner side of the housing 1, and two a movable base plate 4, the upper surfaces of the two movable base plates 4 are all fixedly installed with side plates 5 by welding, the opposite surfaces of the two side plates 5 are provided with conveyor belts 6, and the tops of the side plates 5 A movable plate 3 is fixedly installed;

A lifting plate 12 is installed on the top of the supporting plate 2, and the lifting plate 12 is arranged horizontally. Two groups of splints 18 are arranged on the opposite faces of the two movable plates 3, and the splints 18 of the two groups are on the upper side. , lower distribution, each set of splints 18 includes two pairs of splints 18;

The first installation plate 20 and the second installation plate 22 are arranged horizontally on the inner side of the housing 1, the first installation plate 20 and the second installation plate 22 are distributed up and down, and the oxygen production assembly is fixedly installed on the first installation plate 20 , The second installation plate 22 is provided with a breathing mask 23, and the breathing mask 23 is connected to the oxygen generating assembly through an inhalation pipe 24.

The oxygen-generating assembly includes an air filter 26, an air compressor 27, an adsorber 28, and a fine sieve tower 29. The air filter 26 is connected to the air compressor 27 through a conduit, and the air compressor 27 is connected to the adsorption device through a conduit. The adsorber 28 is connected to the fine sieve tower 29 through a conduit, and the fine sieve tower 29 is connected to the breathing mask 23 through the suction pipe 24 .

The two pairs of splints 18 are respectively located on the side of the movable plate 3 close to the corresponding limit plate 17, and the two splints 18 of each pair are arranged oppositely;

One side of the movable plate 3 is provided with two splint grooves 301, and the two splints 18 are located in the two splint grooves 301 respectively, and the two splints 18 of each pair are distributed in the splint grooves 301 up and down. The inner side of the splint 18 is rotatably connected with the groove wall of the splint groove 301, and the movable plate 3 is provided with two cylinder grooves 302, and the two cylinder grooves 302 are respectively located above and below the splint groove 301, and the two The two cylinder grooves 302 are all connected with the splint groove 301, and the inner sides of the two cylinder grooves 302 are provided with clamping cylinders 19, and the two clamping cylinders 19 are respectively hinged with the groove walls of the corresponding cylinder grooves 302. The output rod ends of each clamping cylinder 19 are hinged with two splints 18 respectively.

The lower side of the supporting plate 2 is horizontally provided with a fixed plate 13, which is connected with the lifting plate 12 by two vertical rods 14, and the top and bottom ends of the vertical rods 14 are connected with the bottom surface of the lifting plate 12 respectively. It is welded and fixed with the upper surface of the fixed plate 13, the vertical bar 14 runs through the supporting plate 2 in the vertical direction, and the vertical bar 14 is slidingly fitted with the supporting plate 2, and the vertical between the fixed plate 13 and the lifting plate 12 A first lead screw 15 is provided, and the top and the bottom of the first lead screw 15 are respectively rotatably connected with the lifting plate 12 and the fixed plate 13 through bearings, the first lead screw 15 is screwed with the support plate 2, and the fixed A third motor 16 is fixedly installed on the plate 13, a pulley is fixedly installed at the output shaft end of the third motor 16, and a pulley is also fixedly installed at the bottom end of the first screw 15, and the two pulleys are connected by a belt. .

Two transmission rollers 7 are mounted on the opposite surfaces of the two side plates 5, and the two transmission rollers 7 are connected by a transmission belt 6, and a transmission rod 8 is installed on the upper surface of the supporting plate 2 in rotation. , the corresponding two transmission rollers 7 on the two side plates 5 are respectively sleeved on the transmission rod 8, both sides of the transmission rod 8 are planar structures, and the transmission rod 8 slides with the corresponding transmission roller 7 connection, the upper surface of the support plate 2 is fixedly installed with a second motor 10, the output shaft end of the second motor 10 is fixedly installed with a pulley, and one end of the transmission rod 8 is also fixedly installed with a pulley, between the two pulleys connected by a belt.

The upper surface of the support plate 2 is rotatably equipped with a second lead screw 11, the first motor 9 is fixedly installed on the support plate 2, and the output shaft end of the first motor 9 is fixedly equipped with a pulley. One end of the leading screw 11 is also fixedly equipped with a pulley, connected by a belt between the two pulleys, the second leading screw 11 is threadedly connected with the bottoms of the two movable bottom plates 4 respectively, and the threads at both ends of the second leading screw 11 are about The middle part of the second lead screw 11 is symmetrically distributed.

Two slide rails are fixedly installed on the upper surface of the support plate 2, and sliders are fixedly installed on both side edges of the bottom surface of the movable base plate 4, and the movable base plate 4 slides with the support plate 2 through the sliders, the slide rails and the support plate 2. connect.

Two limit plates 17 are fixedly installed on the opposite faces of the two movable plates 3 by bolts, and the two limit plates 17 are respectively positioned at both side edges of one side surface of the movable plate 3. Bit plate 17 is perpendicular to movable plate 3.

A switch door 21 and a ventilation screen 25 are installed on one side of the housing 1 .

The working steps of the respiratory oxygen generator are as follows:

Step 1, start the first motor 9, the first motor 9 drives the second lead screw 11 to rotate through the pulley and the belt, the second lead screw 11 drives the two movable bottom plates 4 to move towards each other or in the opposite direction, and drives the two movable plates 3 to move towards each other Or move in reverse, adjust the distance between the two movable plates 3 according to the width of the mounting plate-20, open the switch door 21, put one end of the mounting plate-20 with the oxygen-generating assembly on the conveyor belt 6, start the second Two motors 10, the second motor 10 drives the transmission rod 8 to rotate forward through the pulley and the belt, the transmission rod 8 drives the transmission roller 7 to rotate forward, and drives the transmission belt 6 to rotate forward, and the transmission belt 6 drives the mounting plate 120 and the system The oxygen assembly moves to the inside of the housing 1;

Step 2, start the third motor 16, the third motor 16 drives the first lead screw 15 to rotate forward through the pulley and the belt, the first lead screw 15 moves upward while rotating, and drives the lifting plate 12 to move upward, the lifting plate 12 Push the mounting plate 1 20 and the oxygen generating assembly to rise, so that the mounting plate 20 rises to the position of a group of splints 18 above, start the clamping cylinder 19, and the clamping cylinder 19 drives the splint 18 to rotate, so that the two splints 18 of each pair Respectively abut against the upper and lower sides of the mounting plate 1 20, repeat the above steps, make the mounting plate 2 22 and the breathing mask 23 rise to the position of a group of splints 18 below, and fix the mounting plate 2 22 through another set of splints 18;

Step 3, when dismounting, start the third motor 16, the third motor 16 drives the first lead screw 15 to reversely rotate through the pulley and the belt, and the first lead screw 15 drives the lifting plate 12 to rise, so that the bottom surface of the lifting plate 12 and the mounting plate The bottom surface of the second 22 is in close contact, and the clamping cylinder 19 drives the clamping plate 18 to rotate, so that the clamping plate 18 is separated from the upper and lower sides of the mounting plate 22, and the third motor 16 drives the lifting plate 12 to descend, and drives the mounting plate 22 to drop to the conveyor belt 6 Above, the second motor 10 drives the transmission rod 8 to rotate in the reverse direction through the pulley and the belt, the transmission rod 8 drives the transmission roller 7 to rotate in the reverse direction, and drives the transmission belt 6 to rotate in the reverse direction, and the mounting plate 22 and the breathing mask 23 are sent out of the housing 1. Repeat the above steps to remove the upper mounting plate 120 together with the oxygen generator assembly.

The present invention drives the second lead screw 11 to rotate by starting the first motor 9 and cooperating with pulleys and belts. The second lead screw 11 drives the two moving base plates 4 to move toward each other or in the opposite direction, and drives the two movable plates 3 to move toward each other or Move in the opposite direction, adjust the distance between the two movable plates 3 according to the width of the mounting plate one 20, which can meet the installation of the mounting plate one 20 and the mounting plate two 22 of different sizes, start the third motor 16, and the third motor 16 passes The pulley and the belt drive the first lead screw 15 to rotate in the forward direction, and the first lead screw 15 moves upward while rotating, and drives the lifting plate 12 to move upward, and the lifting plate 12 pushes the mounting plate 120 and the oxygen making assembly to rise, so that the mounting plate -20 rises to the position of a group of splints 18 above, starts the clamping cylinder 19, and the clamping cylinder 19 drives the splint 18 to rotate, so that the two splints 18 of each pair are respectively abutted against the upper and lower sides of the mounting plate -20, through another One group of clamping plates 18 fixes the mounting plate two 22, the mounting plate one 20 and the mounting plate two 22 in the present invention are clamped and fixed by the corresponding clamping plates 18, and the mounting plate one 20 and the mounting plate are fixed by two limiting plates 17. Two 22 carry out the limit, guarantee that the installation of mounting plate 1 20, mounting plate 2 22 is stable, thereby guaranteed the safety of this internal parts of breathing and oxygen all-in-one machine;

In the present invention, the third motor 16 drives the first lead screw 15 to reversely rotate through the pulley and the belt, and the first lead screw 15 drives the lifting plate 12 to rise, so that the bottom surface of the lifting plate 12 is in close contact with the bottom surface of the mounting plate 22, and the clamping Cylinder 19 drives clamping plate 18 to rotate, and clamping plate 18 is separated from the upper and lower sides of mounting plate two 22, and the third motor 16 drives lifting plate 12 to descend, and drives mounting plate two 22 to drop on the conveyor belt 6, and second motor 10 passes through belt pulley, The belt drives the transmission rod 8 to rotate in the opposite direction, and the transmission rod 8 drives the transmission roller 7 to rotate in the reverse direction, and drives the transmission belt 6 to rotate in the reverse direction, and the mounting plate 22 and the breathing mask 23 are sent out of the housing 1, and the above steps are repeated, and the upper The installation plate 120 is disassembled together with the oxygen generating components, and the breathing and oxygen generating all-in-one machine is easy to disassemble, thereby facilitating maintenance. The installation and disassembly process is completely automated, which greatly reduces labor intensity and improves work efficiency;

In the present invention, a mounting plate 1 20 and a mounting plate 2 22 are horizontally arranged on the inner side of the housing 1, an oxygen-generating assembly is arranged on the mounting plate 1 20, a breathing mask 23 is arranged on the mounting plate 22, and the breathing mask 23 passes The inhalation pipe 24 is connected with the oxygen-generating component, and the breathing and oxygen-generating integrated machine is layered through the installation plate 1 20 and the installing plate 2 22, so that two installation spaces are formed inside the breathing and oxygen-generating integrated machine. Oxygen making assembly, breathing mask 23 are placed independently respectively, to avoid confusion, and the installation plate 22 and the breathing mask 23 are transmitted to the outside of the housing 1 by the conveyor belt 6 to use the breathing mask 23, which is more convenient.

The preferred embodiments of the invention disclosed above are only to help illustrate the invention. The preferred embodiments are not exhaustive in all detail, nor are the inventions limited to specific embodiments described. Obviously, many modifications and variations can be made based on the contents of this specification. This description selects and specifically describes these embodiments in order to better explain the principle and practical application of the present invention, so that those skilled in the art can well understand and utilize the present invention. The invention is to be limited only by the claims, along with their full scope and equivalents.

Claims (9)

1. The integrated machine convenient for disassembly and oxygen production is characterized by comprising a shell (1), wherein a supporting flat plate (2) is horizontally fixed on the inner side of the shell (1), two movable bottom plates (4) are movably mounted on the upper surface of the supporting flat plate (2), side plates (5) are fixedly mounted on the upper surfaces of the two movable bottom plates (4) through welding, conveying belts (6) are arranged on the opposite surfaces of the two side plates (5), and a movable plate (3) is fixedly mounted at the top of each side plate (5);

a lifting plate (12) is movably mounted above the supporting flat plate (2), the lifting plate (12) is horizontally arranged, two groups of clamping plates (18) are arranged on opposite surfaces of the two movable plates (3), the two groups of clamping plates (18) are distributed up and down, and each group of clamping plates (18) comprises two pairs of clamping plates (18);

a first mounting plate (20) and a second mounting plate (22) are horizontally arranged on the inner side of the shell (1), the first mounting plate (20) and the second mounting plate (22) are vertically distributed, an oxygen generation assembly is fixedly mounted on the first mounting plate (20), a breathing mask (23) is arranged on the second mounting plate (22), and the breathing mask (23) is connected with the oxygen generation assembly through an air suction pipe (24);

the below level of supporting dull and stereotyped (2) is provided with fixed plate (13), be connected through two montants (14) between fixed plate (13) and lifter plate (12), the top and the bottom of montant (14) respectively with the bottom surface of lifter plate (12) and the last surface welding of fixed plate (13) fixed, montant (14) run through supporting dull and stereotyped (2) along vertical direction, just montant (14) with support dull and stereotyped (2) sliding fit, vertically between fixed plate (13) and lifter plate (12) be provided with first lead screw (15), the top and the bottom of first lead screw (15) are connected through bearing and lifter plate (12) and fixed plate (13) rotation respectively, first lead screw (15) with support dull and stereotyped (2) threaded connection, fixed mounting has third motor (16) on fixed plate (13), the output shaft end fixed mounting of third motor (16) has the belt pulley, the bottom of first lead screw (15) also fixed mounting has the belt pulley, connects through the belt between two belt pulleys.

2. The integrated machine for conveniently disassembling and generating oxygen through breathing as claimed in claim 1, wherein the oxygen generation assembly comprises an air filter (26), an air compressor (27), an adsorber (28) and a fine screening tower (29), the air filter (26) is connected with the air compressor (27) through a conduit, the air compressor (27) is connected with the adsorber (28) through a conduit, the adsorber (28) is connected with the fine screening tower (29) through a conduit, and the fine screening tower (29) is connected with a breathing mask (23) through an air suction pipe (24).

3. The integrated machine for conveniently disassembling and generating oxygen and breathing as claimed in claim 1, wherein two pairs of said clamping plates (18) are respectively located on the movable plate (3) near one side of the corresponding limiting plate (17), and the two clamping plates (18) of each pair are oppositely arranged;

two clamping plate grooves (301) are formed in one side of the movable plate (3), the two clamping plates (18) are respectively located in the two clamping plate grooves (301), each pair of the two clamping plates (18) are vertically distributed on the inner sides of the clamping plate grooves (301), the clamping plates (18) are rotatably connected with the groove walls of the clamping plate grooves (301), the movable plate (3) is provided with two cylinder grooves (302), the two cylinder grooves (302) are respectively located on the upper portion and the lower portion of the clamping plate grooves (301), the two cylinder grooves (302) are communicated with the clamping plate grooves (301), clamping cylinders (19) are arranged on the inner sides of the two cylinder grooves (302), the two clamping cylinders (19) are respectively hinged to the groove walls of the corresponding cylinder grooves (302), and the end portions of output rods of the two clamping cylinders (19) are respectively hinged to the two clamping plates (18).

4. The integrated machine convenient to disassemble and produce oxygen is characterized in that two transmission rollers (7) are installed on the opposite surfaces of the side plates (5) in a rotating mode, the two transmission rollers (7) are connected through a transmission belt (6), a transmission rod (8) is installed on the upper surface of the support flat plate (2) in a rotating mode, the two transmission rollers (7) corresponding to the two side plates (5) are respectively sleeved on the transmission rod (8), the two sides of the transmission rod (8) are of a plane structure, the transmission rod (8) is connected with the corresponding transmission rollers (7) in a sliding mode, a second motor (10) is installed on the upper surface of the support flat plate (2), a belt pulley is fixedly installed at the output shaft end of the second motor (10), a belt pulley is fixedly installed at one end of the transmission rod (8), and the two belt pulleys are connected through a belt.

5. The integrated machine convenient to disassemble and produce oxygen as claimed in claim 1, wherein a second lead screw (11) is rotatably mounted on the upper surface of the support plate (2), a first motor (9) is fixedly mounted on the support plate (2), a belt pulley is fixedly mounted on the output shaft of the first motor (9), a belt pulley is also fixedly mounted at one end of the second lead screw (11), the two belt pulleys are connected through a belt, the second lead screw (11) is respectively in threaded connection with the bottoms of the two movable bottom plates (4), and threads at two ends of the second lead screw (11) are symmetrically distributed about the middle of the second lead screw (11).

6. The integrated machine convenient for disassembly and assembly of claim 1, wherein two slide rails are fixedly mounted on the upper surface of the support plate (2), slide blocks are fixedly mounted at the edges of two sides of the bottom surface of the movable bottom plate (4), and the movable bottom plate (4) is slidably connected with the support plate (2) through the slide blocks and the slide rails.

7. The integrated machine convenient to disassemble and assemble for breathing and oxygen production as claimed in claim 1, wherein two limiting plates (17) are fixedly mounted on the opposite surfaces of the two movable plates (3) through bolts, the two limiting plates (17) are respectively located at the edges of two sides of one side surface of the movable plate (3), and the limiting plates (17) are perpendicular to the movable plate (3).

8. The integrated machine for conveniently disassembling and generating oxygen according to claim 1, characterized in that a switch door (21) and a ventilation screen (25) are installed on one side of the casing (1).

9. The integrated machine for respiratory oxygen generation convenient to disassemble and assemble as claimed in any one of claims 1 to 8, is characterized in that the working steps of the integrated machine for respiratory oxygen generation are as follows:

the method comprises the steps that firstly, a first motor (9) is started, the first motor (9) drives a second lead screw (11) to rotate through a belt pulley and a belt, the second lead screw (11) drives two movable bottom plates (4) to move in the opposite direction or the reverse direction and drives two movable plates (3) to move in the opposite direction or the reverse direction, the distance between the two movable plates (3) is adjusted according to the width of the first mounting plate (20), a switch door (21) is opened, one end of the first mounting plate (20) provided with an oxygen generation assembly is placed on a conveying belt (6), the second motor (10) is started, the second motor (10) drives a transmission rod (8) to rotate in the forward direction through the belt pulley and the belt, the transmission rod (8) drives a transmission roller (7) to rotate in the forward direction and drives the conveying belt (6) to rotate in the forward direction, and the conveying belt (6) drives the first mounting plate (20) and the oxygen generation assembly to move to the inner side of a shell (1);

step two, a third motor (16) is started, the third motor (16) drives a first lead screw (15) to rotate in the positive direction through a belt pulley and a belt, the first lead screw (15) moves upwards while rotating and drives a lifting plate (12) to move upwards, the lifting plate (12) pushes a first mounting plate (20) and an oxygen generation assembly to ascend, the first mounting plate (20) is made to ascend to the position of a group of clamping plates (18) above, a clamping cylinder (19) is started, the clamping cylinder (19) drives the clamping plates (18) to rotate, the two clamping plates (18) of each pair respectively abut against the upper surface and the lower surface of the first mounting plate (20), the steps are repeated, the second mounting plate (22) and a breathing mask (23) are made to ascend to the position of a group of clamping plates (18) below, and the second mounting plate (22) is fixed through another group of clamping plates (18);

and step three, when the oxygen generating component is disassembled, a third motor (16) is started, the third motor (16) drives a first lead screw (15) to rotate reversely through a belt pulley and a belt, the first lead screw (15) drives a lifting plate (12) to ascend, the bottom surface of the lifting plate (12) is in close contact with the bottom surface of a second mounting plate (22), a clamping cylinder (19) drives a clamping plate (18) to rotate, the clamping plate (18) is separated from the upper surface and the lower surface of the second mounting plate (22), the third motor (16) drives the lifting plate (12) to descend and drives the second mounting plate (22) to descend onto a conveying belt (6), a second motor (10) drives a driving rod (8) to rotate reversely through the belt pulley and the belt, the driving rod (8) drives a driving roller (7) to rotate reversely and drives the conveying belt (6) to rotate reversely, the second mounting plate (22) and the breathing mask (23) are conveyed out of the shell (1), the steps are repeated, and the first mounting plate (20) above and the oxygen generating component are disassembled.

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