CN111975829A - Rubber cutting machine for defoaming and filtering oil sludge - Google Patents

Abstract

The invention discloses a rubber cutting machine for defoaming and filtering greasy filth, which structurally comprises a hydraulic cylinder, a portal frame, a control box, a cutter, a valve, a motor, a placing box and a conveying frame, wherein the portal frame is arranged on the conveying frame; the defoaming holes of the first panel and the defoaming holes of the second panel are close to the middle of the detention cavity, so that the diameters of the defoaming holes are smaller, and the oil sludge is not easy to discharge from the detention cavity.

Description

Rubber cutting machine for defoaming and filtering oil sludge

Technical Field

The invention relates to the field of rubber processing, in particular to a rubber cutting machine for defoaming and filtering oil sludge.

Background

The rubber cutting machine is a rubber processing device. Its function is to cut blocks of natural or synthetic rubber (bale) into smaller blocks that are easy to process. At present, most of the rubber cutting machines use a hydraulic system as power, because the hydraulic cylinder moves up and down to drive the cutter to cut rubber, air and moisture can be mixed into the hydraulic cylinder, generally speaking, under atmospheric pressure, about 10% of air can be dissolved in hydraulic oil, and under the high pressure of the hydraulic system, more air or gas can be dissolved in oil. Air forms bubbles in oil, if the hydraulic support is in a short time in the working process, the pressure is rapidly changed between high pressure and low pressure, the bubbles generate high temperature on the high pressure side and burst on the low pressure side, and the entering water can react with the hydraulic oil to form acidic substances and oil sludge, so that the lubricating performance of the hydraulic oil is reduced, and the abrasion of parts is accelerated to cause leakage.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a rubber cutting machine for defoaming and filtering greasy filth structurally comprises a hydraulic cylinder, a portal frame, a control box, a cutter, a valve, a motor, a placing box and a conveying frame, wherein the portal frame is arranged on the conveying frame, the hydraulic cylinder is arranged on the top end face of the portal frame, the cutter is arranged at the bottom end inside the portal frame, the conveying frame is arranged right below the cutter, the placing box is arranged on one side of the conveying frame, the motor is arranged on the placing box, and the valve is arranged on the placing box on one side of the motor; the hydraulic cylinder comprises a rear end cover, a cylinder barrel, a buffer filter, a piston rod, a front end cover and a sealing element, wherein the rear end cover is vertically connected with the front end cover through the cylinder barrel, the piston rod is arranged in the cylinder barrel, the sealing element is arranged at the connecting part between the piston rod and the front end cover, and the buffer filter is arranged at the connecting position of the cylinder barrel and the rear end cover.

As the further optimization of this technical scheme, buffer filter includes buffering post, barrel, storage mud chamber, advances mud mouth, surge chamber, bubble screen, be equipped with the buffering post in the middle of the barrel is inside positive, buffering post one end is fixed on the inside top of barrel, the bubble screen is then installed to the buffering post other end, the space that separates through the interlayer board between buffering post and the inside top of barrel is for storing up the mud chamber, it has one to advance the mud mouth to open on the interlayer board, space between interlayer board and the bubble screen is the surge chamber.

As a further optimization of the technical scheme, the sludge inlet is in a structural design with a narrow upper part and a wide lower part, and the sludge entering the sludge storage chamber from the sludge inlet is not easy to reversely flow out of the sludge storage chamber, so that the purpose of locking the sludge is realized.

As a further optimization of the technical scheme, the foam filtering net is annular, the inner arc surface of the foam filtering net is fixed with the buffer column, the outer arc surface of the other opposite end of the foam filtering net is fixed with the inner wall of the cylinder, the foam filtering net is composed of a first panel, a detention cavity, a second panel and defoaming holes, the space between the first panel and the second panel is the detention cavity, and the first panel and the second panel are provided with more than two defoaming holes.

As a further optimization of the technical scheme, the defoaming holes of the first panel and the defoaming holes of the second panel are staggered with each other, and are not on the same straight line any more, and the diameters of the defoaming holes of the first panel and the defoaming holes of the second panel are smaller when the defoaming holes of the first panel and the defoaming holes of the second panel are close to the middle of the detention cavity.

As the further optimization of this technical scheme, the bumping post is equipped with body, air chamber, gas outlet, body one end is fixed on the rear end lid, and the other end then with piston rod clearance fit, the body is folding tube, and its inside space is the air chamber, evenly be equipped with the gas outlet more than two on the body surface, communicate through the gas outlet between air chamber and the bumping room.

Advantageous effects

Compared with the prior art, the rubber bale splitter for defoaming and filtering oil sludge has the following advantages:

1. the foam filtering net also eliminates the air bubbles coming along with the flowing of the hydraulic oil, avoids the phenomenon that the air bubbles generate high temperature on the high-pressure side and burst on the low-pressure side when the air bubbles are rapidly changed between high pressure and low pressure, and reduces the performance of the air bubbles.

2. The sludge inlet is structurally designed to be narrow at the upper part and wide at the lower part, so that the sludge entering the sludge storage chamber from the sludge inlet is not easy to reversely flow out of the sludge storage chamber, and the purpose of locking the sludge is realized.

3. The defoaming holes of the first panel and the defoaming holes of the second panel are close to the middle of the detention cavity, so that the diameters of the defoaming holes are smaller, and the oil sludge is not easy to discharge from the detention cavity.

4. The folding pipe body and the air outlet of the buffer column are designed to play a role of buffering, and exhausted air also enables oil sludge staying in the buffer chamber to enter the sludge storage chamber from the sludge inlet, so that the purposes of collecting and buffering the oil sludge are achieved.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural diagram of a rubber bale cutter for defoaming and filtering oil sludge.

Fig. 2 is a schematic structural view of the hydraulic cylinder of the present invention.

FIG. 3 is a schematic view of the structure of the buffer filter of the present invention.

FIG. 4 is a schematic cross-sectional view of a buffer filter according to the present invention.

Fig. 5 is an enlarged view of a portion of the structure of fig. 3 according to the present invention.

In the figure: the device comprises a hydraulic cylinder 1, a portal frame 2, a control box 3, a cutter 4, a valve 5, a motor 6, a placing box 7, a conveying frame 8, a rear end cover 1-1, a cylinder barrel 1-2, a buffer filter 1-3, a piston rod 1-4, a front end cover 1-5, a sealing element 1-6, a buffer column 10, a barrel body 11, a sludge storage chamber 12, a sludge inlet 13, a buffer chamber 14, a foam filtering net 15, a first panel 151, a detention cavity 152, a second panel 153, a foam removing hole 154, a pipe body 101, an air cavity 102 and an air outlet 103.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, the rubber cutting machine for defoaming and filtering greasy filth provided by the invention comprises a hydraulic cylinder 1, a portal frame 2, a control box 3, a cutter 4, a valve 5, a motor 6, a placing box 7 and a conveying frame 8, wherein the portal frame 2 is mounted on the conveying frame 8, the hydraulic cylinder 1 is mounted on the top end surface of the portal frame 2, the cutter 4 is mounted at the bottom end inside the portal frame 2, the conveying frame 8 is arranged right below the cutter 4, the placing box 7 is mounted on one side of the conveying frame 8, the motor 6 is mounted on the placing box 7, and the valve 5 is mounted on the placing box 7 on one side of the motor 6;

the hydraulic cylinder 1 comprises a rear end cover 1-1, a cylinder barrel 1-2, a buffer filter 1-3, a piston rod 1-4, a front end cover 1-5 and a sealing piece 1-6, wherein the rear end cover 1-1 is vertically connected with the front end cover 1-5 through the cylinder barrel 1-2, the piston rod 1-4 is arranged inside the cylinder barrel 1-2, the sealing piece 1-6 is arranged at the connecting part between the piston rod 1-4 and the front end cover 1-5, and the buffer filter 1-3 is arranged at the connecting position of the cylinder barrel 1-2 and the rear end cover 1-1.

The buffer filter 1-3 comprises a buffer column 10, a cylinder 11, a mud storage chamber 12, a mud inlet 13, a buffer chamber 14 and a foam filtering net 15, the buffer column 10 is arranged in the middle of the inside of the cylinder 11, one end of the buffer column 10 is fixed at the top end of the inside of the cylinder 11, the foam filtering net 15 is installed at the other end of the buffer column 10, the space between the buffer column 10 and the top end of the inside of the cylinder 11, which is partitioned by a partition plate, is the mud storage chamber 12, the mud inlet 13 is formed in the partition plate, the space between the partition plate and the foam filtering net 15 is the buffer chamber 14, the buffer column 10 is impacted in the moving process of the piston rod 1-4, the buffer column 10 is folded to play a role in buffering, oil sludge is retained in the buffer chamber 14 from the mud inlet 13 to the mud storage chamber 12, the purposes of collecting and buffering oil sludge are achieved, and meanwhile the foam filtering net 15 eliminates bubbles coming along with the flowing of hydraulic oil, avoiding rapid switching of the bubbles between high and low pressures would cause the bubbles to generate high temperatures on the high pressure side and burst on the low pressure side.

The sludge inlet 13 is designed to be narrow at the top and wide at the bottom, so that the sludge in the sludge storage chamber 12 entering from the sludge inlet 13 is not easy to reversely flow out from the sludge storage chamber 12, and the purpose of locking the sludge is realized.

The utility model discloses a defoaming device, including a barrel 11, a filtering foam net 15, a first panel 151, a detention chamber 152, a second panel 153, defoaming holes 154, a first panel 151 and a second panel 153, the filtering foam net 15 is cyclic annular, and its intrados and buffer column 10 are fixed mutually, and the extrados of the other relative end is then fixed with the inner wall of barrel 11, filtering foam net 15 constitutes for first panel 151, detention chamber 152, second panel 153, defoaming holes 154, the space between first panel 151 and the second panel 153 is for detention chamber 152, first panel 151 and second panel 153 are equipped with more.

The defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 are staggered with each other and are not on the same straight line, the diameters of the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 are smaller when the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 are close to the middle of the detention cavity 152, firstly, when the piston rod 1-4 drives the hydraulic oil to move up and down, along with the flow of the hydraulic oil, the bubbles in the hydraulic oil flow to the positions of the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 and contact with each other in the flow, the bubbles in the hydraulic oil can be eliminated, the sludge in the hydraulic oil can be retained on the first panel 151 and the second panel 153 and the detention cavity 152 between the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153, the diameters of the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153, sludge is also not easily discharged from the retention chamber 152.

The buffer column 10 is provided with a pipe body 101, an air cavity 102 and an air outlet 103, one end of the pipe body 101 is fixed on the rear end cover 1-1, the other end of the pipe body 101 is movably matched with the piston rod 1-4, the pipe body 101 is a folding pipe, the space inside the pipe body is the air cavity 102, more than two air outlets 103 are uniformly arranged on the outer surface of the pipe body 101, the air cavity 102 is communicated with the buffer chamber 14 through the air outlet 103, the pipe body 101 is impacted in the reciprocating movement process of the piston rod 1-4, the pipe body 101 is folded while the air in the air cavity 102 inside the pipe body 101 is discharged from the air outlet 103, the buffering effect is achieved, and the discharged air can also enable oil sludge staying in the buffer chamber 14 to enter the sludge storage chamber 12 from the sludge inlet 13, so that the purposes of collecting and.

When the piston rod is used, the buffer column 10 is impacted in the moving process of the piston rod 1-4, air in an air cavity 102 inside a tube body 101 of the buffer column 10 is exhausted from an air outlet 103, the tube body 101 is folded to play a buffering role, exhausted air also enables oil sludge staying in the buffer chamber 14 to enter the sludge storage chamber 12 from the sludge inlet 13, the purposes of collecting and buffering the oil sludge are achieved, meanwhile, bubbles flowing along with hydraulic oil are eliminated through the foam filtering net 15, the phenomenon that the bubbles generate high temperature on a high-pressure side and burst on a low-pressure side due to the fact that the bubbles rapidly change between high pressure and low pressure is avoided, due to the fact that the sludge inlet 13 is of a structure with a narrow upper portion and a wide lower portion, the oil sludge entering the sludge storage chamber 12 from the sludge inlet 13 is not prone to reversely flowing out from the sludge storage chamber 12, and the.

Example two

Referring to fig. 1-5, the rubber cutting machine for defoaming and filtering greasy filth provided by the invention comprises a hydraulic cylinder 1, a portal frame 2, a control box 3, a cutter 4, a valve 5, a motor 6, a placing box 7 and a conveying frame 8, wherein the portal frame 2 is mounted on the conveying frame 8, the hydraulic cylinder 1 is mounted on the top end surface of the portal frame 2, the cutter 4 is mounted at the bottom end inside the portal frame 2, the conveying frame 8 is arranged right below the cutter 4, the placing box 7 is mounted on one side of the conveying frame 8, the motor 6 is mounted on the placing box 7, and the valve 5 is mounted on the placing box 7 on one side of the motor 6;

the hydraulic cylinder 1 comprises a rear end cover 1-1, a cylinder barrel 1-2, a buffer filter 1-3, a piston rod 1-4, a front end cover 1-5 and a sealing piece 1-6, wherein the rear end cover 1-1 is vertically connected with the front end cover 1-5 through the cylinder barrel 1-2, the piston rod 1-4 is arranged inside the cylinder barrel 1-2, the sealing piece 1-6 is arranged at the connecting part between the piston rod 1-4 and the front end cover 1-5, and the buffer filter 1-3 is arranged at the connecting position of the cylinder barrel 1-2 and the rear end cover 1-1.

The buffer filter 1-3 comprises a buffer column 10, a cylinder 11, a mud storage chamber 12, a mud inlet 13, a buffer chamber 14 and a foam filtering net 15, the buffer column 10 is arranged in the middle of the inside of the cylinder 11, one end of the buffer column 10 is fixed at the top end of the inside of the cylinder 11, the foam filtering net 15 is installed at the other end of the buffer column 10, the space between the buffer column 10 and the top end of the inside of the cylinder 11, which is partitioned by a partition plate, is the mud storage chamber 12, the mud inlet 13 is formed in the partition plate, the space between the partition plate and the foam filtering net 15 is the buffer chamber 14, the buffer column 10 is impacted in the moving process of the piston rod 1-4, the buffer column 10 is folded to play a role in buffering, oil sludge is retained in the buffer chamber 14 from the mud inlet 13 to the mud storage chamber 12, the purposes of collecting and buffering oil sludge are achieved, and meanwhile the foam filtering net 15 eliminates bubbles coming along with the flowing of hydraulic oil, avoiding rapid switching of the bubbles between high and low pressures would cause the bubbles to generate high temperatures on the high pressure side and burst on the low pressure side.

The sludge inlet 13 is designed to be narrow at the top and wide at the bottom, so that the sludge in the sludge storage chamber 12 entering from the sludge inlet 13 is not easy to reversely flow out from the sludge storage chamber 12, and the purpose of locking the sludge is realized.

The utility model discloses a defoaming device, including a barrel 11, a filtering foam net 15, a first panel 151, a detention chamber 152, a second panel 153, defoaming holes 154, a first panel 151 and a second panel 153, the filtering foam net 15 is cyclic annular, and its intrados and buffer column 10 are fixed mutually, and the extrados of the other relative end is then fixed with the inner wall of barrel 11, filtering foam net 15 constitutes for first panel 151, detention chamber 152, second panel 153, defoaming holes 154, the space between first panel 151 and the second panel 153 is for detention chamber 152, first panel 151 and second panel 153 are equipped with more.

The defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 are staggered with each other and are not on the same straight line, the diameters of the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 are smaller when the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 are close to the middle of the detention cavity 152, firstly, when the piston rod 1-4 drives the hydraulic oil to move up and down, along with the flow of the hydraulic oil, the bubbles in the hydraulic oil flow to the positions of the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 and contact with each other in the flow, the bubbles in the hydraulic oil can be eliminated, the sludge in the hydraulic oil can be retained on the first panel 151 and the second panel 153 and the detention cavity 152 between the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153, the diameters of the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153, sludge is also not easily discharged from the retention chamber 152.

The buffer column 10 is provided with a pipe body 101, an air cavity 102 and an air outlet 103, one end of the pipe body 101 is fixed on the rear end cover 1-1, the other end of the pipe body 101 is movably matched with the piston rod 1-4, the pipe body 101 is a folding pipe, the space inside the pipe body is the air cavity 102, more than two air outlets 103 are uniformly arranged on the outer surface of the pipe body 101, the air cavity 102 is communicated with the buffer chamber 14 through the air outlet 103, the pipe body 101 is impacted in the reciprocating movement process of the piston rod 1-4, the pipe body 101 is folded while the air in the air cavity 102 inside the pipe body 101 is discharged from the air outlet 103, the buffering effect is achieved, and the discharged air can also enable oil sludge staying in the buffer chamber 14 to enter the sludge storage chamber 12 from the sludge inlet 13, so that the purposes of collecting and.

On the basis of the first embodiment, when the piston rod 1-4 moves up and down with hydraulic oil, bubbles in the hydraulic oil flow to the positions of the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 along with the flow of the hydraulic oil, and the bubbles in the hydraulic oil can be eliminated by contacting in the flow, and sludge in the hydraulic oil can be trapped by the defoaming holes 154 staggered on the first panel 151 and the second panel 153 and the retention chamber 152 between the defoaming holes 154 and the retention chamber 152, so that the purpose of filtering clear liquid to press the hydraulic oil is achieved, and the diameters of the defoaming holes 154 of the first panel 151 and the defoaming holes 154 of the second panel 153 are smaller near the middle of the retention chamber 152, so that the sludge is not easy to be discharged from the retention chamber 152.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides a rubber bale splitter of defoaming filtration fatlute which characterized in that: the automatic feeding device comprises a hydraulic cylinder (1), a portal frame (2), a control box (3), a cutter (4), a valve (5), a motor (6), a placing box (7) and a conveying frame (8), wherein the portal frame (2) is installed on the conveying frame (8), the hydraulic cylinder (1) is installed on the top end face of the portal frame (2), the cutter (4) is installed at the bottom end inside the portal frame (2), the conveying frame (8) is arranged right below the cutter (4), the placing box (7) is installed on one side of the conveying frame (8), the motor (6) is installed on the placing box (7), and the valve (5) is installed on the placing box (7) on one side of the motor (6);

the hydraulic cylinder (1) comprises a rear end cover (1-1), a cylinder barrel (1-2), a buffer filter (1-3), a piston rod (1-4), a front end cover (1-5) and a sealing piece (1-6), wherein the rear end cover (1-1) is vertically connected with the front end cover (1-5) through the cylinder barrel (1-2), the piston rod (1-4) is arranged inside the cylinder barrel (1-2), the sealing piece (1-6) is arranged at the connecting part between the piston rod (1-4) and the front end cover (1-5), and the buffer filter (1-3) is arranged at the connecting position of the cylinder barrel (1-2) and the rear end cover (1-1).

2. The rubber bale cutter for defoaming filtered sludge as claimed in claim 1, wherein: buffer filter (1-3) include buffering post (10), barrel (11), store up mud chamber (12), advance mud mouth (13), surge chamber (14), strain bubble net (15), be equipped with buffering post (10) in the middle of barrel (11) inside is positive, buffering post (10) one end is fixed on barrel (11) inside top, buffering post (10) other end then installs and strains bubble net (15), the space that becomes through the interlayer board partition between buffering post (10) and barrel (11) inside top is for storing up mud chamber (12), it has one to advance mud mouth (13) to open on the interlayer board, the space between interlayer board and the strain bubble net (15) is surge chamber (14).

3. The rubber bale cutter for defoaming filtered sludge as claimed in claim 2, wherein: the mud inlet (13) is of a structure with a narrow upper part and a wide lower part.

4. The rubber bale cutter for defoaming filtered sludge as claimed in claim 2, wherein: it is cyclic annular to strain bubble net (15), and its intrados and bumping post (10) are fixed mutually, and the extrados of relative other end then is fixed with the inner wall of barrel (11), strain bubble net (15) and constitute for first panel (151), detention chamber (152), second panel (153), defoaming hole (154), space between first panel (151) and second panel (153) is detention chamber (152), first panel (151) and second panel (153) are equipped with defoaming hole (154) more than two.

5. The rubber bale cutter for defoaming filtered sludge as claimed in claim 4, wherein: the defoaming holes (154) of the first panel (151) and the defoaming holes (154) of the second panel (153) are staggered with each other, and are not on the same straight line any more, and the diameters of the defoaming holes (154) of the first panel (151) and the defoaming holes (154) of the second panel (153) which are close to the middle of the retention cavity (152) are smaller.

6. The rubber bale cutter for defoaming filtered sludge as claimed in claim 2, wherein: buffer column (10) are equipped with body (101), air chamber (102), gas outlet (103), body (101) one end is fixed on rear end housing (1-1), and the other end then with piston rod (1-4) clearance fit, body (101) are folding tube, and its inside space is air chamber (102), evenly be equipped with gas outlet (103) more than two on body (101) the surface, communicate through gas outlet (103) between air chamber (102) and buffer chamber (14).

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