CN209835035U - Intelligent material pumping device - Google Patents

Abstract

The utility model discloses an intelligence is taken out material device, it is including the material bag seat, the material pumping pipe and the drive assembly that are used for fixed pocket, in material pumping pipe one end was used for inserting the aggregate of pocket, the other end linked to each other with drive assembly, and drive assembly is used for the vertical rebound of drive material pumping pipe to and under predetermined drive power, the vertical downward movement of drive material pumping pipe. This predetermined drive power can guarantee that the material pumping pipe can descend along with the material level together, and insert in the granule all the time, and this predetermined drive power's size can match the falling speed of material pumping pipe according to the material pumping speed of extruder, drive power is big more, the depth that the material pumping pipe inserted in the granule is darker, can be according to the drive power of the material pumping speed adjustment of difference to the material pumping pipe, guarantee that the material pumping pipe descends along with the decline of granule, can not cause empting of material pumping pipe, lead to taking out not the material loading, consequently, can not cause extruder hopper to lack the material yet, lead to the extruder to lack the material, the emergence of the condition that the optical cable was skinned.

Description

Intelligent material pumping device

Technical Field

The utility model relates to a material feeding unit technical field, concretely relates to material device is taken out to intelligence.

Background

In present optical cable product production, what the hopper of extruder was stored is the required raw materials of optical cable process "loose cover and sheath", whether the raw materials is sufficient direct relation to the product can just produce the output, and present material mode of taking out is taken out the material by a stainless steel material gun of taking out and directly inserts and take out the material inside the material package, and this kind of material mode of taking out has following problem:

1. when the materials in the material bag are sufficient, the material pumping gun is inserted into the material bag, the material level can be reduced along with the use of the materials, the material pumping gun cannot be reduced along with the material level, so that the material pumping gun is toppled, the material is not pumped and loaded, the material pumping machine alarms at the moment, an operator is reminded to reset the material pumping gun again, and if the operator does not hear the alarm, the hopper is starved, so that the extruder is starved, and the optical cable is peeled;

2. when the materials in the material bag are insufficient, the material suction gun cannot be fixed by inserting the materials, and the materials are often sucked onto a plastic film of the material bag to cause blockage, so that the negative pressure fan is overloaded, the service life of the fan is influenced, and the cost of spare parts is increased; and the operator can only keep beside the material bag until the material in the material bag is used up, which wastes the labor force of the personnel.

SUMMERY OF THE UTILITY MODEL

To the defect that exists among the prior art, the utility model aims to provide an intelligence is taken out material device takes out material pipe can descend along with the material level together, prevents to take out the material pipe and emptys, leads to taking out not the material loading.

In order to achieve the above purpose, the utility model adopts the technical proposal that:

an intelligence is taken out material device, it includes:

a pocket holder for holding a pocket;

the material pumping pipe is used for inserting one end of the material pumping pipe into the granules of the material bag;

and the driving assembly is connected with the other end of the pumping pipe and is used for driving the pumping pipe to vertically move upwards and driving the pumping pipe to vertically move downwards under a preset driving force.

On the basis of the above technical solution, the driving assembly includes:

the material pumping pipe is arranged on the vertical platform in a sliding manner through a supporting rod;

a gas source;

the power output end of the cylinder is connected with the supporting rod and is provided with a three-way electromagnetic valve and three first gas passages, one first gas passage is connected with the gas source and the inlet of the three-way electromagnetic valve, one end of each of the other two first gas passages is respectively connected with two outlets of the three-way electromagnetic valve, and the other end of each of the other two first gas passages is respectively connected with the top end and the bottom end of the cylinder;

and the controller is connected with the three-way electromagnetic valve and is used for controlling the opening and closing of the three-way electromagnetic valve.

On the basis of the technical scheme, the driving assembly further comprises a pressure gauge, and the pressure gauge is arranged on a first air passage connected with the air source.

On the basis of the technical scheme, the intelligent material pumping device further comprises a sensor, the controller is connected with the sensor and used for receiving data detected by the sensor, judging whether to stop the material pumping pipe from descending or not according to the relation between the data and first preset data, and controlling the driving assembly to execute corresponding actions.

On the basis of the technical scheme, the sensor is a weighing sensor, the weighing sensor is used for detecting the weight of the material bag, and the controller judges whether to stop the descending of the material pumping pipe or not according to the relation between the weight of the material bag and the preset weight.

On the basis of the technical scheme, the sensor is a position sensor, the position sensor is used for detecting the position of the pumping pipe, and the controller is used for judging whether to stop the descending of the pumping pipe or not according to the relation between the position of the pumping pipe and a preset position.

On the basis of the technical scheme, the intelligent material pumping device further comprises an air blowing head, the air blowing head is arranged on the material pumping pipe and is connected with the air source through a second air path channel, a second electromagnetic valve is arranged on the second air path channel, the controller is connected with the second electromagnetic valve and is used for receiving data detected by the sensor, judging whether the air blowing head is started or not according to the relation between the data and second preset data, and controlling the second electromagnetic valve to execute corresponding actions.

On the basis of the technical scheme, a plurality of air blowing holes are formed in the air blowing head, the plurality of air blowing holes are formed in the circumferential direction of the air blowing head, and the air blowing holes are communicated with the second air path channel.

On the basis of the technical scheme, the material bag fixing rod is arranged on the material bag seat and is located on the side edge of the material bag seat, and the material bag fixing rod is rotatably connected to the material bag seat.

On the basis of the technical scheme, the inner structure of the material bag seat is a funnel structure which is downwards concave.

Compared with the prior art, the utility model has the advantages of:

(1) the utility model discloses an intelligence material pumping device is at the material pumping in-process, before the material pumping, drive assembly drive material pumping pipe vertical upward movement, make material pumping pipe keep away from the material bag seat, conveniently place the material bag in the material bag seat and fixed, after placing the material bag, drive assembly is under predetermined drive power, drive material pumping pipe vertical downward movement, material pumping pipe vertical insertion granule, and predetermined drive power enables material pumping pipe to descend along with the decline of granule, this predetermined drive power can guarantee that material pumping pipe can descend along with the material level, and insert in the granule always, and the size of this predetermined drive power can match the falling speed of material pumping pipe according to the material pumping speed of extruder, drive power is big more, material pumping pipe inserts the degree of depth in the granule more, can be according to the drive power of different material pumping speed adjustment to material pumping pipe, guarantee that material pumping pipe descends along with the decline of granule, the material pumping pipe cannot be toppled over, the material cannot be pumped, the extruder hopper cannot be lack of material, the extruder cannot be lack of material, and the optical cable peeling situation cannot occur.

(2) The utility model discloses a drive assembly theory of operation is simple, easily realizes the vertical rising and the vertical decline of pumping pipe to the vertical rising and the vertical decline of pumping pipe separately go on, mutual noninterference, the effect that has played the vertical rising of switching pumping pipe and vertical decline of opening and closing of three way solenoid valve has effectively prevented empting of pumping pipe, leads to taking out the phenomenon of material loading not.

Drawings

Fig. 1 is a schematic structural diagram of an intelligent material pumping device in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a driving assembly according to an embodiment of the present invention;

fig. 3 is the embodiment of the utility model provides an in the embodiment of the cross-sectional view of material device is taken out to intelligence.

Fig. 4 is a schematic structural view of a material bag holder in an embodiment of the present invention.

In the figure: the material bag fixing device comprises a material bag 1, a material bag 2, a material bag base 3, a material pumping pipe 4, a driving assembly 40, a vertical platform 41, a gas source 42, a cylinder 42, a first gas path channel 420, a controller 43, a pressure gauge 44, a gas blowing head 45, a gas blowing hole 450, a second gas path channel 46, a support rod 5 and a material bag fixing rod 6.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and examples.

Referring to fig. 1, an embodiment of the present invention provides an intelligent material pumping device, which includes a material bag seat 2 for fixing a material bag 1, a material pumping pipe 3 and a driving assembly 4, when in use, one end of the material pumping pipe 3 is inserted into the aggregate of the material bag 1, the material pumping pipe 3 is connected to an extruder through a transparent metal pipe, and the extruder pumps the aggregate in the material bag 1 into the material pumping pipe 3 through a negative pressure pump and conveys the aggregate to the extruder; the other end of the pumping pipe 3 is connected with a driving assembly 4, before pumping, the driving assembly 4 drives the pumping pipe 3 to vertically move upwards to enable the pumping pipe 3 to be far away from the material bag seat 2, so that the material bag 1 is conveniently placed and fixed in the material bag seat 2, after the material bag 1 is placed, the driving assembly 4 drives the pumping pipe 3 to vertically move downwards under the preset driving force, the pumping pipe 3 is vertically inserted into the granular materials, the preset driving force can enable the pumping pipe 3 to descend along with the descending of the granular materials, the preset driving force can ensure that the pumping pipe 3 can descend along with the material level and is always inserted into the granular materials, the preset driving force can be matched with the descending speed of the pumping pipe 3 according to the pumping speed of an extruder, the larger the driving force is, the deeper the depth of the pumping pipe 3 inserted into the granular materials is, the driving force for the pumping pipe 3 can be adjusted according to different pumping speeds, and the pumping pipe 3 is ensured to descend along with the descending, the material pumping pipe 3 cannot be toppled over, the material cannot be pumped, the extruder hopper cannot be lack of material, the extruder cannot be lack of material, and the optical cable peeling situation cannot occur.

Referring to fig. 2, the driving assembly 4 includes a vertical platform 40, the pumping pipe 3 is slidably disposed on the vertical platform 40 through a support rod 5, the pumping pipe 3 is parallel to the vertical platform 40, the support rod 5 is transversely disposed between the pumping pipe 3 and the vertical platform 40, a slide rail is disposed on the vertical platform 40, a slider is disposed at one end of the support rod 5 connected to the vertical platform 40, and the support rod 5 is slidably disposed on the slide rail through the slider, so that the pumping pipe 3 can vertically move up and down along the slide rail; the driving assembly 4 further comprises an air source 41 and an air cylinder 42, the air source 41 supplies compressed air to the air cylinder 42, the air cylinder 42 comprises a rodless cavity and a rod cavity, a piston is arranged between the rodless cavity and the rod cavity, a piston rod is connected to the piston, the piston rod extends to the outside from the rod cavity, when the air source 41 inputs compressed air from the rodless cavity, the rod cavity exhausts air, and the piston is pushed to move by the force formed by the pressure difference between the two cavities of the air cylinder 42 acting on the piston, so that the piston rod extends out; when the air source 41 inputs compressed air from the rod chamber, the rodless chamber exhausts, and the force generated by the pressure difference between the two chambers of the air cylinder 42 acting on the piston pulls the piston to move, so that the piston rod retracts.

The embodiment of the utility model provides an in the piston rod of cylinder 42 link to each other with bracing piece 5, cylinder 42 has three solenoid valve and three first gas circuit way 420, one of them first gas circuit way 420 connects air supply 41 and the entrance of three solenoid valve, air supply 41 supplies air for cylinder 42 through this first gas circuit way 420, two other first gas circuit way 420 one end is connected two exports of three solenoid valve respectively, the other end is connected the top and the bottom of cylinder 42 respectively, first gas circuit way 420 of connecting at the top of cylinder 42 is linked together with the pole chamber of cylinder 42, when air supply 41 inputs compressed air from the pole chamber through this first gas circuit way 420, no pole chamber exhausts, the pressure differential in the two chambers of cylinder 42 acts on the piston and the piston motion is pulled to the power that forms on the piston, make the piston rod retract, thereby realize the vertical decline of pumping pipe 3; the first air passage 420 connected to the bottom end of the air cylinder 42 is communicated with the rodless cavity of the air cylinder 42, when the air source 41 inputs compressed air from the rodless cavity through the first air passage 420, the rodless cavity exhausts air, and the piston is pushed to move by the force formed by the pressure difference between the two cavities of the air cylinder 42 acting on the piston, so that the piston rod extends out, and the vertical rising of the pumping pipe 3 is realized.

The utility model discloses a drive assembly 4 still includes controller 43, controller 43 links to each other with three solenoid valve for control three solenoid valve's opening and shutting, when three solenoid valve opens, make the first gas-path passageway 420 of connection in cylinder 42 bottom open, when air supply 41 passes through this first gas-path passageway 420 from no pole chamber input compressed air, have the pole chamber to exhaust, the piston motion is pushed to the pressure differential effect that forms on the piston in the two chambeies of cylinder 42, make the piston rod stretch out, thereby realize the vertical rising of pumping pipe 3; when the three-way electromagnetic valve is closed, the first air passage 420 connected to the top end of the air cylinder 42 is opened, and the air source 41 inputs compressed air from the rod cavity through the first air passage 420, the rodless cavity exhausts air, and the piston is pulled to move by the force formed by the pressure difference between the two cavities of the air cylinder 42 acting on the piston, so that the piston rod retracts, and the vertical descending of the pumping pipe 3 is realized. The embodiment of the utility model provides an in drive assembly 4's theory of operation is simple, easily realizes the vertical rising and the vertical decline of pumping pipe 3 to the vertical rising and the vertical decline of pumping pipe 3 separately go on, mutual noninterference, the opening and closing of three way solenoid valve has played the effect of switching the vertical rising of pumping pipe 3 and vertical decline, has effectively prevented empting of pumping pipe 3, leads to taking out the phenomenon of material loading.

Referring to fig. 2-3, the driving assembly 4 further includes a pressure gauge 44, the pressure gauge 44 is disposed on the first air passage 420 connected to the air source 41, the pressure gauge 44 is used for controlling the pressure of the compressed air input from the air source 41 into the air cylinder 42, so that the pressure gauge 44 can adjust the magnitude of the predetermined driving force, thereby adjusting the depth of the pumping pipe 3 inserted into the granules, and ensuring that the pumping pipe 3 descends along with the descending of the granule level.

Preferably, the embodiment of the utility model provides an intelligence is taken out material device and is still included the sensor, and controller 43 links to each other with the sensor, and it is used for receiving the data that the sensor detected to judge whether to stop taking out the decline of material pipe 3 according to the relation of this data and first preset data, and control drive assembly 4 and carry out corresponding action. The first preset data is used for judging whether to stop descending of the material pumping pipe 3, if the data is larger than the first preset data, the controller 43 controls the driving assembly 4 to continue working, the descending of the material pumping pipe 3 is not stopped, and if the data is equal to the first preset data, the controller 43 controls the driving assembly 4 to stop working, and stops the material pumping pipe 3 to continue descending, so that the material pumping pipe 3 is prevented from descending to the bottom of the material bag 1 and being sucked onto a plastic film of the material bag 1 to cause blockage, and therefore the negative pressure fan is overloaded, the service life of the fan is influenced, and the cost of spare parts is increased; by the mode, an operator can be not required to keep beside the material bag 1 until the granular materials in the material bag 1 are used up, the labor force of the personnel is avoided being wasted, and the intellectualization is realized.

The embodiment of the utility model provides a sensor is weighing sensor or position sensor, if the sensor is weighing sensor, weighing sensor is used for detecting the weight of material bag 1, for example, the gross weight of a bag of aggregate is 50kg, predetermine weight and be 10g, when the weight surplus 10g of aggregate, just stop the decline of drawing material pipe 3, weighing sensor detects the weight of material bag 1 and uploads controller 43, controller 43 receives weight information, compare the weight of material bag 1 with predetermine weight 10g, if the weight of material bag 1 is greater than 10kg, controller 43 control drive assembly 4 continues work, the decline of drawing material pipe 3 does not stop, weight when material bag 1 reaches 10kg, controller 43 control drive assembly 4 stops work, and stop the decline of drawing material pipe 3.

If the sensor is a position sensor, the position sensor is used for detecting the position of the pumping pipe 3, specifically, the distance from the bottom end of the pumping pipe 3 to the bottom end of the material bag 1, for example, the preset position is that the bottom end of the pumping pipe 3 is 10cm from the bottom end of the material bag 1, that is, when the bottom end of the pumping pipe 3 reaches 10cm from the bottom end of the material bag 1, the descending of the pumping pipe 3 is stopped, the position sensor detects the position of the pumping pipe 3 and uploads the position to the controller 43, the controller 43 receives the position information, compares the position information with the preset position, if the position information is greater than 10cm, the controller 43 controls the driving assembly 4 to continue to work, the descending of the pumping pipe 3 is not stopped, and when the position reaches 10cm, the controller 43 controls the driving assembly 4 to stop working, and stops the descending of the pumping pipe 3.

Referring to fig. 2-3, the intelligent pumping device further includes an air blowing head 45, the air blowing head 45 is disposed on the pumping pipe 3 and connected to the air source 41 through a second air path 46, a second electromagnetic valve is disposed on the second air path 46, and the controller 43 is connected to the second electromagnetic valve and used for receiving data detected by the sensor, determining whether to open the air blowing head 45 according to a relationship between the data and second preset data, and controlling the second electromagnetic valve to execute corresponding actions. This second preset data can be equal to first preset data, that is to say when the sensor is weighing sensor or position sensor, second preset data can be for predetermineeing weight 10g or predetermineeing position 10cm, second preset data also can have a plurality ofly, that is to say when the sensor is weighing sensor or position sensor, second preset data can be for predetermineeing weight 50g and 10g or predetermineeing position 20cm and 10cm, consequently, air blowing head 45 can blow once or many times to pocket 1, will adsorb the granule on pocket 1 and blow down and fall to the bottom of pocket 1, the material is taken out to reuse drawing pipe 3. The embodiment of the utility model provides a sensor is weighing sensor, the second is preset data and is 10g, weight that detects pocket 1 when weighing sensor is 10kg, this weight data is received to controller 43, and predetermine data with the second and compare, control second solenoid valve opens, air supply 41 inputs compressed gas to second gas circuit passageway 46, and input air blowing head 45, air blowing head blows to pocket 1, the aggregate that will adsorb on pocket 1 blows down the bottom that falls to pocket 1, the material is taken out to reuse pump out pipe 3, avoid the waste of aggregate.

Referring to fig. 2-3, further, the blowing head 45 is provided with a plurality of blowing holes 450, the plurality of blowing holes 450 are arranged along the circumferential direction of the blowing head 45, and the blowing holes 450 are communicated with the second air path channel 46. The embodiment of the utility model provides an in air blowing head 45 includes the air cavity, has seted up 16 air blowing heads on the air cavity, and the air cavity is linked together with second gas circuit passageway 46, and second gas circuit passageway 46 carries compressed gas to the air cavity, and 16 air blowing heads 45 blow along the circumferencial direction of pocket 1, and all blow in pocket 1 bottom with the aggregate of electrostatic absorption on pocket 1, and pumping pipe 3 blows in the extruder with the whole aspirations of surplus aggregate.

Referring to fig. 4, a material bag fixing rod 6 is arranged on the material bag base 2, the material bag fixing rod 6 is located on the side edge of the material bag base 2, and the material bag fixing rod 6 is rotatably connected to the material bag base 2. The utility model discloses an every side of pocket seat 2 all is equipped with pocket dead lever 6, and the one end of pocket dead lever 6 is passed through the axis of rotation and is connected on pocket seat 2, and the other end can revolute the axis of rotation, and when rotatory vertical state, pocket 1 ties up on pocket dead lever 6 through connecting the rope, prevents collapsing of pocket 1, and the back that finishes using fixes pocket dead lever 6 on pocket seat 2.

Referring to fig. 3, the inner structure of the material bag holder 2 is a funnel structure recessed downward. The aggregate can descend toward the center of pocket 1 always because of the action of gravity like this, will take out material pipe 3 and insert the center of pocket 1, can prevent the waste of aggregate, and the aggregate that air-blowing head 45 blown down also can fall into the center of pocket 1 moreover, makes things convenient for material pipe 3 to take out the material.

The present invention is not limited to the above embodiments, and for those skilled in the art, a plurality of improvements and decorations can be made without departing from the principle of the present invention, and these improvements and decorations are also considered to be within the protection scope of the present invention. Those not described in detail in this specification are within the skill of the art.

Claims (10)

1. The utility model provides a material device is taken out to intelligence which characterized in that, it includes:

a material bag seat (2) for fixing the material bag (1);

a material pumping pipe (3), one end of which is inserted into the granules of the material bag (1);

and the driving assembly (4) is connected with the other end of the pumping pipe (3) and is used for driving the pumping pipe (3) to vertically move upwards and driving the pumping pipe (3) to vertically move downwards under a preset driving force.

2. The intelligent pumping device according to claim 1, wherein the driving assembly (4) comprises:

the material pumping pipe (3) is arranged on the vertical platform (40) in a sliding mode through a supporting rod (5);

a gas source (41);

the power output end of the air cylinder (42) is connected with the supporting rod (5), the air cylinder (42) is provided with a three-way electromagnetic valve and three first air passages (420), one first air passage (420) is connected with the air source (41) and the inlet of the three-way electromagnetic valve, one end of each of the other two first air passages (420) is respectively connected with two outlets of the three-way electromagnetic valve, and the other end of each of the other two first air passages (420) is respectively connected with the top end and the bottom end of the air cylinder (42);

and the controller (43) is connected with the three-way electromagnetic valve and is used for controlling the opening and closing of the three-way electromagnetic valve.

3. The intelligent pumping device according to claim 2, wherein the driving assembly (4) further comprises a pressure gauge (44), and the pressure gauge (44) is arranged on the first air passage (420) connected with the air source (41).

4. The intelligent pumping device according to claim 2, further comprising a sensor, wherein the controller (43) is connected to the sensor, and is configured to receive data detected by the sensor, determine whether to stop the descent of the pumping pipe (3) according to a relationship between the data and first preset data, and control the driving assembly (4) to perform a corresponding action.

5. The intelligent pumping device according to claim 4, wherein the sensor is a weighing sensor, the weighing sensor is used for detecting the weight of the material bag (1), and the controller (43) determines whether to stop the descending of the pumping pipe (3) according to the relationship between the weight of the material bag (1) and a preset weight.

6. The intelligent pumping device according to claim 4, wherein the sensor is a position sensor, the position sensor is used for detecting the position of the pumping pipe (3), and the controller (43) is used for judging whether to stop the descending of the pumping pipe (3) according to the relation between the position of the pumping pipe (3) and a preset position.

7. The intelligent pumping device according to claim 4, further comprising an air blowing head (45), wherein the air blowing head (45) is disposed on the pumping pipe (3) and connected to the air source (41) through a second air passage (46), a second solenoid valve is disposed on the second air passage (46), and the controller (43) is connected to the second solenoid valve and configured to receive data detected by the sensor, determine whether to open the air blowing head (45) according to a relationship between the data and second preset data, and control the second solenoid valve to perform corresponding actions.

8. The intelligent pumping device as claimed in claim 7, wherein the air blowing head (45) is provided with a plurality of air blowing holes (450), the plurality of air blowing holes (450) are arranged along the circumferential direction of the air blowing head (45), and the air blowing holes (450) are communicated with the second air path channel (46).

9. The intelligent material pumping device according to claim 1, wherein a material bag fixing rod (6) is arranged on the material bag base (2), the material bag fixing rod (6) is arranged on the side edge of the material bag base (2), and the material bag fixing rod (6) is rotatably connected to the material bag base (2).

10. The intelligent pumping device as claimed in claim 1, wherein the inner structure of the material bag base (2) is a funnel structure which is concave downwards.