CN117566459A - Polyvinyl chloride cable material processing material tank with high processing efficiency and processing method - Google Patents

Abstract

The invention discloses a polyvinyl chloride cable material processing material tank with high processing efficiency and a processing method. According to the invention, by installing the round cover, a worker unscrews the round cover, moves the pipe orifice into the inner side of the inlet, moves the bag-shaped container loaded with raw materials to the inner sides of the rear shell and the front shell, opens the outlet of the bag-shaped container loaded with raw materials, unscrews the first bolt out of the inner sides of the edge blocks, moves the fixing frame to the tops of the rear shell and the bag-shaped container, unscrews the first bolt into the inner sides of the edge blocks through the inner sides of the square blocks, lifts the rear shell upwards, moves the raw materials in the bag-shaped container into the inner sides of the flexible pipe through the inner sides of the front shell under the action of self gravity, moves the raw materials into the inner sides of the tank body through the inner sides of the flexible pipe and the inlet, and sequentially pours proper amounts of raw materials and auxiliary materials into the inner sides of the tank body.

Description

Polyvinyl chloride cable material processing material tank with high processing efficiency and processing method

Technical Field

The invention relates to the technical field of polyvinyl chloride cable material processing, in particular to a polyvinyl chloride cable material processing material tank with high processing efficiency and a processing method.

Background

The processing material jar is the necessary facility in the processing polyvinyl chloride cable material working process, and the staff is put into processing material jar with raw materials and auxiliary material and stirs preparation work, has agitated vessel in the processing material jar, can stir raw materials and auxiliary material and work to can make its intensive mixing, thereby can improve the machining efficiency of polyvinyl chloride cable material, has the reason that traditional device is not perfect enough, does not have the facility of conveniently carrying out the material loading to raw materials and auxiliary material, and the material loading is more troublesome, and a polyvinyl chloride cable material processing material jar and the processing method that machining efficiency is high can provide convenience for the staff.

The existing processing material tank has the defects that:

1. patent document: EP3532810B1 discloses a system and method for a material sensor of a material tank, "comprising a material tank configured to receive a quantity of material and output a flow of material, the material sensor system comprising a float system coupled to an inner surface of the material tank, the float system comprising a float configured to float within a float cavity, the material sensor system comprising a switch coupled to an outer surface of the material tank, the switch communicatively coupled to the float system through a wall of the material tank, and the switch configured to send one or more signals to a control system when the float engages the switch. The traditional processing material tank is not perfect enough, has no facility capable of conveniently feeding, and increases the feeding difficulty, thereby affecting the processing efficiency.

2. Patent document: JP6854621B2 discloses a coating composition for a processing tank, a method for producing a processing tank, and a processing tank, wherein "a coating composition for a tank comprising a polyester resin, an amino resin, an epoxy resin, and a modified silicone in combination with processing" is disclosed, wherein the content of the modified silicone is 0.08 to 0.42 parts by mass relative to the total content (100 parts by mass) of the polyester resin. The traditional processing material tank is not perfect enough, has the function of conveniently detecting, is inconvenient to increase the feeding speed of raw materials and auxiliary materials, and increases the feeding time.

3. Patent document: CN213972050U discloses a preparation facilities is used in processing of polyvinyl chloride cable material, "including the screening machine body, screening machine body inner wall fixedly connected with mounting groove, fixedly connected with rotates the motor in the mounting groove, the output shaft fixedly connected with commutator of rotating the motor, the first output shaft fixedly connected with first runner of commutator, rotate between the both sides inner wall of mounting groove and be connected with the dwang, the cover is equipped with cam and second runner on the dwang, first runner passes through track and second runner transmission connection, the lateral wall of mounting groove passes through reset spring fixedly connected with and cam matched movable rod, the utility model can be with the impurity screening of size that mingles with in the polyvinyl chloride resin granule, avoid impurity mingled with in the polyvinyl chloride resin granule, not only avoided impurity to harm subsequent reaction unit, avoided leading to cable material performance to reduce because of impurity moreover, guaranteed the quality of polyvinyl chloride cable material. The traditional processing material tank is not perfect enough, can avoid leading to cable material performance to reduce because of the impurity, can guarantee the quality of polyvinyl chloride cable material, and when carrying out the material loading work, the calculation of the material loading volume is not convenient for carry out to raw materials and auxiliary material, and the staff of being inconvenient for carries out the material loading work according to the proportion.

4. Patent document: CN219447977U discloses a material tank for processing polyvinyl chloride cable materials, which comprises a supporting seat, a material tank body and a connecting circular cover, wherein the top of the supporting seat is provided with the material tank body, a transmission cavity is formed in the material tank body and penetrates through the top of the material tank body, one side of the transmission cavity is provided with a plurality of air dispersing holes, the top of the material tank body is provided with the connecting circular cover, the bottom of the connecting circular cover is provided with an inserting pipe in a penetrating manner, the outer side of the inserting pipe is provided with a plurality of transmission holes, the top of the material tank body is connected with an extraction fan through a connecting shell, so that harmful gas generated by materials in the material tank body can be discharged into the transmission cavity through the air dispersing holes, and then the material tank body is extracted and discharged through the extraction fan to achieve a ventilation effect, thereby avoiding the aggregation of harmful gas in the pipe body, and the harmful gas is sucked into the body to cause damage when workers discharge the materials. The traditional processing material tank is not perfect enough, can avoid the inside harmful gas gathering of body, reaches ventilation effect, is inconvenient for preventing raw materials and auxiliary material from spilling and leaking, has increased the waste of material.

Disclosure of Invention

The invention aims to provide a polyvinyl chloride cable material processing material tank with high processing efficiency and a processing method thereof, so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the polyvinyl chloride cable material processing material tank comprises a tank body, wherein a feeding assembly is arranged at the top of the tank body, and the feeding assembly is used for feeding;

the feeding assembly comprises a supporting plate, the supporting plate is positioned at the top of the tank body and is used for providing support for a component at the top of the tank body, a cushion block is arranged at the top of the supporting plate and is made of rubber materials and used for reducing vibration generated by the movement of the supporting plate, two fixing blocks are arranged at the top of the supporting plate and positioned at one side of the cushion block, a short bolt is arranged between the two fixing blocks, a rotating block is arranged at the outer side of the short bolt and positioned between the two fixing blocks, a front shell is arranged at the top of the rotating block, a rear shell is arranged at one side of the front shell and positioned at the top of the supporting plate, a hose is arranged at the front side of the front shell, and a pipe orifice is arranged at the other end of the hose;

The intelligent module is arranged on the front surface of the tank body and used for controlling the whole tank body, the intelligent module comprises a controller, the controller is positioned on the front surface of the tank body, a annunciator is arranged on the inner side of the controller, and the tank body, the controller and the annunciator are electrically connected;

through the operation controller, make the controller send operating signal, operating signal passes through the annunciator and gives the jar body, makes the controller can control the processing material jar.

Preferably, the jar body is processing material jar, and jar body can carry out processing work to polyvinyl chloride cable material, and import is installed at the top of jar body, and the dome is installed to the outside screw thread of import, and the dome is located the top of jar body, and electromagnetic valve is installed in penetrating the bottom of jar body, and a supporting shoe is installed respectively around the jar body, and leg post is installed to the bottom of supporting shoe, and leg post and ground contact.

Preferably, the motor is installed at the top of the tank body, and the output end of the motor runs through the top of the tank body, the stirring frame is installed at the bottom of the output end of the motor, and the stirring frame is located at the inner side of the tank body.

Preferably, a side block is respectively installed on two sides of the rear shell, a first bolt is installed in the side block through threads, a square block is installed on the outer side of the first bolt and located at the top of the side block, a fixing frame is installed between the two square blocks, and the fixing frame is located at the top of the rear shell.

Preferably, the supporting component is installed at the top of the jar body, and the supporting component is used for supporting the container that loads raw materials and auxiliary material, and the supporting component includes the outer mouth, and the outer mouth is located the outside of import, and the drain pan is installed at the top of outer mouth, and the top shell is installed at the top of drain pan, and a hollow piece is respectively installed to the both sides of top shell, and the circle piece is installed to the inboard of hollow piece, and the quarter butt is installed to the bottom of circle piece, and the screw piece is installed to the bottom of quarter butt, and two thread bush are installed at the top of the jar body, and two thread bush are located the both sides of import respectively, and thread bush and screw piece carry out threaded connection.

Preferably, the anti-blocking component is installed to one side of preceding shell, and anti-blocking component can prevent that the hose inboard from causing the jam, and anti-blocking component can promote the material loading speed of raw materials and auxiliary material, and anti-blocking component includes two sideboards, and two sideboards are located the both sides of backshell respectively, and the long board is installed to one side of sideboard, and the spout has been seted up to one side of long board, and the slider is installed to the inboard of spout, and the cylinder shell is located one side of long board, and the retaining block is installed to the inboard of cylinder shell, and the interior pole is installed to one side of retaining block, and the part of interior pole is located the inboard of cylinder shell, installs the lantern ring between two interior poles, and the lantern ring is located the outside of hose, and the handle is installed to one side of lantern ring.

Preferably, the measuring component is installed at the top of backshell, the measuring component is used for measuring the container that loads raw materials and auxiliary material, the measuring component includes two bottom blocks, two bottom blocks are located the both sides of backshell respectively, the frame is installed at the top of two bottom blocks, and the frame is located the top of backshell, the scale mark has respectively been marked to the both sides of frame, the opening has respectively been seted up in the both sides of frame, the shell is installed at the top of frame, the dead bolt is installed to the front run through screw thread of shell, the top shell is installed at the top of shell, the spring is installed to the roof inboard of top shell, the movable rod is installed to the bottom of spring, and the movable rod is located the inboard of shell, the aperture has been seted up in the inside run through of movable rod, and the aperture is located the outside of dead bolt, the dead bolt is used for fixing the movable rod through the aperture, the clamp plate is installed at the bottom of movable rod, and the clamp plate is located the inboard of frame, a connecting block is respectively installed to the both sides of clamp plate, and the connecting block is located the open-ended inboard, the pointer is installed to one side of connecting block, and two pointers are located the both sides of frame respectively.

Preferably, the back side of backshell installs leak protection subassembly, leak protection subassembly is used for preventing raw materials and auxiliary material from spilling, leak protection subassembly includes two screw thread pieces, and two screw thread pieces are located the both sides of backshell respectively, the second bolt is installed to the inside running through screw thread of screw thread piece, two couples are installed to the back of backshell, the top of couple runs through and has seted up the top, the inside groove has been seted up to the diapire inboard of couple, the baffle is installed to the inboard of top, and the bottom of baffle is located the inboard of inside groove, the kicking block is installed at the top of baffle, and the kicking block is located the top of couple, the movable block is installed to the bottom of baffle, and the movable block is located the inboard of inside groove, the back of backshell is installed the bag body, the bag body is used for loading the raw materials and the auxiliary material that spill, a ring is installed at the bottom both ends of bag body respectively, and the ring is located the outside of second bolt, a square ring is installed at the top both ends of bag body, and square ring is located between couple and the baffle.

Preferably, the processing method of the processing material tank is as follows:

s1, firstly, a worker screws two second bolts in a leakage-proof assembly, the second bolts move upwards under the threaded support of a threaded block, the worker can screw the second bolts out of the inner sides of the threaded block, the worker moves two circular rings at two ends of a bag body, the two circular rings respectively move to the tops of the threaded block, small holes of the circular rings correspond to the threaded holes of the threaded block, the worker screws the second bolts into the inner sides of the threaded block through the inner sides of the circular rings, the second bolts move downwards under the threaded support of the threaded block, the second bolts are matched with the threaded block to extrude and fix the circular rings, so that the two circular rings support the bag body under the support of the second bolts, the worker moves the top block upwards, the top block can drive the baffle plate to move upwards along the inner sides of the top opening under the action of external force, the baffle plate can drive the moving block to move upwards, the moving block can move inwards of the inner sides of the inner grooves, the square rings at one end of the bag body sequentially, the worker can loosen the top block from the inner sides of one hook, the top block can move downwards along with the inner sides of the other side of the inner groove, the other side of the bag body can move downwards through the other side of the other side hook, and the other side hook can move downwards through the other side hook, and the other side hook can move downwards, and the other side hook can move the other side can move downwards;

S2, screwing the round cover by a worker to enable the round cover to rotate under the action of external force, enabling the round cover to move upwards under the support of threads of the inlet, enabling the worker to unscrew the round cover, enabling the worker to move the pipe orifice in the feeding component, enabling the pipe orifice to drive the hose to move under the action of external force, enabling the hose to deform under the action of external force, enabling the worker to move the pipe orifice into the inner side of the inlet, enabling the worker to move the bag-shaped container loaded with raw materials to the inner sides of the rear shell and the front shell, enabling the outlet position of the bag-shaped container loaded with raw materials to face the inner side of the front shell, enabling the worker to open the outlet of the bag-shaped container loaded with raw materials, enabling the raw materials to move out of the inner side of the bag-shaped container, enabling the worker to screw the first bolt to move upwards under the support of threads of the side block, enabling the worker to screw the first bolt out of the inner side of the side block, the staff moves the fixing frame, the fixing frame can be driven by the staff to move the square block under the action of external force, the staff moves the fixing frame to the tops of the rear shell and the bag-shaped container, the square block can be moved to the tops of the edge blocks, the staff screws the first bolt into the inner side of the edge blocks through the inner side of the square block, the first bolt can fix the fixing frame through the square block, the staff lifts the rear shell upwards, the rear shell can drive the front shell and the components related to the front shell to move together under the action of external force, the front shell can drive the rotating block to rotate around the short bolt under the action of external force, the staff inclines the rear shell and the front shell to incline the bag-shaped container loaded with raw materials, the raw materials on the inner side of the bag-shaped container move into the inner side of the hose through the inner side of the front shell under the action of self gravity, then the material is moved into the inner side of the tank body through the inner side of the hose and the inlet, and a worker sequentially pours a proper amount of raw material and auxiliary material into the inner side of the tank body;

S3, in the feeding process of the feeding assembly, raw materials and auxiliary materials are blocked on the inner side of the hose, a worker moves the handle left and right, the handle can drive the sleeve ring to move left and right under the action of external force, the inner rod and the blocking block can be driven to move along the inner side of the cylinder shell under the action of the external force of the sleeve ring, the sleeve ring can drive the hose to swing left and right, the worker moves the handle back and forth, the sleeve ring can drive the sliding block to move through the inner rod and the cylinder shell under the action of the external force, the sliding block can move along the inner side of the sliding groove under the action of the external force, and accordingly the sleeve ring can shake back and forth, the raw materials and the auxiliary materials can be prevented from being blocked through shaking the hose, and the flow of the raw materials and the auxiliary materials on the inner side of the hose can be accelerated;

s4, when a worker needs to pour out a proper amount of raw materials and auxiliary materials in a bag, the worker pours out a proper amount of raw materials and auxiliary materials in the bag-shaped container, the bag-shaped container loaded with the raw materials and the auxiliary materials is vertically moved to the inner side of the rear shell, along with the reduction of the raw materials and the auxiliary materials in the bag-shaped container, the vertical bag-shaped container is moved to the bottom of the frame, the fixing bolt in the measuring assembly is screwed to enable the fixing bolt to move under the threaded support of the round shell, the fixing bolt can move out of the small hole of the movable rod, the fixing bolt is enabled to not fix the movable rod through the small hole of the movable rod any more, the spring can drive the movable rod to move downwards along the inner side of the round shell by utilizing the self elastic force, the movable rod can drive the pressing plate to move downwards together, the pressing plate can drive the pointer to move downwards through the connecting block, the pressing plate can move along the inner side of the opening under the action of the external force, the pressing plate can be pressed on the top of the bag-shaped container loaded with the raw materials and the auxiliary materials, and the worker judges the position of a scale line pointed by the pointer at the moment, and the required amount of the raw materials to be poured out;

S5, then staff upwards moves the hose, make the hose can drive the mouth of pipe upwards to remove under the effect of external force, make the staff shift out the inboard of import with the mouth of pipe, the staff screws up the circular cap and fixes the inboard at the import, the staff passes through the controller in the control intelligent module, start jar body and motor and move, motor operation makes the motor output rotate, the output rotation of motor can drive the stirring frame and rotate together, make the stirring frame can stir the raw materials and the auxiliary material of jar body inboard, can improve the machining efficiency of jar body through the stirring, thereby make jar body carry out the work of processing to polyvinyl chloride cable material, after polyvinyl chloride cable material processing is accomplished, the staff places the container that loads polyvinyl chloride cable material in the bottom of electromagnetic valve, control electromagnetic valve opens through the controller, make polyvinyl chloride cable material flow to the inboard that loads the container.

Preferably, in the step S1, the method further includes the following steps:

s11, after the feeding work is finished, when the bag body in the leakage-proof assembly collects the leaked raw materials and auxiliary materials in the feeding work process, a worker takes the square ring at one end of the bag body, upwards moves the ejector block, so that the inner side of the baffle moving out of the square ring is not fixed to the square ring, the worker sequentially removes two ends of the bag body, and screws out the inner side of the circular ring through the second bolts, removes the other two ends of the bag body, so that the worker can remove the bag body, moves the bag body to the top of the inlet, and pours the raw materials and the auxiliary materials at the inner side of the bag body into the inner side of the tank body through the inlet.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the round cover is arranged, the round cover is screwed by a worker, so that the round cover moves upwards under the threaded support of the inlet, the worker can unscrew the round cover, move the pipe orifice into the inner side of the inlet, move the bag-shaped container loaded with raw materials to the inner sides of the rear shell and the front shell, and move the outlet position of the bag-shaped container loaded with raw materials to the inner side of the front shell, the worker opens the outlet of the bag-shaped container loaded with raw materials, screws out the first bolt into the inner side of the side block, moves the fixing frame to the top of the rear shell and the top of the bag-shaped container, enables the square block to move into the inner side of the side block, enables the first bolt to fix the fixing frame through the square block, lifts the rear shell upwards, tilts the bag-shaped container loaded with raw materials through tilting the rear shell and the front shell, enables the raw materials on the inner side of the bag-shaped container to move into the inner side of the front shell under the action of self gravity, and then moves the inner side of the hose into the inner side of the side shell and the inner side of the side shell, and the polyvinyl chloride cable in turn, so that the quantity of the raw materials can be properly poured into the side cable assembly on the side cable can be processed, and the working efficiency can be improved.

2. According to the invention, the anti-blocking assembly is arranged, the handle in the anti-blocking assembly is moved left and right by a worker, the handle can drive the lantern ring to move left and right under the action of external force, the inner rod and the blocking block can be driven to move along the inner side of the cylinder shell under the action of the external force of the lantern ring, the lantern ring can drive the hose to swing left and right, the handle is moved back and forth by the worker, the lantern ring can drive the sliding block to move along the inner side of the sliding groove under the action of the external force by the inner rod and the cylinder shell, the sliding block can move back and forth under the action of the external force, and therefore, the lantern ring can shake back and forth, raw material and auxiliary material blocking can be prevented by shaking the hose, and the flow of raw material and auxiliary material on the inner side of the hose can be accelerated, so that the feeding speed can be accelerated.

3. According to the invention, through installing the rear shell, a worker firstly pours out a proper amount of raw materials and auxiliary materials in the bag-shaped container, vertically moves the bag-shaped container loaded with the raw materials and the auxiliary materials to the inner side of the rear shell, moves the vertical bag-shaped container to the bottom of the frame, screws the fixing bolt out of the inner side of the small hole of the movable rod, and enables the spring to drive the movable rod to move downwards along the inner side of the round shell by utilizing self elasticity, so that the movable rod can drive the pressing plate to move downwards together, and further enables the pressing plate to drive the pointer to move downwards through the connecting block, and the pressing plate can move along the inner side of the opening under the action of external force, so that the pressing plate can be pressed at the top of the bag-shaped container loaded with the raw materials and the auxiliary materials, and the worker judges the amount of the raw materials and the auxiliary materials which need to be poured out according to the scale mark positions pointed by the pointer at the moment, thereby improving the accuracy of the feeding amount and further improving the feeding quality.

4. According to the invention, by installing the leakage-proof assembly, a worker screws two second bolts in the leakage-proof assembly, the worker can screw the second bolts out of the inner side of the threaded block, the worker moves two circular rings at two ends of the bag body, the two circular rings respectively move to the top of the threaded block, the second bolts are screwed into the inner side of the threaded block through the inner sides of the circular rings, so that the two circular rings support the bag body under the support of the second bolts, the worker moves the top block upwards, the top block can drive the baffle plate to move upwards along the inner side of the top opening under the action of external force, the square rings at one end of the bag body are sequentially moved into the inner side of one hook, the top block is loosened, the baffle plate, the top block and the moving block move downwards under the action of self gravity, so that the bottom of the baffle plate and the moving block move into the inner side of the inner groove again, the baffle plate is matched with the hook to fix the square rings, the other square ring is moved into the inner side of the other hook through the other baffle plate to fix the other square ring, the two square rings can hold the bag body and the raw materials at the other end of the bag body, and the raw materials can be prevented from being wasted, and the raw materials can be carried.

Drawings

FIG. 1 is an isometric view of the present invention;

FIG. 2 is a schematic diagram of the tank structure of the present invention;

FIG. 3 is a schematic view of the rear housing of the present invention;

FIG. 4 is a schematic perspective view of a fixing frame according to the present invention;

FIG. 5 is a schematic side sectional view of a support plate of the present invention;

FIG. 6 is a schematic top cross-sectional view of a long plate of the present invention;

FIG. 7 is a schematic illustration of a front cross-sectional structure of a frame of the present invention;

FIG. 8 is a schematic view of a three-dimensional structure of a bag according to the present invention;

FIG. 9 is a schematic side cross-sectional view of a hanger of the present invention;

FIG. 10 is a schematic illustration of the top housing of the present invention in a front cross-sectional configuration;

FIG. 11 is a flow chart of the present invention;

fig. 12 is a flow chart detailing the process of the present invention.

In the figure: 1. a tank body; 2. an inlet; 3. a dome; 4. an electromagnetic valve; 5. a controller; 6. a motor; 7. a stirring rack; 8. a support block; 9. a leg post; 10. a support plate; 11. a cushion block; 12. a fixed block; 13. a short bolt; 14. a rotating block; 15. a front shell; 16. a rear case; 17. a hose; 18. a pipe orifice; 19. edge blocks; 20. a first bolt; 21. a square block; 22. a fixing frame; 23. a side plate; 24. a long plate; 25. a chute; 26. a slide block; 27. a cylinder housing; 28. a block; 29. an inner rod; 30. a collar; 31. a handle; 32. a bottom block; 33. a frame; 34. scale marks; 35. an opening; 36. a round shell; 37. a fixing bolt; 38. a top shell; 39. a spring; 40. a movable rod; 41. a pressing plate; 42. a connecting block; 43. a pointer; 44. a screw block; 45. a second bolt; 46. a hook; 47. a top opening; 48. an inner tank; 49. a resistance plate; 50. a top block; 51. a moving block; 52. a bag body; 53. a circular ring; 54. a square ring; 55. an outer port; 56. a bottom case; 57. a top shell; 58. a hollow block; 59. round blocks; 60. a short bar; 61. a screw block; 62. and (5) a threaded sleeve.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific direction, be configured and operated in the specific direction, and thus should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "provided," "connected," and the like are to be construed broadly, and are, for example, "connected," whether fixedly, detachably, or integrally; is a mechanical connection and also an electrical connection; is directly connected, also indirectly connected through an intermediate medium, and is the communication between the two components. The specific meaning of the above terms in the present invention is understood in detail by those of ordinary skill in the art.

Referring to fig. 1 and 2, an embodiment of the present invention is provided: the utility model provides a PVC cable material processing material jar and processing method that machining efficiency is high, the power distribution box comprises a box body 1, the jar body 1 is processing material jar, and jar body 1 can carry out processing work to PVC cable material, import 2 is installed at the top of jar body 1, round cap 3 is installed to the outside screw thread of import 2, and round cap 3 is located the top of jar body 1, electromagnetic valve 4 is installed in the bottom penetration of jar body 1, motor 6 is installed at the top of jar body 1, and the output of motor 6 runs through the top of jar body 1, stirring frame 7 is installed to the bottom of the output of motor 6, and stirring frame 7 is located the inboard of jar body 1, a supporting shoe 8 is installed respectively around jar body 1, leg post 9 is installed to the bottom of supporting shoe 8, and leg post 9 contacts with ground, jar body 1 can load work to raw materials and auxiliary material, through intelligent module's control, the tank body 1 can process raw materials and auxiliary materials, the tank body 1 can support the components related to the tank body, the inlet 2 can provide screw thread support for the round cover 3 under the fixed support of the tank body 1, so that the round cover 3 can seal the inlet 2, the leg posts 9 can fixedly support the tank body 1 through the supporting blocks 8 under the ground, workers pour the raw materials and the auxiliary materials into the inner side of the tank body 1 through the inlet 2, screw the round cover 3 to be fixed on the inlet 2, the motor 6 is started to operate, the motor 6 operates to enable the output end of the motor 6 to rotate, the output end of the motor 6 rotates to drive the stirring frame 7 to rotate together, the stirring frame 7 can drive the raw materials and the auxiliary materials on the inner side of the tank body 1 to stir, meanwhile, the tank body 1 starts to process the raw materials and the auxiliary materials, thereby manufacturing the polyvinyl chloride cable material.

Referring to fig. 1 and 2, an embodiment of the present invention is provided: the utility model provides a processing material jar and processing method of polyvinyl chloride cable material that machining efficiency is high, including a jar body 1, the intelligent module is installed in the front of jar body 1, and intelligent module is used for controlling whole jar body 1, the intelligent module includes controller 5, and controller 5 is located the front of jar body 1, the annunciator is installed to the inboard of controller 5, jar body 1, controller 5 and annunciator electric connection, the staff makes controller 5 send operating signal through operating controller 5, operating signal passes through the annunciator and transmits to jar body 1, make controller 5 can control processing material jar, thereby make jar body 1 and motor 6 can operate and carry out processing work to raw materials and auxiliary material, after polyvinyl chloride cable material preparation is accomplished, the staff is opening through controller 5 control electromagnetic valve 4, make the inboard polyvinyl chloride cable material of jar body 1 can move into the inboard of external loading container.

Referring to fig. 1, 3 and 5, an embodiment of the present invention provides: the utility model provides a PVC cable material processing material jar and processing method that machining efficiency is high, including a jar body 1, the material loading subassembly is installed at the top of jar body 1, the material loading subassembly is used for carrying out the material loading work, the material loading subassembly includes backup pad 10, and backup pad 10 is located the top of jar body 1, backup pad 10 is used for providing the support for the part at its top, cushion 11 is installed at the top of backup pad 10, cushion 11 is the rubber material for reduce the vibrations that backup pad 10 activity produced, two fixed blocks 12 are installed at the top of backup pad 10, and two fixed blocks 12 are located one side of cushion 11, install short bolt 13 between two fixed blocks 12, the pivot piece 14 is installed in the outside of short bolt 13, and pivot piece 14 is located between two fixed blocks 12, front housing 15 is installed at the top of pivot piece 14, back housing 16 is installed to one side of front housing 15 and back housing 16 is located the top of backup pad 10, the back shell 16 is positioned at the top of the cushion block 11, one end of a hose 17 is arranged on the front surface of the front shell 15, a pipe orifice 18 is arranged at the other end of the hose 17, the supporting plate 10 can support the component at the top of the tank body 1 under the fixed support of the tank body 1, when the back shell 16 moves, the cushion block 11 can support the back shell 16 by utilizing self elasticity, thereby playing a damping role for the movement of the back shell 16, the fixed block 12 can fix the short bolt 13 under the fixed support of the supporting plate 10, the pipe orifice 18 can support the bottom of the hose 17 by utilizing self gravity, a worker screws the round cover 3, the round cover 3 rotates under the action of external force, the round cover 3 moves upwards under the threaded support of the inlet 2, the worker can unscrew the round cover 3, the worker moves the pipe orifice 18 in the feeding component, the pipe orifice 18 can drive the hose 17 to move under the action of external force, the hose 17 is deformed under the action of external force, the pipe orifice 18 is moved into the inner side of the inlet 2 by a worker, the bag-shaped container loaded with raw materials is moved to the inner sides of the rear shell 16 and the front shell 15 by the worker, the outlet position of the bag-shaped container loaded with raw materials is oriented to the inner side of the front shell 15, the outlet of the bag-shaped container loaded with raw materials is opened by the worker, the raw materials can be moved out of the inner side of the bag-shaped container, the rear shell 16 is lifted upwards by the worker, the front shell 15 and components associated with the front shell 15 can be driven to move together under the action of external force by the rear shell 16, the rotating block 14 can be driven to rotate by the action of external force by taking the short bolt 13 as the center, the bag-shaped container loaded with raw materials is inclined by the worker through the inclination of the rear shell 16 and the front shell 15, the raw materials on the inner side of the bag-shaped container are moved into the inner side of the hose 17 under the action of gravity by the worker through the inner side of the front shell 15 and the inner side of the inlet 2, the proper quantity of raw materials and auxiliary materials are sequentially poured into the inner side of the tank 1 by the worker, and the worker can finish the material loading the inner side of the tank 1, and the round cover is screwed out of the pipe orifice 2 by the worker, and the pipe orifice 2 is screwed into the pipe orifice 3.

Referring to fig. 1, 3, 4 and 5, an embodiment of the present invention is provided: the utility model provides a polyvinyl chloride cable material processing material jar and processing method that machining efficiency is high, including backshell 16, a limit piece 19 is respectively installed to the both sides of backshell 16, first bolt 20 is installed to the inside running-through screw thread of limit piece 19, square 21 is installed to the outside of first bolt 20, and square 21 is located the top of limit piece 19, install mount 22 between two square 21, and mount 22 is located the top of backshell 16, the staff twists first bolt 20, make first bolt 20 upwards move under the screw thread support of limit piece 19, make the staff screw out the inboard of limit piece 19 with first bolt 20, the staff removes mount 22, make mount 22 can drive square 21 and remove under the effect of external force, the staff removes mount 22 to the top of backshell 16 and bag form container, make square 21 can remove the top of limit piece 19, the staff twists into the inboard of limit piece 19 through the inboard of square 21 with first bolt 20, make first bolt 20 can fix mount 22 through square 21, thereby make mount 22 can cooperate the inboard of limit piece 21 to carry out the support the bag form and carry out the material container to the bag to the shell 16 and the exit form.

Referring to fig. 1, 2 and 10, an embodiment of the present invention provides: the utility model provides a PVC cable material processing material jar and processing method that machining efficiency is high, including a jar body 1, the supporting component is installed at the top of jar body 1, the supporting component is used for supporting the container that loads raw materials and auxiliary material, the supporting component includes outer mouth 55, and outer mouth 55 is located the outside of import 2, bottom shell 56 is installed at the top of outer mouth 55, top frame shell 57 is installed at the top of bottom shell 56, a hollow piece 58 is installed respectively to the both sides of top frame shell 57, round piece 59 is installed to the inboard of hollow piece 58, the quarter butt 60 is installed to the bottom of round piece 59, screw piece 61 is installed to the bottom of quarter butt 60, two thread bush 62 are installed at the top of jar body 1, and two thread bush 62 are located the both sides of import 2 respectively, thread bush 62 carries out threaded connection with screw piece 61, bottom shell 56 and top frame shell 57 cooperate can support the bag-shaped container that loads raw materials and auxiliary material, the hollow block 58 can provide a movable space for the round block 59 under the fixed support of the top frame shell 57, so that the round block 59 can support the short rod 60 to move under the action of external force, the tank body 1 can fix the threaded sleeve 62, a worker moves the top frame shell 57, the top frame shell 57 can drive the outer port 55 to move under the action of external force through the bottom shell 56, the outer port 55 can move to the outer side of the inlet 2, simultaneously, the two threaded blocks 61 can respectively move to the tops of the two threaded sleeves 62, the worker sequentially screws the two short rods 60, the short rod 60 can drive the threaded blocks 61 and the round block 59 to rotate under the action of external force, the threaded blocks 61 move into the inner side of the threaded sleeve 62 under the action of the threaded support of the threaded sleeve 62, the threaded sleeve 62 fixes the top frame shell 57 through the threaded blocks 61, the short rod 60, the round block 59 and the hollow block 58, the worker opens the bag-shaped container outlet for loading raw materials and auxiliary materials, the bag-shaped container is moved into the inner sides of the top frame case 57 and the bottom case 56 with the outlet facing downward, so that raw materials and auxiliary materials can be moved into the inner side of the can body 1 through the outer opening 55 and the inlet 2, thereby completing the feeding work.

Referring to fig. 1, 3 and 6, an embodiment of the present invention is provided: the utility model provides a PVC cable material processing material jar and processing method that machining efficiency is high, including preceding shell 15, the anti-blocking subassembly is installed to one side of preceding shell 15, anti-blocking subassembly can prevent hose 17 inboard from causing the jam, anti-blocking subassembly can promote the material loading speed of raw materials and auxiliary material, anti-blocking subassembly includes two sideboards 23, and two sideboards 23 are located the both sides of backshell 16 respectively, long board 24 is installed to one side of sideboard 23, spout 25 has been seted up to one side of long board 24, slider 26 is installed to the inboard of spout 25, cylinder shell 27 is installed to one side of slider 26, and cylinder shell 27 is located one side of long board 24, the retaining block 28 is installed to the inboard of cylinder shell 27, interior pole 29 is installed to one side of retaining block 28, and a part of interior pole 29 is located the inboard of cylinder shell 27, install the lantern ring 30 between two interior poles 29, and lantern ring 30 is located the outside of hose 17, handle 31 is installed to one side of lantern ring 30, the side plate 23 can support the long plate 24 under the fixed support of the front shell 15, the long plate 24 can provide a set space for the sliding groove 25, so that the sliding groove 25 can provide a guiding function for the movement of the sliding block 26, the sliding block 26 can support the cylinder shell 27 to move stably under the action of external force, the cylinder shell 27 can support the blocking block 28 and the inner rod 29 to move under the action of external force, the blocking block 28 can prevent the inner rod 29 from moving out of the inner side of the cylinder shell 27 under the action of external force, the inner rod 29 can support the lantern ring 30 to move under the action of external force, the staff moves the handle 31 in the anti-blocking assembly left and right, the handle 31 can drive the lantern ring 30 to move left and right under the action of external force, the lantern ring 30 can drive the inner rod 29 and the blocking block 28 to move along the inner side of the cylinder shell 27, the lantern ring 30 can drive the hose 17 to swing left and right, the staff moves handle 31 back and forth, makes the lantern ring 30 can drive slider 26 through interior pole 29 and drum shell 27 under the effect of external force and removes, makes slider 26 can remove along the inboard of spout 25 under the effect of external force to make the lantern ring 30 rock back and forth, thereby can prevent raw materials and auxiliary material jam through rocking hose 17, and can accelerate the flow of hose 17 inboard raw materials and auxiliary material.

Referring to fig. 1, 3 and 7, an embodiment of the present invention provides: the utility model provides a polyvinyl chloride cable material processing material jar and processing method that machining efficiency is high, including back shell 16, the measuring component is installed at the top of back shell 16, measuring component is used for carrying out the measurement to the container of raw materials and auxiliary material, measuring component includes two bottom blocks 32, two bottom blocks 32 are located the both sides of back shell 16 respectively, frame 33 is installed at the top of two bottom blocks 32, and frame 33 is located the top of back shell 16, the scale mark 34 has been respectively marked to the both sides of frame 33, the opening 35 has been seted up in the both sides of frame 33 each run through, round shell 36 is installed at the top of frame 33, the dead bolt 37 is installed in the front run through screw thread of round shell 36, top shell 38 is installed at the top of round shell 36, spring 39 is installed to the roof inboard of top shell 38, movable rod 40 is installed to the bottom of spring 39, and movable rod 40 is located the inboard of round shell 36, the inside run through of movable rod 40 has the aperture, the small hole is positioned at the outer side of the fixing bolt 37, the fixing bolt 37 is used for fixing the movable rod 40 through the small hole, the pressing plate 41 is arranged at the bottom of the movable rod 40, the pressing plate 41 is positioned at the inner side of the frame 33, one connecting block 42 is arranged at each of two sides of the pressing plate 41, the connecting block 42 is positioned at the inner side of the opening 35, one side of the connecting block 42 is provided with a pointer 43, two pointers 43 are respectively positioned at two sides of the frame 33, the two bottom blocks 32 can provide fixed support for the frame 33 under the support of the rear shell 16, the opening 35 can provide a moving space for the connecting block 42, the round shell 36 can provide a moving space for the movable rod 40 and the spring 39, the top shell 38 can provide a moving space for the spring 39, a worker firstly pours out a proper amount of raw materials and auxiliary materials in the bag-shaped container, the bag-shaped container loaded with the raw materials and the auxiliary materials are vertically moved to the inner side of the rear shell 16 along with the reduction of the raw materials and the auxiliary materials in the bag-shaped container, the lower the height of the upright bag-shaped container is, the upright bag-shaped container is moved to the bottom of the frame 33, the fixing bolt 37 in the measuring assembly is screwed, the fixing bolt 37 is moved under the support of the threads of the round shell 36, the fixing bolt 37 can move out of the inner side of the small hole of the movable rod 40, the fixing bolt 37 can not fix the movable rod 40 through the small hole of the movable rod 40 any more, the spring 39 can drive the movable rod 40 to move downwards along the inner side of the round shell 36 by utilizing the self elasticity, the movable rod 40 can drive the pressing plate 41 to move downwards together, the pressing plate 41 can drive the pointer 43 to move downwards through the connecting block 42, the connecting block 42 can move along the inner side of the opening 35 under the action of external force, the pressing plate 41 can press the top of the bag-shaped container loaded with raw materials and auxiliary materials, and staff can judge the quantity of the raw materials and auxiliary materials which need to be poured according to the positions of the scale marks 34 pointed by the pointer 43 at the moment.

Referring to fig. 1, 3, 8 and 9, an embodiment of the present invention is provided: the utility model provides a polyvinyl chloride cable material processing material jar and processing method that machining efficiency is high, including backshell 16, the back of backshell 16 has leak protection subassembly, leak protection subassembly is used for preventing raw materials and auxiliary material to spill, leak protection subassembly includes two screw thread pieces 44, and two screw thread pieces 44 are located the both sides of backshell 16 respectively, the inside thread of screw thread piece 44 runs through the screw thread and installs second bolt 45, the back of backshell 16 installs two couples 46, the top of couple 46 runs through and has seted up top 47, the diapire inboard of couple 46 has seted up inside groove 48, the inboard of top 47 is installed and is blocked plate 49, and the bottom of blocked plate 49 is located the inboard of inside groove 48, the top of blocked plate 49 is installed kicking block 50, and kicking block 50 is located the top of couple 46, the bottom of blocked plate 49 is installed movable block 51, and movable block 51 is located the inboard of inside groove 48, the back of backshell 16 is installed bag body 52, the bag body 52 is used for loading spilled raw materials and auxiliary materials, two ends of the bottom of the bag body 52 are respectively provided with a circular ring 53, the circular rings 53 are positioned at the outer sides of the second bolts 45, two ends of the top of the bag body 52 are respectively provided with a square ring 54, the square rings 54 are positioned between the hooks 46 and the baffle 49, the top opening 47 can provide a movable space for the baffle 49, the inner groove 48 can provide a movable space for the bottom of the baffle 49 and the movable block 51, the baffle 49 can support the circular rings 54 by moving into the inner sides of the square rings 54, a worker screws two second bolts 45 in the leakage-proof assembly, the second bolts 45 are upwards moved under the screw support of the screw blocks 44, the worker can screw the second bolts 45 out of the inner sides of the screw blocks 44, the worker moves the two circular rings 53 at the two ends of the bag body 52, and the two circular rings 53 respectively move to the top of the screw blocks 44, the small holes of the circular rings 53 can correspond to the positions of the threaded holes of the threaded blocks 44, a worker screws the second bolts 45 into the inner sides of the threaded blocks 44 through the inner sides of the circular rings 53, the second bolts 45 move downwards under the threaded support of the threaded blocks 44, the second bolts 45 are matched with the threaded blocks 44 to extrude and fix the circular rings 53, the two circular rings 53 support the bag body 52 under the support of the second bolts 45, the worker moves the top block 50 upwards, the top block 50 can drive the baffle 49 to move upwards along the inner sides of the top openings 47 under the action of external force, the baffle 49 can drive the moving block 51 to move upwards under the action of external force, the moving block 51 can move out of the inner sides of the inner grooves 48, the worker sequentially moves the square ring 54 at one end of the bag body 52 into the inner sides of one hook 46, the top block 50 is loosened, the bottom of the baffle 49 and the moving block 51 move downwards under the action of gravity of the self, the bottom of the baffle 49 and the inner sides of the moving block 51 move again into the inner groove 48, the other square ring 54 can move the other square ring 54 into the other side of the other hook 46 under the action of gravity, and the other side of the other hook 54 can hold the other square ring 54 to load the other bag 52, and the other side of the bag 52 can be fixed, and the other side of the bag 52 can be fixed.

Further, the processing method of the processing material tank is as follows:

s1, firstly, a worker screws two second bolts 45 in the leakage-proof assembly, the second bolts 45 move upwards under the screw thread support of the screw thread block 44, the worker can screw the second bolts 45 out of the inner side of the screw thread block 44, the worker moves two circular rings 53 at two ends of the bag body 52, the two circular rings 53 respectively move to the top of the screw thread block 44, small holes of the circular rings 53 can correspond to the screw thread positions of the screw thread block 44, the worker screws the second bolts 45 into the inner side of the screw thread block 44 through the inner side of the circular rings 53, the second bolts 45 move downwards under the screw thread support of the screw thread block 44, the second bolts 45 are matched with the screw thread block 44 to squeeze and fix the circular rings 53, the two circular rings 53 support the bag body 52 under the support of the second bolts 45, the worker moves the top block 50 upwards, the top block 50 can drive the baffle 49 to move upwards along the inner side of the top opening 47 under the action of external force, the baffle 49 can drive the moving block 51 to move upwards under the action of external force, so that the moving block 51 can move out of the inner side of the inner groove 48, a worker sequentially moves the square ring 54 at one end of the bag body 52 into the inner side of one hook 46, the top block 50 is loosened, the baffle 49, the top block 50 and the moving block 51 move downwards under the action of self gravity, so that the bottom of the baffle 49 and the moving block 51 move into the inner side of the inner groove 48 again, the baffle 49 is matched with the hook 46 to fix the square ring 54, the worker moves the other square ring 54 into the inner side of the other hook 46 to fix the other square ring 54 through the other baffle 49, so that the two square rings 54 can support the other two ends of the bag body 52, so that the bag body 52 can keep the opening of the bag mouth to load the spilled raw materials and auxiliary materials;

S2, a worker screws the round cover 3 to enable the round cover 3 to rotate under the action of external force, the round cover 3 moves upwards under the support of threads of the inlet 2, the worker can unscrew the round cover 3, the worker moves the pipe orifice 18 in the feeding component, the pipe orifice 18 can drive the hose 17 to move under the action of external force, the hose 17 deforms under the action of external force, the worker moves the pipe orifice 18 into the inner side of the inlet 2, the worker moves the bag-shaped container loaded with raw materials to the inner sides of the rear shell 16 and the front shell 15, the worker moves the outlet position of the bag-shaped container loaded with raw materials towards the inner side of the front shell 15, the worker opens the outlet of the bag-shaped container loaded with raw materials, the raw materials can move out of the inner side of the bag-shaped container, the worker screws the first bolt 20, the first bolt 20 moves upwards under the support of threads of the side block 19, the first bolt 20 can be screwed out of the inner side of the side block 19 by a worker, the fixing frame 22 is moved by the worker, the square block 21 can be driven to move by the fixing frame 22 under the action of external force, the square block 21 can be moved to the top of the rear shell 16 and the bag-shaped container by the worker, the first bolt 20 is screwed into the inner side of the side block 19 through the inner side of the square block 21, the fixing frame 22 can be fixed by the first bolt 20 through the square block 21, the rear shell 16 is lifted up by the worker, the front shell 15 and the components related to the front shell 15 can be driven to move together by the rear shell 16 under the action of external force, the rotating block 14 can be driven to rotate by the front shell 15 around the short bolt 13 under the action of external force, the bag-shaped container loaded with raw materials is tilted by tilting the rear shell 16 and the front shell 15 by the worker, the raw materials at the inner side of the bag-shaped container are moved into the inner side of the hose 17 through the inner side of the front shell 15 under the action of self gravity, then are moved into the inner side of the tank body 1 through the inner side of the hose 17 and the inlet 2, and a worker sequentially pours a proper amount of raw materials and auxiliary materials into the inner side of the tank body 1;

S3, in the feeding process of the feeding assembly, raw materials and auxiliary materials are blocked on the inner side of the hose 17, a worker moves the handle 31 left and right, the handle 31 can drive the sleeve ring 30 to move left and right under the action of external force, the sleeve ring 30 can drive the inner rod 29 and the blocking block 28 to move along the inner side of the cylindrical shell 27 under the action of external force, the sleeve ring 30 can drive the hose 17 to swing left and right, the worker moves the handle 31 back and forth, the sleeve ring 30 can drive the sliding block 26 to move through the inner rod 29 and the cylindrical shell 27 under the action of external force, the sliding block 26 can move along the inner side of the chute 25 under the action of external force, and accordingly the sleeve ring 30 can shake back and forth, the raw materials and auxiliary materials can be prevented from being blocked through shaking the hose 17, and the flow of the raw materials and auxiliary materials on the inner side of the hose 17 can be accelerated;

s4, when a worker needs to pour out a proper amount of raw materials and auxiliary materials in a bag, the worker pours out a proper amount of raw materials and auxiliary materials in the bag-shaped container, the bag-shaped container loaded with the raw materials and the auxiliary materials is vertically moved to the inner side of the rear shell 16, along with the reduction of the raw materials and the auxiliary materials in the bag-shaped container, the height of the vertical bag-shaped container is lower, the vertical bag-shaped container is moved to the bottom of the frame 33, the fixing bolt 37 in the measuring assembly is screwed, the fixing bolt 37 is moved under the screw support of the round shell 36, the fixing bolt 37 can be moved out of the small hole of the movable rod 40, the fixing bolt 37 can not fix the movable rod 40 through the small hole of the movable rod 40 any more, the spring 39 can drive the movable rod 40 to move downwards along the inner side of the round shell 36 by utilizing the self elastic force, the movable rod 40 can drive the pressing plate 41 to move downwards together, the pressing plate 41 can drive the pointer 43 downwards through the connecting block 42, the connecting block 42 can move along the inner side of the opening 35 under the action of the external force, the pressing plate 41 can press the top of the bag-shaped container and the auxiliary materials are positioned at the position of the worker to be corresponding to the needed scale mark of the worker;

S5, then staff upwards moves hose 17, make hose 17 can drive mouth of pipe 18 upwards and remove under the effect of external force, make the staff shift out the inboard of import 2 with mouth of pipe 18, the staff screws up the dome 3 and fixes the inboard at import 2, the staff is through the controller 5 in the control intelligent module, start jar body 1 and motor 6 and operate, motor 6 operation makes motor 6 output rotate, motor 6 'S output rotation can drive stirring frame 7 together rotate, make stirring frame 7 can stir the work to jar 1 inboard raw materials and auxiliary material, can improve jar body 1' S machining efficiency through the stirring, thereby make jar body 1 can carry out the work to polyvinyl chloride cable material, after polyvinyl chloride cable material processing is accomplished, the staff places the container that loads polyvinyl chloride cable material in the bottom of solenoid valve 4, open through controller 5 control solenoid valve 4, make polyvinyl chloride cable material flow to the inboard that loads the container.

Further, in the step S1, the method further includes the following steps:

s11, when the bag body 52 in the leakage-proof assembly collects the leaked raw materials and auxiliary materials in the feeding working process after the feeding working is finished, a worker takes the square ring 54 at one end of the bag body 52, upwards moves the top block 50, enables the inner side of the square ring 54 to be moved out of the baffle 49, and does not fix the square ring 54, the worker sequentially removes two ends of the bag body 52, removes the other two ends of the bag body 52 by screwing the second bolts 45 out of the inner side of the circular ring 53, enables the worker to remove the bag body 52, moves the bag body 52 to the top of the inlet 2, and pours the raw materials and auxiliary materials at the inner side of the bag body 52 into the inner side of the tank body 1 through the inlet 2.

Working principle: before the device is used, whether the device has the problem of influencing the use or not needs to be checked, when a worker needs to use a processed material tank, the worker unscrews the round cover 3, places a bag-shaped container filled with raw materials and auxiliary materials on the inner side of a feeding component, moves a pipe orifice 18 into the inner side of an inlet 2, fixes a fixing frame 22 on the top of a rear shell 16 and the bag-shaped container through a first bolt 20, lifts the rear shell 16 upwards to incline the bag-shaped container, enables the raw materials and the materials to be poured into the inner side of a tank body 1, screws the round cover 3 on the outer side of the inlet 2, controls the tank body 1 and a motor 6 to operate through a controller 5 in an intelligent module, places a container for loading polyvinyl chloride cable materials on the bottom of the electromagnetic valve 4 after the polyvinyl chloride cable material is manufactured, controls the electromagnetic valve 4 to be opened through the controller 5, and enables the polyvinyl chloride cable materials to flow into the inner side of the loading container.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are, therefore, to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference signs in the claims shall not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a polyvinyl chloride cable material processing material jar that machining efficiency is high, includes a jar body (1), its characterized in that: a feeding assembly is arranged at the top of the tank body (1) and is used for feeding;

the feeding assembly comprises a supporting plate (10), the supporting plate (10) is positioned at the top of the tank body (1), the supporting plate (10) is used for providing support for a component at the top of the tank body, a cushion block (11) is arranged at the top of the supporting plate (10), the cushion block (11) is made of rubber materials and is used for reducing vibration generated by the movement of the supporting plate (10), two fixed blocks (12) are arranged at the top of the supporting plate (10), the two fixed blocks (12) are positioned at one side of the cushion block (11), a short bolt (13) is arranged between the two fixed blocks (12), a rotating block (14) is arranged at the outer side of the short bolt (13), a front shell (15) is arranged at the top of the rotating block (14), a rear shell (16) is arranged at one side of the front shell (15) and the rear shell (16) is positioned at the top of the supporting plate (10), a hose orifice (17) is arranged at the other end of the front shell (15), and a hose orifice (17) is arranged at the other end of the front shell (17);

The intelligent module is arranged on the front surface of the tank body (1) and used for controlling the whole tank body (1), the intelligent module comprises a controller (5), the controller (5) is positioned on the front surface of the tank body (1), a annunciator is arranged on the inner side of the controller (5), and the tank body (1), the controller (5) and the annunciator are electrically connected;

the controller (5) is operated, so that the controller (5) sends out an operation signal, and the operation signal is transmitted to the tank body (1) through the annunciator, so that the controller (5) controls the processing material tank.

2. The high-processing-efficiency polyvinyl chloride cable material processing material tank according to claim 1, wherein: the utility model discloses a PVC cable material processing device, including a tank body (1), a supporting block (8) is installed around the tank body (1), and the tank body (1) carries out processing work to the PVC cable material, and import (2) are installed at the top of the tank body (1), and dome (3) are installed to the outside screw thread of import (2), and dome (3) are located the top of the tank body (1), and electromagnetic valve (4) are installed in the bottom of the tank body (1) run through, and supporting block (8) are installed respectively all around to the tank body (1), and leg post (9) are installed to the bottom of supporting block (8), and leg post (9) contact with ground.

3. The high-processing-efficiency polyvinyl chloride cable material processing material tank according to claim 2, wherein: the motor (6) is installed at the top of the tank body (1), and the output end of the motor (6) penetrates through the top of the tank body (1), the stirring frame (7) is installed at the bottom of the output end of the motor (6), and the stirring frame (7) is located on the inner side of the tank body (1).

4. The high-processing-efficiency polyvinyl chloride cable material processing material tank according to claim 1, wherein: two sides of the rear shell (16) are respectively provided with a side block (19), a first bolt (20) is installed in the inside penetrating thread of the side block (19), a square block (21) is installed on the outer side of the first bolt (20), the square block (21) is located at the top of the side block (19), a fixing frame (22) is installed between the two square blocks (21), and the fixing frame (22) is located at the top of the rear shell (16).

5. The high-processing-efficiency polyvinyl chloride cable material processing material tank according to claim 2, wherein: the top of jar body (1) is installed supporting component, supporting component is used for supporting the container that loads raw materials and auxiliary material, supporting component includes external port (55), and external port (55) are located the outside of import (2), drain pan (56) are installed at the top of external port (55), top frame shell (57) are installed at the top of drain pan (56), a hollow piece (58) are respectively installed to the both sides of top frame shell (57), circle piece (59) are installed to the inboard of hollow piece (58), quarter butt (60) are installed to the bottom of circle piece (59), screw piece (61) are installed to the bottom of quarter butt (60), two thread bush (62) are installed at the top of jar body (1), and two thread bush (62) are located the both sides of import (2) respectively, screw bush (62) carry out threaded connection with screw piece (61).

6. The high-processing-efficiency polyvinyl chloride cable material processing material tank according to claim 1, wherein: anti-blocking assembly is installed to one side of preceding shell (15), anti-blocking assembly prevents that hose (17) is inboard to cause the jam, anti-blocking assembly promotes the material loading speed of raw materials and auxiliary material, anti-blocking assembly includes two sideboards (23), and two sideboards (23) are located the both sides of backshell (16) respectively, long board (24) are installed to one side of sideboard (23), spout (25) have been seted up to one side of long board (24), slider (26) are installed to the inboard of spout (25), cylinder shell (27) are installed to one side of slider (26), and cylinder shell (27) are located one side of long board (24), stop block (28) are installed to the inboard of cylinder shell (27), interior pole (29) are installed to one side of stop block (28), and a part of interior pole (29) is located the inboard of cylinder shell (27), install lantern ring (30) between two interior poles (29), and lantern ring (30) are located the outside of hose (17), handle (31) are installed to one side of lantern ring (30).

7. The high-processing-efficiency polyvinyl chloride cable material processing material tank according to claim 6, wherein: the top of the back shell (16) is provided with a measuring component, the measuring component is used for measuring a container for loading raw materials and auxiliary materials, the measuring component comprises two bottom blocks (32), the two bottom blocks (32) are respectively positioned at two sides of the back shell (16), a frame (33) is arranged at the top of the two bottom blocks (32), the frame (33) is positioned at the top of the back shell (16), scale marks (34) are respectively marked at two sides of the frame (33), two sides of the frame (33) are respectively penetrated and provided with an opening (35), a round shell (36) is arranged at the top of the frame (33), a fixing bolt (37) is arranged at the front of the round shell (36) in a penetrating way, a top shell (38) is arranged at the top of the round shell (36), a spring (39) is arranged at the inner side of the top wall of the top shell (38), a movable rod (40) is arranged at the bottom of the spring (39), the movable rod (40) is positioned at the inner side of the round shell (36), small holes are respectively formed in penetrating way of the inside of the movable rod (40), the fixing bolt (37), the small holes are respectively arranged at the outer sides of the fixing bolt (37), the small holes are respectively used for carrying out fixing rods (40) through the movable rod (40), the fixing rods (41) at the two sides of the two sides (41) respectively arranged at the bottom of the connecting plate (41), and the connecting block (42) is positioned at the inner side of the opening (35), one side of the connecting block (42) is provided with the pointer (43), and the two pointers (43) are respectively positioned at two sides of the frame (33).

8. The high-processing-efficiency polyvinyl chloride cable material processing material tank of claim 7, wherein: the back of the back shell (16) is provided with a leakage-proof component, the leakage-proof component is used for preventing raw materials and auxiliary materials from spilling, the leakage-proof component comprises two threaded blocks (44), the two threaded blocks (44) are respectively positioned at two sides of the back shell (16), a second bolt (45) is installed in the internal penetrating threads of the threaded blocks (44), two hooks (46) are installed on the back of the back shell (16), top openings (47) are formed in the tops of the hooks (46) in a penetrating manner, an inner groove (48) is formed in the inner side of the bottom wall of the hooks (46), a baffle plate (49) is installed on the inner side of the top openings (47), the bottom of the baffle plate (49) is positioned at the inner side of the inner groove (48), a top block (50) is installed at the top of the baffle plate (49), the top of the top block (50) is positioned at the top of the hooks (46), a moving block (51) is installed at the bottom of the baffle plate (49), the moving block (51) is positioned at the inner side of the inner groove (48), bags (52) are installed on the back of the back shell (16), raw materials and auxiliary materials are loaded on the bag (52), the bottom of the hooks (52) are provided with inner rings (53), two ends of the two rings (53) are installed at the two ends of each ring (53) and two rings (53) are installed at the two ends of each ring (53), and the square ring (54) is positioned between the hook (46) and the baffle (49).

9. The processing method of the polyvinyl chloride cable material processing material tank with high processing efficiency according to any one of claims 1 to 8, wherein the processing method of the processing material tank is as follows:

s1, firstly, a worker screws two second bolts (45) in the anti-leakage assembly, the second bolts (45) move upwards under the threaded support of the threaded block (44), the worker screws the second bolts (45) out of the inner side of the threaded block (44), the worker moves two circular rings (53) at two ends of the bag body (52), the two circular rings (53) move to the top of the threaded block (44) respectively, small holes of the circular rings (53) correspond to the threaded holes of the threaded block (44), the worker screws the second bolts (45) into the inner side of the threaded block (44) through the inner side of the circular rings (53), the second bolts (45) move downwards under the threaded support of the threaded block (44), the second bolts (45) are matched with the threaded block (44) to squeeze and fix the circular rings (53), the two circular rings (53) under the support of the second bolts (45), the bag body (52), the worker moves the top block (50) upwards, the top block (50) drives the top block (50) to move the top block (49) upwards under the action of the external force of the second bolts (45) along the inner side of the top block (49), and moves the top block (51) upwards, and moves the top block (47) upwards under the action of the external force, the staff sequentially moves the square ring (54) at one end of the bag body (52) into the inner side of one hook (46), loosens the top block (50), enables the baffle plate (49), the top block (50) and the moving block (51) to move downwards under the action of self gravity, enables the bottom of the baffle plate (49) and the moving block (51) to move into the inner side of the inner groove (48), enables the baffle plate (49) to be matched with the hook (46) to fix the square ring (54), enables the other square ring (54) to move into the inner side of the other hook (46) to fix the other square ring (54) through the other baffle plate (49), and enables the two square rings (54) to support the other two ends of the bag body (52), so that the bag body (52) keeps the bag opening to load leaked raw materials and auxiliary materials;

S2, a worker screws the round cover (3) to enable the round cover (3) to rotate under the action of external force, the round cover (3) moves upwards under the action of the external force, the worker screws the round cover (3) open, the worker moves the pipe orifice (18) in the feeding component, the pipe orifice (18) drives the hose (17) to move under the action of the external force, the hose (17) deforms under the action of the external force, the worker moves the pipe orifice (18) into the inner side of the inlet (2), the worker moves the bag-shaped container loaded with raw materials to the inner side of the rear shell (16) and the front shell (15), the worker moves the outlet position of the bag-shaped container loaded with raw materials towards the inner side of the front shell (15), the worker opens the outlet of the bag-shaped container loaded with raw materials, the worker moves the inner side of the bag-shaped container, the worker screws the first bolt (20) to enable the first bolt (20) to move upwards under the action of the external force, the worker moves the inner side block (19), the worker moves the side block (22) out of the first bolt (20), moves the side block (22) to the inner side of the side block (19), the worker moves the block (21) to move the top block (21), the staff screws the first bolt (20) into the inner side of the side block (19) through the inner side of the square block (21), the first bolt (20) fixes the fixing frame (22) through the square block (21), the staff lifts the rear shell (16) upwards, the rear shell (16) drives the front shell (15) and components related to the front shell (15) to move together under the action of external force, the front shell (15) drives the rotating block (14) to rotate around the short bolt (13) under the action of external force, the staff tilts the bag-shaped container for loading raw materials through tilting the rear shell (16) and the front shell (15), the raw materials on the inner side of the bag-shaped container move into the inner side of the hose (17) through the inner side of the front shell (15) under the action of self gravity, then move into the inner side of the tank (1) through the inner side of the hose (17) and the inlet (2), and the staff sequentially pours the raw materials and auxiliary materials into the inner side of the tank (1);

S3, in the feeding process of the feeding assembly, raw materials and auxiliary materials are blocked on the inner side of the hose (17), a worker moves the handle (31) left and right, the handle (31) drives the sleeve ring (30) to move left and right under the action of external force, the sleeve ring (30) drives the inner rod (29) and the blocking block (28) to move along the inner side of the cylindrical shell (27) under the action of external force, the sleeve ring (30) drives the hose (17) to swing left and right, the worker moves the handle (31) back and forth, the sleeve ring (30) drives the sliding block (26) to move along the inner side of the chute (25) through the inner rod (29) and the cylindrical shell (27) under the action of external force, and the sliding block (26) is moved back and forth under the action of external force, so that the sleeve ring (30) is prevented from blocking the raw materials and the auxiliary materials on the inner side of the hose (17) and the auxiliary materials are accelerated;

s4, when a worker needs to pour out a bag of raw materials and auxiliary materials, the worker pours out a proper amount of raw materials and auxiliary materials in the bag-shaped container, the bag-shaped container loaded with the raw materials and the auxiliary materials is vertically moved to the inner side of the rear shell (16), along with the reduction of the raw materials and the auxiliary materials in the bag-shaped container, the vertical bag-shaped container is moved to the bottom of the frame (33) along with the lower height of the bag-shaped container, the fixing bolt (37) in the measuring assembly is screwed, the fixing bolt (37) is moved under the screw support of the round shell (36), the fixing bolt (37) is moved out of the small hole of the movable rod (40), the movable rod (40) is fixed by the fixing bolt (37) through the small hole of the movable rod (40), the spring (39) drives the movable rod (40) to move downwards along the inner side of the round shell (36), the movable rod (40) drives the pressing plate (41) to move downwards together, the pressing plate (41) drives the pointer (43) to move downwards through the connecting block (42), and the position of the auxiliary materials (34) is further marked on the inner side of the bag-shaped container according to the fact that the auxiliary materials are needed to be poured out;

S5, then staff upwards moves hose (17), make hose (17) drive mouth of pipe (18) upwards remove under the effect of external force, make the staff shift out the inboard of import (2) with mouth of pipe (18), the staff screws up dome (3) and fixes the inboard in import (2), the staff is through controller (5) in the control intelligent module, start jar body (1) and motor (6) and operate, motor (6) operation makes motor (6) output rotate, motor (6) output rotates and drives stirring frame (7) together and rotate, make stirring frame (7) stir the work to the raw materials and the auxiliary material of jar body (1) inboard, through stirring improvement jar body (1) carry out the work to polyvinyl chloride cable material, after polyvinyl chloride cable material processing is accomplished, the staff places the container of loading polyvinyl chloride cable material in the bottom of electromagnetic valve (4), open through controller (5) control electromagnetic valve (4), make polyvinyl chloride cable material flow to the inboard of loading container.

10. The processing method of the polyvinyl chloride cable material processing material tank with high processing efficiency according to claim 9, wherein the processing method comprises the following steps: in the step S1, the method further includes the following steps:

S11, after the feeding work is finished, when the bag body (52) in the anti-leakage assembly collects the leaked raw materials and auxiliary materials in the feeding work process, a worker takes a square ring (54) at one end of the bag body (52), moves a top block (50) upwards, enables the inner side of the baffle plate (49) to move out of the square ring (54) to be free of fixing the square ring (54), and sequentially removes two ends of the bag body (52), and removes the other two ends of the bag body (52) by screwing a second bolt (45) out of the inner side of the circular ring (53), so that the worker removes the bag body (52) to the top of the inlet (2), and the raw materials and the auxiliary materials at the inner side of the bag body (52) are poured into the inner side of the tank body (1) through the inlet (2).