CN116812512A - Bottle cap conveying device and using method - Google Patents

Abstract

The invention relates to the technical field of bottle cap conveying, in particular to a bottle cap conveying device and a using method. The bottle cap solves the problems that materials which cannot be covered downwards are sent out and the bottle cap is prevented from being left. The novel material conveying device comprises a wall body, a first synchronous belt assembly is arranged on the wall body, a material cutting assembly for intermittently conveying materials on the synchronous belt assembly is arranged on the wall body, a material conveying mechanism for receiving the materials and conveying the materials along an original posture or an inverted posture is arranged on the wall body, and a connecting table is further arranged on the wall body and used for bearing the materials sent out by the first synchronous belt assembly and stably conveying the materials to the position of the material conveying mechanism. According to the invention, the corresponding materials with the downward covers are sent out, so that the abrasion of the open ends of the material bottle caps is reduced, the processing quality of the bottle caps is effectively ensured, the existence of the remained bottle caps is prevented, the returned bottle caps are prevented from being conveyed again, the conveying time of the bottle caps is shortened, and the processing quality is improved.

Description

Bottle cap conveying device and using method

Technical Field

The invention relates to the technical field of bottle cap conveying, in particular to a bottle cap conveying device and a using method.

Background

In daily life, the bottle is widely applied to the food, pharmaceutical industry, and the common products that are used for filling water, beverage, medicines etc. of vial, among the products such as wide-necked bottle common are used for filling dry fruit, candy, preserved fruit, cured vegetables fruit, jerky, medicines etc. in the bottle, the bottle need be covered after filling the preserved fruit of passion fruit, usually adopts the manipulator to screw up the bottle lid, because the bottle lid opening only need be favorable to mechanical lid box downwards when covering the box lid, improves the speed of covering the box, but the bottle lid that comes out through plastic mold processing transport is generally disordered, needs manual work or equipment to assist to arrange the bottle lid positive and negative unification.

The currently disclosed Chinese patent CN201821355803.9 is a plastic bottle cap conveying and arranging device, which comprises a frame, a cap storage groove, a triangular conveying belt, an adsorption conveying belt, a material receiving conveying belt, a motor and a control button, wherein the cap storage groove is arranged on the left side of the frame, the triangular conveying belt is arranged in the cap storage groove, the width of the triangular conveying belt is equal to the width of the cap storage groove, and the bottle caps are prevented from falling into the triangular conveying belt; the plane of the triangular conveyor belt is horizontal, two side faces of the triangular conveyor belt are obliquely arranged, bottle cap mould grooves are orderly arranged on the surface of the triangular conveyor belt, and a baffle plate is arranged at the upper end of the left side of the triangular conveyor belt and is fixed with the frame; the adsorption conveyor belt is arranged above the triangular conveyor belt and connected with the rack, the surface of the adsorption conveyor belt is provided with adsorption holes corresponding to the bottle cap mould grooves, and the side surface of each row of bottle cap mould grooves is provided with air holes communicated with the bottle cap mould grooves and the side surface of the adsorption conveyor belt; the side surface of the adsorption conveyor belt is provided with an air pipe and a suction pipe, the suction pipe is only arranged on the lower row of adsorption conveyor belt and is fixed with the frame, the inner side surface of the suction pipe is provided with a pipe groove, one end of the air pipe is inserted into the air hole, and the other end of the air pipe extends into the pipe groove; the material receiving conveyor belt is arranged below the rear end of the adsorption conveyor belt, the motor is in transmission connection with the triangular conveyor belt, the adsorption conveyor belt and the material receiving conveyor belt, and the control button is electrically connected with the motor.

According to the patent, the single-layer arrangement is realized through the mould and the baffle plate of the triangular conveyor belt, then the bottle caps with the upward covers are adsorbed through the adsorption conveyor belt and finally conveyed onto the receiving conveyor belt, and the bottle caps with the upward covers are arranged, however, the bottle caps with the downward covers are arranged again through re-conveying.

However, the product that current device processed out is the capping up of bottle lid, owing to can not send out the material that corresponds capping down, can also make the bottle lid capping up the time easily strengthen the open end wearing and tearing to the bottle lid, be difficult to guarantee the processingquality of bottle lid to, there is the bottle lid of leaving behind easily, leads to the bottle lid of returning can be carried once more, leads to bottle lid transfer time extension, reduces processingquality.

Disclosure of Invention

The invention provides a bottle cap conveying device and a using method, wherein a circle of rotating disc can enable materials with upward or downward cover surfaces to be stacked on a second synchronous belt assembly in a state with the downward cover surface, and finally the corresponding materials with the downward cover surface are sent out through the second synchronous belt assembly, so that the abrasion of the open end of a bottle cap of the materials is reduced, the processing quality of the bottle cap is effectively ensured, in addition, the existence of a left bottle cap is prevented through the arranged material cutting assembly, the phenomenon that the returned bottle cap is conveyed again is avoided, the conveying time of the bottle cap is shortened, and the processing quality is improved.

In order to solve the technical problems, the invention adopts the following technical scheme:

the utility model provides a bottle lid conveyor, includes the wall body, be equipped with first synchronous belt assembly on the wall body, be equipped with on the wall body and be used for intermittent type to carry the material on the synchronous belt assembly and cut the material subassembly, be equipped with on the wall body and be used for accepting the material and carry the material along original gesture or the conveying mechanism of inversion gesture, still be equipped with the connection platform on the wall body, the connection platform is used for bearing the material that first synchronous belt assembly sent and stably sends it to conveying mechanism department.

Further, cut material subassembly includes sharp module, preceding material cutting piece, back material cutting piece and haulage rope, preceding material cutting piece and back material cutting piece are all vertical sliding connection on the wall body, the both ends of haulage rope respectively with preceding material cutting piece and back material cutting piece fixed connection, sharp module level sets up on the wall body, the output of sharp module and the middle part fixed connection of haulage rope, the straight line module drives preceding material cutting piece and back material cutting piece and butt first synchronous area subassembly in turn, the distance between preceding material cutting piece and the back material cutting piece equals at least twice of material length.

Further, the wall body is further provided with a front fixed block and a rear fixed block, the traction rope is arranged on the front fixed block and the rear fixed block in a penetrating mode, the wall body is provided with a front sliding seat and a rear sliding seat, the front cutting block is longitudinally and slidably connected to the front sliding seat, and the rear cutting block is longitudinally and slidably connected to the rear sliding seat.

Further, the feeding mechanism comprises a power unit, a rotary table, a first discharging channel, a second discharging channel and a material guiding channel, wherein the rotary table is rotationally connected to the wall body, the power unit is arranged on the wall body, the rotary table is driven by the power unit to rotate, the rotary table is arranged on the wall body, a non-top end area of the rotary table is rotationally matched with the rotary table, the material guiding channel penetrates through the radial direction of the rotary table, a storage groove is formed in one side, close to the first synchronous belt assembly, of the material guiding channel, the material facing upwards is smoothly inserted into the storage groove when the material guiding channel is in butt joint with the connecting table, the first discharging channel penetrates through the rotary table longitudinally, the second discharging channel penetrates through the rotary table obliquely and is arranged on the rotary table, the material guiding channel is communicated with the first discharging channel when extending longitudinally, the material guiding channel is communicated with the second discharging channel when being obliquely arranged, and the material guiding channel is firstly communicated with the first discharging channel when the rotary table rotates.

Further, the width of the first discharging channel is equal to the thickness of the material, and the width of the second discharging channel is equal to the thickness of the material.

Further, the bottom of the first discharging channel is arc-shaped, and the inner side of the arc-shaped is towards one side deviating from the first synchronous belt assembly.

Further, the bottom end of the second discharging channel is away from the bottom end of the first discharging channel.

Further, the top surface of connecting table has seted up the spout that the slope set up, the top of spout and the discharge end butt joint of first synchronous area subassembly, the bottom of spout and the top surface sliding fit of carousel.

Further, a second synchronous belt assembly is further arranged on the wall body and located below the discharge ends of the first discharge channel and the second discharge channel, and the first synchronous belt assembly and the second synchronous belt assembly are arranged in parallel.

The application method of the bottle cap conveying device comprises the following steps:

s01, debugging and installing, namely driving the traction rope to slide through the linear module, and driving the rear cutting block to abut against the first synchronous belt assembly by controlling the moving direction and the distance of the linear module to directly correspond to the moving distance of the front cutting block or the moving distance of the rear cutting block at the joint of the traction rope and the linear module, so that the material is convenient to empty in advance, and the material is convenient to abut against the side surface of the rear cutting block when passing through the first synchronous belt assembly, thereby being beneficial to determining the initial transportation position of the material; then the power unit drives the turntable to rotate, so that the top end of the material guiding channel on the turntable is in butt joint with the bottom end of the chute, and materials can smoothly flow into the material guiding channel along the chute; finally, the first synchronous belt assembly and the second synchronous belt assembly are driven, so that the material is conveniently guided in, and the material is conveniently discharged along the second synchronous belt assembly smoothly;

s02, intercepting materials, namely, when the first synchronous belt assembly is driven, the materials smoothly move towards the connecting table, the front intercepting block is abutted against the first synchronous belt assembly by controlling the moving direction and the distance of the linear module to directly correspond to the moving distance of the front intercepting block or the moving distance of the rear intercepting block at the joint of the traction rope and the linear module, so that the materials flow between the front intercepting block and the rear intercepting block, the distance between the front intercepting block and the rear intercepting block is equal to at least twice the length of the materials, the quantity of the materials which can be put in is determined according to the distance between the front intercepting block and the rear intercepting block in actual installation, the linear module drives the front intercepting block to lift, and synchronously drives the rear intercepting block to be abutted against the first synchronous belt assembly, thereby facilitating the blocking of the inflow of the materials and facilitating the control of the transportation quantity of the materials;

s03, material screening, wherein the material flows into a material guide channel along a chute after passing through a front material cutting block, and the quantity of the material which can be put in per unit time is determined because the material conveying quantity is obtained according to a material cutting assembly, so that the quantity of the material which can be born by the material guide channel in per unit time is convenient to control, when the material in the material guide channel is fully loaded, a power unit drives a turntable to rotate, and in the rotating process of the material in the turntable, when the material is downward in a capping surface, the capping surface of the material abuts against a receiving groove, and the opening end of the material cannot be matched and inserted into the receiving groove, so that the material is smoothly discharged along the first material discharging channel when abutting against the first material discharging channel, and is then stacked on a second synchronous belt assembly; when the material is facing up, open end on the material can cooperate to insert and accomodate the inslot, when guide passageway and first discharging channel butt joint, the material is arranged in the bottom surface of accomodating the groove under the action of gravity, the material can not flow in first discharging channel, then the carousel continues to rotate, drive guide passageway and second discharging channel intercommunication, the material facing down this moment, and the material slope downward flow and follow second discharging channel and discharge smoothly, this in-process, the carousel rotates the round and can make facing up or facing down the material and all be facing down's gesture and stack on second hold-in range subassembly, the material of facing down that will correspond is finally sent out through second hold-in range subassembly, reduce the open end wearing and tearing of material bottle lid, effectively guarantee the processingquality of bottle lid, and, through the material cutting subassembly that sets up, prevent to have the bottle lid that remains, avoid returning the bottle lid can be carried once more, shorten bottle lid conveying time extension, and promote processingquality.

The invention has the beneficial effects that:

the carousel rotates the round and can make the facing up or the facing down material all be the facing down gesture and stack on second hold-in range subassembly, and the facing down material that will correspond is sent out through second hold-in range subassembly at last, reduces the open end wearing and tearing of material bottle lid, effectively guarantees the processingquality of bottle lid to, through the material subassembly that cuts that sets up, prevent to have the bottle lid of leaving behind, avoid the bottle lid of returning to can be carried once more, shorten bottle lid conveying time extension, promote processingquality.

Drawings

FIG. 1 is a cross-sectional view showing the structure of the bottle cap conveying device;

FIG. 2 is a cross-sectional view of the mounting structure of the power unit;

FIG. 3 is a cross-sectional view of the configuration of the turntable in communication with the second discharge passage;

FIG. 4 is a cross-sectional view of the configuration of the turntable in communication with the first discharge passage;

FIG. 5 is a schematic structural view of a cutting assembly;

fig. 6 is an enlarged view at a in fig. 1;

reference numerals illustrate:

1. a wall body; 101. a front slide; 102. a rear slide; 2. a first timing belt assembly; 3. a cutting assembly; 31. a linear module; 32. a front cutoff block; 33. a rear cutting block; 34. a traction rope; 4. a material conveying mechanism; 41. a power unit; 42. a turntable; 43. a turntable; 44. a first discharge channel; 45. a second discharge channel; 46. a material guiding channel; 5. a connection station; 6. a front fixed block; 7. fixing the block; 8. a storage groove; 9. a chute; 10. a second timing belt assembly.

Detailed Description

The invention will be further described with reference to examples and drawings, to which reference is made, but which are not intended to limit the scope of the invention.

As shown in fig. 1-6, a bottle cap conveying device comprises a wall body 1, wherein a first synchronous belt assembly 2 is arranged on the wall body 1, a material cutting assembly 3 for intermittently conveying materials on the synchronous belt assembly is arranged on the wall body 1, a material conveying mechanism 4 for receiving the materials and conveying the materials along an original posture or an inverted posture is arranged on the wall body 1, a connecting table 5 is further arranged on the wall body 1, and the connecting table 5 is used for bearing the materials sent out by the first synchronous belt assembly 2 and stably conveying the materials to the material conveying mechanism 4.

In this embodiment, the material cutting assembly 3 includes a linear module 31, a front material cutting block 32, a rear material cutting block 33 and a traction rope 34, the front material cutting block 32 and the rear material cutting block 33 are both longitudinally and slidably connected to the wall 1, two ends of the traction rope 34 are respectively fixedly connected to the front material cutting block 32 and the rear material cutting block 33, the linear module 31 is horizontally arranged on the wall 1, an output end of the linear module 31 is fixedly connected to a middle part of the traction rope 34, the linear module 31 drives the front material cutting block 32 and the rear material cutting block 33 to alternatively abut against the first synchronous belt assembly 2, and a distance between the front material cutting block 32 and the rear material cutting block 33 is equal to at least twice a material length.

In this embodiment, the wall 1 is further provided with a front fixed block 6 and a rear fixed block 7, the traction rope 34 is threaded through the front fixed block 6 and the rear fixed block 7, the wall 1 is provided with a front sliding seat 101 and a rear sliding seat 102, the front cutting block 32 is longitudinally slidably connected to the front sliding seat 101, and the rear cutting block 33 is longitudinally slidably connected to the rear sliding seat 102. By arranging the front slide 101 and the rear slide 102, the front cut block 32 can slide longitudinally on the front slide 101 smoothly, and the rear cut block 33 can slide longitudinally on the rear slide 102 smoothly.

In this embodiment, the feeding mechanism 4 includes a power unit 41, a turntable 42, a turntable 43, a first discharging channel 44, a second discharging channel 45 and a material guiding channel 46, the turntable 42 is rotatably connected to the wall 1, the power unit 41 is disposed on the wall 1, the power unit 41 drives the turntable 42 to rotate, the turntable 43 is disposed on the wall 1, a non-top end area of the turntable 42 is rotatably fitted in the turntable 43, the material guiding channel 46 runs through a radial direction of the turntable 42, a storage groove 8 is formed on one side of the material guiding channel 46 near the first synchronous belt assembly 2, a material with an upward facing surface is smoothly inserted into the storage groove 8 when the material guiding channel 46 is in butt joint with the connection table 5, the first discharging channel 44 runs through the turntable 43 longitudinally, the second discharging channel 45 runs through the turntable 43 obliquely, the material guiding channel 46 runs through the first discharging channel 44 longitudinally when extending longitudinally, the material guiding channel 46 runs through the second discharging channel 45 obliquely, the material guiding channel 46 runs through the second discharging channel 45 when the turntable 42 runs through longitudinally, and the material guiding channel 46 runs through the first discharging channel 44 when the turntable 42 rotates; specifically, the servo motor adopted by the power unit 41 can drive the turntable 42 to rotate along a single direction, which is beneficial to the stable rotation of the turntable 42, so that the conveying amount of materials is determined jointly through the rotation of the turntable 42 and the material cutting assembly 3.

In this embodiment, the width of the first discharging channel 44 is equal to the thickness of the material, and the width of the second discharging channel 45 is equal to the thickness of the material.

In this embodiment, the bottom end of the first discharging channel 44 is arc-shaped, and the inner side of the arc-shape faces to the side facing away from the first synchronous belt assembly 2.

In this embodiment, the bottom end of the second discharge channel 45 faces away from the bottom end of the first discharge channel 44.

Through the first discharge channel 44 that sets up, the material of being convenient for discharges gradually along the arc lateral wall to discharge the material through second discharge channel 45, because the bottom of second discharge channel 45 deviates from the bottom of first discharge channel 44, finally can make all be the material ordered arrangement of capping down on second hold-in range subassembly 10.

In this embodiment, the top surface of the connection table 5 is provided with a chute 9 that is obliquely arranged, the top end of the chute 9 is in butt joint with the discharge end of the first synchronous belt assembly 2, and the bottom end of the chute 9 is in sliding fit with the top surface of the turntable 42.

In this embodiment, the wall 1 is further provided with a second synchronous belt assembly 10, the second synchronous belt assembly 10 is located below the discharge ends of the first discharge channel 44 and the second discharge channel 45, and the first synchronous belt assembly 2 and the second synchronous belt assembly 10 are parallel to each other.

As shown in fig. 1 to 6, the method for using the bottle cap conveying device in the invention comprises the following steps:

s01, debugging and installing, namely driving the traction rope 34 to slide through the linear module 31, and driving the rear intercepting block 33 to abut against the first synchronous belt assembly 2 by controlling the moving direction and distance of the linear module 31 to directly correspond to the moving distance of the front intercepting block 32 or the moving distance of the rear intercepting block 33 at the joint of the traction rope 34 and the linear module 31, so that the materials are convenient to empty in advance, and the materials are convenient to abut against the side surface of the rear intercepting block 33 when passing through the first synchronous belt assembly 2, and the initial transportation position of the materials is convenient to determine; then the power unit 41 drives the turntable 42 to rotate, so that the top end of the material guide channel 46 on the turntable 42 is in butt joint with the bottom end of the chute 9, and materials can smoothly flow into the material guide channel 46 along the chute 9; finally, the first synchronous belt assembly 2 and the second synchronous belt assembly 10 are driven, so that the material is conveniently led in, and the material is conveniently discharged along the second synchronous belt assembly 10 smoothly;

s02, intercepting materials, as shown in figures 1 and 2, when the first synchronous belt assembly 2 is driven, the materials smoothly move to the connecting table 5, the moving direction and the distance of the linear module 31 are controlled to directly correspond to the moving distance of the front intercepting block 32 or the moving distance of the rear intercepting block 33 at the joint of the traction rope 34 and the linear module 31, the front intercepting block 32 is abutted against the first synchronous belt assembly 2 at first, so that the materials flow into the space between the front intercepting block 32 and the rear intercepting block 33, the distance between the front intercepting block 32 and the rear intercepting block 33 is equal to at least twice of the length of the materials, the quantity of the materials which can be put in is determined according to the distance between the front intercepting block 32 and the rear intercepting block 33 in actual installation, the linear module 31 drives the front intercepting block 32 to be lifted, and synchronously drives the rear intercepting block 33 to be abutted against the first synchronous belt assembly 2, so that the inflow of the materials is blocked, and the transportation quantity of the materials is convenient to be controlled;

s03, material screening, as shown in figures 1, 3 and 4, after passing through the front material interception block 32, the material flows into the material guide channel 46 along the chute 9, and as the conveying amount of the material is obtained according to the material interception component 3, the quantity of the material which can be put in per unit time is determined, so that the quantity of the material which can be borne by the material guide channel 46 in per unit time is convenient to control, when the material in the material guide channel 46 is fully loaded, the turntable 42 is driven to rotate by the power unit 41, and in the rotating process of the material in the turntable 42, as shown in figures 1 and 4, when the material is downward, the capping of the material abuts against the accommodating groove 8, the opening end of the material cannot be matched and inserted into the accommodating groove 8, so that the material is smoothly discharged along the first material discharge channel 44 when the material abuts against the first material discharge channel 44, and is then stacked on the second synchronous belt component 10; as shown in fig. 3, when the material is facing up, the open end on the material can be inserted into the storage tank 8 in a matching manner, when the material guiding channel 46 is in butt joint with the first discharging channel 44, the material is arranged on the bottom surface of the storage tank 8 under the action of gravity, the material cannot flow into the first discharging channel 44, then the rotary table 42 continues to rotate, the material guiding channel 46 is driven to be communicated with the second discharging channel 45, the material facing down at this time obliquely flows downwards and is smoothly discharged along the second discharging channel 45, in this process, the rotary table 42 rotates for a circle to enable the material facing up or facing down to be stacked on the second synchronous belt assembly 10 in a facing down posture, and finally the corresponding facing down material is sent out through the second synchronous belt assembly 10, so that the abrasion of the open end of the material bottle cap is reduced, the processing quality of the bottle cap is effectively ensured, and the bottle cap is prevented from leaving the bottle cap through the set up, the bottle cap returning can be conveyed again, the bottle cap conveying time is shortened, and the processing quality is improved.

All technical features in the embodiment can be freely combined according to actual needs.

It is noted that relational terms such as first and second, and the like are used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Moreover, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

The foregoing embodiments are preferred embodiments of the present invention, and other embodiments are included, without departing from the spirit of the present invention.

Claims (10)

1. The utility model provides a bottle lid conveyor, includes the wall body, be equipped with first synchronous belt assembly on the wall body, its characterized in that is equipped with the material subassembly that cuts that is used for intermittently transporting the material on the synchronous belt assembly on the wall body, be equipped with on the wall body and be used for accepting the material and with the material along the conveying mechanism of original gesture or the gesture of inverting transport, still be equipped with the connection platform on the wall body, the connection platform is used for bearing the material that first synchronous belt assembly sent and stably carries it to conveying mechanism department.

2. The bottle cap conveying device according to claim 1, wherein the material cutting assembly comprises a linear module, a front material cutting block, a rear material cutting block and a traction rope, the front material cutting block and the rear material cutting block are longitudinally and slidably connected to the wall body, two ends of the traction rope are fixedly connected with the front material cutting block and the rear material cutting block respectively, the linear module is horizontally arranged on the wall body, the output end of the linear module is fixedly connected with the middle part of the traction rope, the linear module drives the front material cutting block and the rear material cutting block to alternately abut against the first synchronous belt assembly, and the distance between the front material cutting block and the rear material cutting block is equal to at least twice the length of the material.

3. The bottle cap conveying device according to claim 2, wherein a front fixed block and a rear fixed block are further arranged on the wall body, the traction rope is arranged on the front fixed block and the rear fixed block in a penetrating mode, a front sliding seat and a rear sliding seat are arranged on the wall body, the front cutting block is longitudinally and slidably connected to the front sliding seat, and the rear cutting block is longitudinally and slidably connected to the rear sliding seat.

4. The bottle cap conveying device according to claim 3, wherein the conveying mechanism comprises a power unit, a rotary table, a first discharging channel, a second discharging channel and a material guiding channel, the rotary table is rotatably connected to the wall body, the power unit is arranged on the wall body and drives the rotary table to rotate, the rotary table is arranged on the wall body, a non-top end area of the rotary table is rotatably matched in the rotary table, the material guiding channel penetrates through a radial direction of the rotary table, a storage groove is formed in one side, close to the first synchronous belt assembly, of the material guiding channel, when the material guiding channel is in butt joint with the connecting table, a material with an upward facing surface is smoothly inserted into the storage groove, the first discharging channel longitudinally penetrates through the rotary table, the second discharging channel obliquely penetrates through the rotary table and is communicated with the first discharging channel when the material guiding channel longitudinally extends, the material guiding channel obliquely is communicated with the second discharging channel, and the material guiding channel is communicated with the first discharging channel when the rotary table rotates.

5. The bottle cap conveyor of claim 4, wherein the width of the first discharge channel is equal to the thickness of the material and the width of the second discharge channel is equal to the thickness of the material.

6. The bottle cap transfer device of claim 5, wherein the bottom end of the first discharge channel is arcuate with the arcuate inner side facing away from the first timing belt assembly.

7. The bottle cap transfer device of claim 6, wherein the bottom end of the second discharge channel faces away from the bottom end of the first discharge channel.

8. The bottle cap conveying device according to claim 4, wherein a chute which is obliquely arranged is formed in the top surface of the connecting table, the top end of the chute is in butt joint with the discharge end of the first synchronous belt assembly, and the bottom end of the chute is in sliding fit with the top surface of the turntable.

9. The bottle cap conveying device according to claim 4, wherein a second synchronous belt assembly is further arranged on the wall body, the second synchronous belt assembly is located below the discharging ends of the first discharging channel and the second discharging channel, and the first synchronous belt assembly and the second synchronous belt assembly are arranged in parallel.

10. Method of using a bottle cap transfer device according to any of claims 1-9, comprising the steps of:

s01, debugging and installing, namely driving the traction rope to slide through the linear module, and driving the rear cutting block to abut against the first synchronous belt assembly by controlling the moving direction and the distance of the linear module to directly correspond to the moving distance of the front cutting block or the moving distance of the rear cutting block at the joint of the traction rope and the linear module, so that the material is convenient to empty in advance, and the material is convenient to abut against the side surface of the rear cutting block when passing through the first synchronous belt assembly, thereby being beneficial to determining the initial transportation position of the material; then the power unit drives the turntable to rotate, so that the top end of the material guiding channel on the turntable is in butt joint with the bottom end of the chute, and materials can smoothly flow into the material guiding channel along the chute; finally, the first synchronous belt assembly and the second synchronous belt assembly are driven, so that the material is conveniently guided in, and the material is conveniently discharged along the second synchronous belt assembly smoothly;

s02, intercepting materials, namely, when the first synchronous belt assembly is driven, the materials smoothly move towards the connecting table, the front intercepting block is abutted against the first synchronous belt assembly by controlling the moving direction and the distance of the linear module to directly correspond to the moving distance of the front intercepting block or the moving distance of the rear intercepting block at the joint of the traction rope and the linear module, so that the materials flow between the front intercepting block and the rear intercepting block, the distance between the front intercepting block and the rear intercepting block is equal to at least twice the length of the materials, the quantity of the materials which can be put in is determined according to the distance between the front intercepting block and the rear intercepting block in actual installation, the linear module drives the front intercepting block to lift, and synchronously drives the rear intercepting block to be abutted against the first synchronous belt assembly, thereby facilitating the blocking of the inflow of the materials and facilitating the control of the transportation quantity of the materials;

s03, material screening, wherein the material flows into a material guide channel along a chute after passing through a front material cutting block, and the quantity of the material which can be put in per unit time is determined because the material conveying quantity is obtained according to a material cutting assembly, so that the quantity of the material which can be born by the material guide channel in per unit time is convenient to control, when the material in the material guide channel is fully loaded, a power unit drives a turntable to rotate, and in the rotating process of the material in the turntable, when the material is downward in a capping surface, the capping surface of the material abuts against a receiving groove, and the opening end of the material cannot be matched and inserted into the receiving groove, so that the material is smoothly discharged along the first material discharging channel when abutting against the first material discharging channel, and is then stacked on a second synchronous belt assembly; when the material is facing up, open end on the material can cooperate to insert and accomodate the inslot, when guide passageway and first discharging channel butt joint, the material is arranged in the bottom surface of accomodating the groove under the action of gravity, the material can not flow in first discharging channel, then the carousel continues to rotate, drive guide passageway and second discharging channel intercommunication, the material facing down this moment, and the material slope downward flow and follow second discharging channel and discharge smoothly, this in-process, the carousel rotates the round and can make facing up or facing down the material and all be facing down's gesture and stack on second hold-in range subassembly, the material of facing down that will correspond is finally sent out through second hold-in range subassembly, reduce the open end wearing and tearing of material bottle lid, effectively guarantee the processingquality of bottle lid, and, through the material cutting subassembly that sets up, prevent to have the bottle lid that remains, avoid returning the bottle lid can be carried once more, shorten bottle lid conveying time extension, and promote processingquality.