CN216334992U

CN216334992U - Plastic cap transfer apparatus

Info

Publication number: CN216334992U
Application number: CN202122694595.3U
Authority: CN
Inventors: 黄俊生; 庞水金
Original assignee: Dongguan Gech Automation Technology Co ltd
Current assignee: Dongguan Gech Automation Technology Co ltd
Priority date: 2021-11-04
Filing date: 2021-11-04
Publication date: 2022-04-19
Anticipated expiration: 2031-11-04

Abstract

The utility model discloses plastic cover transfer equipment, wherein a plastic cover comprises an outer cover and a cover ring which are connected, and the equipment comprises a material taking mechanism, a turnover mechanism and a discharging mechanism; the material taking mechanism is used for taking out and transferring the plastic cover which is subjected to the in-mold injection molding; the turnover mechanism is used for receiving and turning over the plastic cover transferred by the material taking mechanism so as to enable the cover opening of the outer cover to face the blanking mechanism; the blanking mechanism comprises a moving device and a cover taking component, the moving device is fixedly provided with a rotary driver, the output end of the rotary driver is connected with a rotor, the cover taking component is connected with the rotor, the cover taking component is close to a turnover mechanism under the driving of the moving device to pick up a plastic cover after turnover, the rotor drives the cover taking component to rotate under the driving of the rotary driver, so that a cover opening of an outer cover of the plastic cover faces upwards, and the moving device is used for driving the cover taking component to be close to the cover closing mechanism to place the plastic cover on the cover closing mechanism. The plastic cap transferring device can simultaneously perform each operation step of transferring the plastic caps, and improves the production efficiency.

Description

Plastic cap transfer apparatus

Technical Field

The utility model relates to the technical field of plastic cover production, in particular to plastic cover transfer equipment.

Background

The milk powder cover is divided into an outer cover and a cover ring, and the cover ring is internally provided with a spoon. After the milk powder cover is formed in the injection molding machine, the outer cover and the outer edge of the cover ring are connected together, and the outer cover and the cover ring are flatly laid on a plane. After the connected outer cover and cover ring are taken out of the injection molding machine, the cover needs to be transferred to a cover closing mechanism which is arranged at one side of the injection molding machine and can fold the connected outer cover and cover ring to enable the outer cover and the cover ring to be buckled together.

The existing method for transferring the plastic cover from the injection molding machine to the cover closing mechanism is to arrange a material transferring mechanism above the injection molding machine and the cover closing mechanism, wherein the material transferring mechanism comprises a transmission line and a moving device, the moving device can move back and forth to the upper side of the injection molding machine and the cover closing mechanism along the transmission line and can move down to be close to the injection molding machine and the cover closing mechanism so as to take and discharge materials, but the material transferring mechanism needs to be actuated for many times to complete one-time transferring operation, the actuation time is long, the steps are complicated, and the integral production efficiency is influenced.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide plastic cover transferring equipment which can simultaneously carry out each operation step of transferring plastic covers and improve the efficiency of producing the plastic covers.

In order to achieve the purpose, the utility model discloses plastic cover transfer equipment, wherein a plastic cover comprises an outer cover and a cover ring which are connected, and the equipment comprises a material taking mechanism, a turnover mechanism and a discharging mechanism; the material taking mechanism is used for taking out and transferring the plastic cover subjected to in-mold injection molding; the turnover mechanism is used for receiving and turning over the plastic cover transferred by the material taking mechanism so as to enable the cover opening of the outer cover to face the blanking mechanism; unloading mechanism includes the mobile device and gets the lid subassembly, the mobile device has set firmly the rotation driver, the output that rotates the driver is connected with the rotor, get the lid subassembly with the rotor is connected, it is in to get the lid subassembly the mobile device drive down to tilting mechanism is close to in order to pick up the plastics lid after the upset, the rotor is in drive down of rotation driver gets the lid subassembly and rotates to the lid mouth up of the enclosing cover that makes the plastics lid, the mobile device is used for driving get the lid subassembly to close to cover the mechanism and be close to in order to place the plastics lid close in covering the mechanism.

The plastic cover transferring mechanism is provided with a material taking mechanism, a turnover mechanism and a discharging mechanism to respectively execute the operation steps of transferring the plastic cover, wherein the material taking mechanism takes out the plastic cover subjected to in-mold injection molding, the turnover mechanism turns over the taken-out plastic cover so as to enable a cover opening of an outer cover of the plastic cover to face the discharging mechanism, the discharging mechanism transfers the turned-over plastic cover to the cover closing mechanism and enables the cover opening of the outer cover of the plastic cover to face upwards, so that the cover closing mechanism can conveniently perform the operation of folding and closing the outer cover and the cover ring, the mechanisms can simultaneously execute the operation steps of transferring the plastic cover, the time of transferring the plastic cover is effectively shortened, and the efficiency of producing the plastic cover is improved.

Optionally, the material taking mechanism includes a longitudinal base and a material taking mechanical arm, the material taking mechanical arm is slidably connected to the longitudinal base, the material taking mechanical arm is provided with a plurality of first absorbers, the first absorbers are used for absorbing plastic covers subjected to in-mold injection molding, and the material taking mechanical arm drives the first absorbers to slide along the longitudinal base so as to transfer the taken plastic covers.

Optionally, vertical base is including setting up at its inside vertical drive wheel and longitudinal drive wheel, around establishing vertical drive wheel with longitudinal transmission band between the longitudinal drive wheel and with the longitudinal drive motor that longitudinal drive wheel is connected, get the bottom of material arm and install vertical slider, vertical slider with longitudinal transmission band fixed connection, longitudinal drive motor is used for the drive longitudinal drive wheel rotates, it is in to get the material arm the transmission of longitudinal transmission band is followed down vertical base slides.

Optionally, the material taking mechanical arm includes a longitudinal slide seat slidably connected to the longitudinal base, a traverse actuator and a transverse slide rail provided on the longitudinal slide seat, and a material taking bracket slidably connected to the transverse slide rail, the first material collector is provided on the material taking bracket, the material taking bracket is fixedly connected to an output end of the traverse actuator, and the material taking bracket slides along the transverse slide rail under the driving of the traverse actuator, so as to drive the first material collector to approach to a plastic cover that is subjected to in-mold injection molding or the turnover mechanism.

Optionally, the material taking mechanical arm is further provided with a plurality of label suction devices, and the label suction devices are used for sucking labels on the label placing rack and transferring the labels into the mold cavity.

Optionally, tilting mechanism includes that support frame, upset driver, upset support and a plurality of second inhale the glassware, the second is inhaled the glassware setting and is in on the upset support, the glassware is inhaled to the second and is used for absorbing the plastics lid that the extracting mechanism shifted, the one end of upset support is connected with the upset driver, the upset driver is installed on the support frame, the other end of upset support rotationally connects on the support frame, the upset driver is used for the drive the upset of upset support.

Optionally, the moving device includes a horizontal base, and a horizontal driving mechanism and a horizontal moving body that are disposed on the horizontal base, the horizontal driving mechanism is configured to drive the horizontal moving body to slide horizontally along the horizontal base, the horizontal moving body is provided with a vertical driving mechanism and a vertical moving body, the vertical driving mechanism is configured to drive the vertical moving body to slide vertically, and one end of the vertical moving body, which is close to the cover closing mechanism, is fixedly provided with the rotation driver.

Optionally, the vertical driving mechanism includes a vertical driving motor, a transmission wheel set and a vertical transmission belt, the vertical driving motor and the transmission wheel set are mounted on the horizontal moving body, two ends of the vertical moving body are respectively provided with a vertical connecting piece, two ends of the vertical transmission belt are fixed to the two vertical connecting pieces, and the vertical transmission belt is wound on the output end of the vertical driving motor and the transmission wheel set; when the vertical driving motor rotates, the vertical moving body is driven by the vertical transmission belt to vertically move.

Optionally, the transverse driving mechanism includes a transverse driving motor disposed on the transverse sliding seat, a transverse driving wheel connected to an output end of the transverse driving motor, a transverse driving wheel, and a transverse transmission belt wound between the transverse driving wheel and the transverse driving wheel, and a transverse slider is mounted at a bottom of the transverse moving body and mounted on the transverse transmission belt; when the transverse driving motor rotates, the transverse moving body is driven by the transverse conveying belt to transversely move.

Optionally, get the lid subassembly and include a plurality of third suction devices, runing rest and rotary actuator, the third suction devices set up in runing rest, the third suction devices is used for absorbing the plastics lid after the tilting mechanism upset, runing actuator fixed connection in the rotor, runing rest fixed connection in runing actuator's output, runing actuator is used for the drive runing rest is rotatory around its self.

Drawings

Fig. 1 is a schematic perspective view of an injection molding machine, a label placing rack, a plastic cover transferring device, a rack with a hidden part of the structure, a cover closing mechanism, a transfer mechanism and a conveying line according to an embodiment of the present invention.

Fig. 2 is a schematic perspective view of a label placing rack, a plastic cap transferring device, a cap closing mechanism, a transfer mechanism and a conveying line according to an embodiment of the present invention.

Fig. 3 is a schematic perspective view of the plastic cover before closing the plastic cover in the embodiment of the utility model.

Fig. 4 is a schematic perspective view of a material taking mechanism according to an embodiment of the utility model.

Fig. 5 is a schematic cross-sectional view of a material taking mechanism with a part of the structure hidden in the embodiment of the utility model.

Fig. 6 is a schematic perspective view of a turnover mechanism in an embodiment of the present invention.

Fig. 7 is a schematic perspective view of a blanking mechanism in an embodiment of the present invention.

Fig. 8 is a perspective view of fig. 7 from another angle.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following detailed description is given with reference to the accompanying drawings in conjunction with the embodiments.

Referring to fig. 1 to 8, the utility model discloses a plastic cover transfer device, wherein a plastic cover 100 comprises an outer cover 101 and a cover ring 102 which are connected, and the device comprises a material taking mechanism 1, a turnover mechanism 2 and a blanking mechanism 3; the material taking mechanism 1 is used for taking out and transferring the plastic cover 100 which is subjected to the in-mold injection molding; the turnover mechanism 2 is used for receiving and turning over the plastic cover 100 transferred by the material taking mechanism 1 so that the cover opening of the outer cover 101 faces the blanking mechanism 3; the blanking mechanism 3 comprises a moving device 31 and a cover taking assembly 32, the moving device 31 is fixedly provided with a rotating driver 310, the output end of the rotating driver 310 is connected with a rotating body 3101, the cover taking assembly 32 is connected with the rotating body 3101, the cover taking assembly 32 is driven by the moving device 31 to approach to the turnover mechanism 2 so as to pick up the turned plastic cover 100, the rotating body 3101 is driven by the rotating driver 310 to drive the cover taking assembly 32 to rotate so as to enable the cover opening of the outer cover 101 of the plastic cover 100 to face upwards, and the moving device 31 is used for driving the cover taking assembly 32 to approach to the cover closing mechanism 40 so as to place the plastic cover 100 on the cover closing mechanism 40.

The plastic cap transferring mechanism is provided with a material taking mechanism 1, a turnover mechanism 2 and a blanking mechanism 3 to respectively execute the operation steps of transferring the plastic cap 100, wherein the material taking mechanism 1 takes out the plastic cap 100 subjected to in-mold injection molding, the turnover mechanism 2 turns over the taken-out plastic cap 100 to enable the cover opening of an outer cap 101 of the plastic cap 100 to face the blanking mechanism 3, the blanking mechanism 3 transfers the turned-over plastic cap 100 to a cap closing mechanism 40 and enables the cover opening of the outer cap 101 of the transferred plastic cap 100 to face upwards, so that the cap closing mechanism 40 can fold and close the outer cap 101 and a cap ring 102 conveniently, the mechanisms can simultaneously execute the operation steps of transferring the plastic cap 100, the time of transferring the plastic cap 100 is effectively shortened, and the production efficiency of the plastic cap 100 is improved.

Referring to fig. 2 to 5, the material taking mechanism 1 includes a longitudinal base 11 and a material taking mechanical arm 12, the material taking mechanical arm 12 is slidably connected to the longitudinal base 11, the material taking mechanical arm 12 is provided with a plurality of first absorbers 121, the first absorbers 121 are used for absorbing the plastic lids 100 that are subjected to in-mold injection molding, and the material taking mechanical arm 12 drives the first absorbers 121 to slide along the longitudinal base 11 so as to transfer the taken plastic lids 100. The above-described take-out robot arm 12 can slide reciprocally along the longitudinal base 11 to repeatedly perform the operation of taking out the plastic lids 100 and transferring them to the inverting mechanism 2.

Specifically, the longitudinal base 11 includes a longitudinal driving wheel 111 and a longitudinal driving wheel 112 disposed inside thereof, a longitudinal transmission belt 113 wound between the longitudinal driving wheel 111 and the longitudinal driving wheel 112, and a longitudinal driving motor 114 connected to the longitudinal driving wheel, a longitudinal slider 122 is mounted at the bottom of the picking robot arm 12, the longitudinal slider 122 is fixedly connected to the longitudinal transmission belt 113, the longitudinal driving motor 114 is configured to drive the longitudinal driving wheel 111 to rotate, and the picking robot arm 12 slides along the longitudinal base 11 under the driving of the longitudinal transmission belt 113.

Referring to fig. 2 to 5, the material taking arm 12 includes a longitudinal slide 123 slidably connected to the longitudinal base 11, a traverse driver 125 and a transverse slide rail 126 disposed on the longitudinal slide 123, and a material taking bracket 124 slidably connected to the transverse slide rail 126, the first material collector 121 is disposed on the material taking bracket 124, the material taking bracket 124 is fixedly connected to an output end of the traverse driver 125, the material taking bracket 124 slides along the transverse slide rail 126 under the driving of the traverse driver 125 to drive the first material collector 121 to approach the plastic cover 100 or the turnover mechanism 2 that has completed the in-mold injection molding, so that the first material collector 121 sucks the plastic cover and the turnover mechanism 2 receives the plastic cover 100 sucked by the first material collector 121.

Referring to fig. 2 to 5, the material taking mechanical arm 12 is further provided with a plurality of label suction devices 127, and the label suction devices 127 are configured to suck the labels on the label placing rack 50 and transfer the labels into the mold cavity, so that the labels and the outer cover 101 of the plastic cover 100 are fused together after the plastic cover 100 is injection molded.

Specifically, the label placing frame 50 is disposed at one side of the material taking mechanism 1, the label sucking device 127 is disposed on the label sucking bracket 128, the label sucking bracket 128 is connected to the longitudinal sliding seat 123 in a transversely sliding manner, and the label sucking bracket 128 drives the label sucking device 127 to approach the label placing frame 50 so that the label sucking device 127 sucks the label on the label placing frame 50.

As shown in fig. 1 to 5, the material taking mechanism 1 is docked with the injection molding machine 60, the material taking mechanical arm 12 slides along the longitudinal base 11 to drive the first suction device 121 and the label suction device 127 to extend into the injection molding machine 60, the first suction device 121 sucks the plastic cover 100 injection molded by the injection molding machine 60, and the label suction device 127 transfers the label on the label placing rack 50 into the cavity of the injection molding machine 60. The above structures of the injection molding machine 60 and the label placing frame 50 are only required to adopt the structures of the prior art, and therefore, the detailed description is omitted.

Specifically, the material taking bracket 124 is further provided with a contact blocking member 1241, and when the traverse actuator 125 drives the material taking bracket 124 to approach the plastic cover 100 injection-molded in the injection molding machine 60, the contact blocking member 1241 abuts against an alignment column (not shown) in the injection molding machine 60 to assist the alignment of the material taking mechanical arm 12 and the injection molding machine 60, which is beneficial to improving the material taking precision of the first material absorber 121.

Referring to fig. 2 to 6, the turnover mechanism 2 includes a support frame 21, a turnover driver 22, a turnover support 23 and a plurality of second material suction devices 24, the second material suction devices 24 are disposed on the turnover support 23, the second material suction devices 24 are used for sucking the plastic cover 100 transferred by the material taking mechanism 1, one end of the turnover support 23 is connected with the turnover driver 22, the turnover driver 22 is mounted on the support frame 21, the other end of the turnover support 23 is rotatably connected to the support frame 21, and the turnover driver 22 is used for driving the turnover support 23 to turn over. The turnover mechanism 2 can turn over the plastic cover 100 originally with the cover opening of the outer cover 101 facing the material taking mechanism 1, so that the cover opening of the outer cover 101 faces the blanking mechanism 3, and after the blanking mechanism 3 transfers the plastic cover 100 to the cover closing mechanism 40, the cover opening of the outer cover 101 of the plastic cover 100 faces upwards.

Referring to fig. 2, 7 and 8, the moving device 31 includes a horizontal base 311, and a horizontal driving mechanism 312 and a horizontal moving body 313 that are disposed on the horizontal base 311, the horizontal driving mechanism 312 is configured to drive the horizontal moving body 313 to slide horizontally along the horizontal base 311, the horizontal moving body 313 is provided with a vertical driving mechanism 314 and a vertical moving body 315, the vertical driving mechanism 314 is configured to drive the vertical moving body 315 to slide vertically, and one end of the vertical moving body 315 close to the cover closing mechanism 40 is fixedly provided with a rotation driver 310. The moving device 31 can drive the cover taking assembly 32 to move transversely and vertically, and can rotate the cover taking assembly 32 to realize the transfer of the plastic cover 100 from the turnover mechanism 2 to the cover closing mechanism 40, so that the matching between the blanking mechanism 3 and the turnover mechanism 2 and the cover closing mechanism 40 is facilitated.

Specifically, the vertical driving mechanism 314 comprises a vertical driving motor 3141, a transmission wheel set 3142 and a vertical transmission belt 3143, the vertical driving motor 3141 and the transmission wheel set 3142 are mounted on the horizontal moving body 313, two ends of the vertical moving body 315 are respectively provided with a vertical connecting piece 3151, two ends of the vertical transmission belt 3143 are fixed on the two vertical connecting pieces 3151, and the vertical transmission belt 3143 is wound on the output end of the vertical driving motor 3141 and the transmission wheel set 3142; when the vertical driving motor 3141 rotates, the vertical moving body 315 is driven by the vertical transmission belt 3143 to move vertically.

Specifically, the traverse driving mechanism 312 includes a traverse driving motor 3121 provided on the traverse base 311, a traverse driving wheel 3122 connected to an output end of the traverse driving motor 3121, a traverse driving wheel 3123, and a traverse transmission belt 3124 wound between the traverse driving wheel 3122 and the traverse driving wheel 3123, a traverse slider 3131 is installed at a bottom of the traverse moving body 313, and a traverse slider 3131 is installed at the traverse transmission belt 3124; when the transverse driving motor 3121 rotates, the transverse moving body 313 is driven by the transverse transmission belt 3124 to move transversely.

Referring to fig. 2, 3, 7 and 8, the cover taking assembly 32 includes a plurality of third material absorbers 321, a rotating bracket 322 and a rotating driver 323, the third material absorbers 321 are disposed on the rotating bracket 322, the third material absorbers 321 are used for absorbing the plastic cover 100 turned over by the turnover mechanism 2, the rotating driver 323 is fixedly connected to the rotating body 3101, the rotating bracket 322 is fixedly connected to the output end of the rotating driver 323, and the rotating driver 323 is used for driving the rotating bracket 322 to rotate around itself. In the present embodiment, the outer cap 101 and the cap ring 102 of the plastic cap 100 sucked by the cap assembly 32 are arranged along the longitudinal direction, and the above-mentioned rotary driver 323 and the rotary bracket 322 can drive the plastic cap 100 to rotate 90 degrees around itself, so that the outer cap 101 and the cap ring 102 are arranged along the transverse direction to fit the cap closing mechanism 40.

Specifically, as shown in fig. 2, the rotating bracket 322 is further provided with a positioning column 3221, the cover closing mechanism 40 is provided with a positioning hole 401, and when the cover taking assembly 32 transfers the plastic cover 100 turned over by the turning mechanism 2 to the cover closing mechanism 40, the positioning column 3221 extends into the positioning hole 401 to assist the alignment between the cover taking assembly 32 and the cover closing mechanism 40.

As shown in fig. 1 and 2, the material taking mechanism 1, the turning mechanism 2 and the blanking mechanism 3 of the plastic cap transferring apparatus are disposed on a frame 100, the frame 100 is further provided with a cap closing mechanism 40, a transferring mechanism 70 and a conveying line 80, after the plastic cap transferring apparatus transfers the plastic cap 100 which is injection molded in the injection molding machine 60 to the cap closing mechanism 40, the cap closing mechanism 40 folds and closes the plastic cap 100 so as to buckle a cap ring 102 with an outer cap 101, and then the transferring mechanism 70 transfers the plastic cap 100 which is completed to the conveying line 80. The above structures of the cover closing mechanism 40, the transfer mechanism 70 and the conveying line 80 are only required to adopt the prior art structure, and therefore, the detailed description is omitted.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the present invention, therefore, the present invention is not limited by the appended claims.

Claims

1. A plastic cover transfer device is characterized in that the device comprises a material taking mechanism, a turnover mechanism and a blanking mechanism;

the material taking mechanism is used for taking out and transferring the plastic cover subjected to in-mold injection molding;

the turnover mechanism is used for receiving and turning over the plastic cover transferred by the material taking mechanism so as to enable the cover opening of the outer cover to face the blanking mechanism;

unloading mechanism includes the mobile device and gets the lid subassembly, the mobile device has set firmly the rotation driver, the output that rotates the driver is connected with the rotor, get the lid subassembly with the rotor is connected, it is in to get the lid subassembly the mobile device drive down to tilting mechanism is close to in order to pick up the plastics lid after the upset, the rotor is in drive down of rotation driver gets the lid subassembly and rotates to the lid mouth up of the enclosing cover that makes the plastics lid, the mobile device is used for driving get the lid subassembly to close to cover the mechanism and be close to in order to place the plastics lid close in covering the mechanism.

2. The plastic cap transfer apparatus of claim 1, wherein the take-out mechanism comprises a longitudinal base and a take-out robot arm slidably coupled to the longitudinal base, the take-out robot arm having a plurality of first pickers for picking up plastic caps that have been injection molded in the mold, the take-out robot arm driving the first pickers to slide along the longitudinal base to transfer the picked plastic caps.

3. The plastic cover transfer device according to claim 2, wherein the longitudinal base comprises a longitudinal driving wheel and a longitudinal driving wheel arranged inside the longitudinal base, a longitudinal transmission belt wound between the longitudinal driving wheel and the longitudinal driving wheel, and a longitudinal driving motor connected with the longitudinal driving wheel, a longitudinal slider is mounted at the bottom of the material taking mechanical arm, the longitudinal slider is fixedly connected with the longitudinal transmission belt, the longitudinal driving motor is used for driving the longitudinal driving wheel to rotate, and the material taking mechanical arm slides along the longitudinal base under the transmission of the longitudinal transmission belt.

4. The plastic cap transfer apparatus of claim 2, wherein the material taking robot arm comprises a longitudinal slide slidably connected to the longitudinal base, a traverse actuator and a transverse slide disposed on the longitudinal slide, and a material taking rack slidably connected to the transverse slide, wherein the first material taking device is disposed on the material taking rack, the material taking rack is fixedly connected to an output end of the traverse actuator, and the material taking rack slides along the transverse slide under the driving of the traverse actuator to drive the first material taking device to approach the plastic cap subjected to in-mold injection molding or the turnover mechanism.

5. A plastic lid transfer apparatus as in claim 2 wherein the take off robot arm is further provided with a plurality of label pickers for picking up labels on the label rack and transferring the labels into the mold cavities.

6. The plastic cover transfer apparatus of claim 1, wherein the flipping mechanism comprises a support frame, a flipping actuator, a flipping frame, and a plurality of second material absorbers, the second material absorbers are disposed on the flipping frame, the second material absorbers are configured to absorb the plastic covers transferred by the material taking mechanism, one end of the flipping frame is connected to the flipping actuator, the flipping actuator is mounted on the support frame, the other end of the flipping frame is rotatably connected to the support frame, and the flipping actuator is configured to drive the flipping frame to flip.

7. A plastic cap transfer apparatus according to claim 1, wherein the moving device comprises a transverse base, and a transverse driving mechanism and a transverse moving body arranged on the transverse base, the transverse driving mechanism is used for driving the transverse moving body to slide transversely along the transverse base, a vertical driving mechanism and a vertical moving body are arranged on the transverse moving body, the vertical driving mechanism is used for driving the vertical moving body to slide vertically, and the rotary driver is fixedly arranged at one end of the vertical moving body close to the cap closing mechanism.

8. The plastic cover transfer device according to claim 7, wherein the vertical driving mechanism comprises a vertical driving motor, a transmission wheel set and a vertical transmission belt, the vertical driving motor and the transmission wheel set are mounted on the transverse moving body, two ends of the vertical moving body are respectively provided with a vertical connecting piece, two ends of the vertical transmission belt are fixed on the two vertical connecting pieces, and the vertical transmission belt is wound on an output end of the vertical driving motor and the transmission wheel set; when the vertical driving motor rotates, the vertical moving body is driven by the vertical transmission belt to vertically move.

9. The plastic cap transfer apparatus of claim 7, wherein the transverse drive mechanism includes a transverse drive motor disposed on the transverse base, a transverse drive wheel coupled to an output of the transverse drive motor, a transverse drive wheel, and a transverse conveyor belt wound between the transverse drive wheel and the transverse drive wheel, the transverse moving body having a transverse slide mounted to a bottom thereof, the transverse slide being mounted to the transverse conveyor belt; when the transverse driving motor rotates, the transverse moving body is driven by the transverse conveying belt to transversely move.

10. The plastic cap transfer apparatus according to claim 1, wherein the cap removing assembly comprises a plurality of third material absorbers, a rotary support and a rotary driver, the third material absorbers are arranged on the rotary support, the third material absorbers are used for absorbing the plastic caps overturned by the overturning mechanism, the rotary driver is fixedly connected to the rotating body, the rotary support is fixedly connected to the output end of the rotary driver, and the rotary driver is used for driving the rotary support to rotate around the rotary support.