CN217894549U - Automatic splicer - Google Patents

Abstract

The utility model relates to the technical field of conveying equipment, in particular to an automatic splicer; the patch production equipment of the automatic patch connecting machine is provided with a first conveying belt, patch medicines are produced by the patch production equipment and conveyed through the first conveying belt, the patch medicines are output from a splicing end of the first conveying belt under the conveying of the first conveying belt, a second conveying belt of the automatic patch connecting machine is located below the first conveying belt, a plate placing position for the splicing plate to be placed is arranged on the second conveying belt, the plate placing position is located on one side of the splicing end, and the first sensing device is used for sensing the patch medicines, so that the patch medicines output from the splicing end fall on the splicing position of the splicing plate, the patch medicines are circularly attached to the surface of the whole splicing plate, the splicing efficiency and the splicing quality of the patch medicines are effectively improved, and the manpower for reducing the loss of the splicing process is reduced.

Description

Automatic splicer

Technical Field

The utility model belongs to the technical field of conveying equipment technique and specifically relates to an automatic splicer is related to.

Background

An antipyretic patch and a fever patch are externally applied medicaments commonly used in the medical field.

In order to facilitate storage of patch medicines such as antipyretic patches, heating patches and the like, after the patch medicines are produced, the medicines need to be attached to the surface of the connecting sheet plate. After this paster medicine production has come out, at first carry the medicine to holding the fence through production facility and hold, will hold the paster medicine subsides in the fence through the manual work again and connect to the splicing board.

Because the existing patch medicines are generally spliced manually when being attached to the splicing plate, a large amount of manpower is consumed in the splicing process, and the splicing quality and the splicing efficiency of the patch medicines are difficult to ensure.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to overcome above-mentioned technique not enough, provide an automatic splicing machine, solve the splicing quality of the process of paster medicine splicing to splicing panel among the prior art and the technical problem that splicing efficiency is not high.

In order to achieve the above technical purpose, the technical scheme of the utility model provides an automatic splicer, include:

the patch production equipment is provided with a first conveying belt, one end of the first conveying belt, far away from the patch production equipment, is provided with a patch connecting end, the patch production equipment is used for producing patch medicines, and the first conveying belt is used for conveying the patch medicines produced by the patch production equipment and outputting the patch medicines from the patch connecting end;

the second conveying belt is positioned below the first conveying belt, the conveying direction of the second conveying belt is the same as that of the first conveying belt, a plate placing position for placing a splicing plate is arranged on the second conveying belt and is positioned on one side of the splicing end, so that the splicing plate on the plate placing position receives patch medicines output by the splicing end, and the second conveying belt is used for conveying the splicing plate placed on the plate placing position;

the first sensing device is arranged on one side of the splicing end and used for sensing the patch medicines transmitted to the splicing end, when the first sensing device senses the patch medicines, the second conveying belt conveys the splicing plate, and when the first sensing device does not sense the patch medicines, the second conveying belt stops conveying the splicing plate to move the splicing plate for a certain distance, so that the surface of the splicing plate vacates a splicing position used for receiving the patch medicines output by the splicing end.

Optionally, the device further comprises a sheet material supply device, wherein the sheet material supply device is located on one side of the sheet material placing position and used for conveying another sheet material to the sheet material placing position after the sheet material receiving position is full of the patch medicines.

Optionally, the panel supply apparatus includes frame and push pedal mechanism, be provided with the panel that supplies a plurality of splicing panels to stack in the frame and stack the position, push pedal mechanism is fixed in the frame and be located one side that the position was stacked to the panel, the splicing panel of the position was placed to the panel connects after full paster medicine, will one of them splicing panel propelling movement of position is stacked to the panel stacks the position.

Optionally, be fixed with the panel spacing on the position is stacked to panel, the inside of panel spacing is provided with the panel that supplies a plurality of splicing panels to stack and stacks the groove, the panel spacing be close to one side of second conveyer belt be provided with the panel stack groove intercommunication and supply the panel that a splicing panel was released to push away the export, push pedal mechanism is used for the splicing panel that the position was placed to panel connects after full paster medicine, will one of them splicing panel that the groove was stacked to panel by panel pushes away the export and pushes away to the position is placed to panel.

Optionally, the plate limiting frame comprises a plurality of folded stand columns, the folded stand columns enclose to form the plate stacking groove, and connecting ribs are fixed between the folded stand columns along the pushing direction of the splicing plates.

Optionally, one side of the plate limiting frame close to the plate stacking groove is provided with a plate supporting plate for placing and supporting the splicing plates, and the plate supporting plate is flush with the plate pushing port.

Optionally, a wheel carrier is further fixed to the plate stacking position, a rolling wheel is rotatably arranged on the wheel carrier and used for supporting the sheet receiving plate, and when the pushing plate mechanism pushes the sheet receiving plate, the sheet receiving plate drives the rolling wheel to rotate.

Optionally, a plate baffle is fixed to one side of the second conveying belt, which is far away from the push plate mechanism, and the plate baffle is located on one side of the plate placing position.

Optionally, push pedal mechanism includes cylinder and push pedal frame, the cylinder is fixed in the frame and be located one side of position is stacked to panel, push pedal frame is fixed in the drive of cylinder is served and is extended to the position is stacked to panel, the cylinder is used for the drive push pedal frame will panel is stacked and is located the splicing panel of bottommost layer and push away to the position is placed to panel.

Optionally, the sheet stacking device further comprises a second sensing device, the second sensing device is located on one side of the sheet placing position and electrically connected with the push plate mechanism, the second sensing device is used for sensing the splicing sheet of the sheet placing position, when the second sensing device senses the splicing sheet, the push plate mechanism stops running, when the second sensing device does not sense the splicing sheet, the push plate mechanism starts running, so that one splicing sheet of the sheet stacking position is pushed to the sheet stacking position.

Compared with the prior art, the utility model provides an automatic splicer's beneficial effect includes: the patch production equipment of the automatic patch connecting machine is provided with a first conveying belt, patch medicines are produced by the patch production equipment and conveyed by the first conveying belt, the patch medicines are conveyed by the first conveying belt and output from a patch end of the first conveying belt, a second conveying belt of the automatic patch connecting machine is positioned below the first conveying belt, a plate placing position for placing the patch plates is arranged on the second conveying belt and is positioned on one side of the patch end, so that the patch medicines output from the patch end fall on the surface of the patch plates of the plate placing position, and the patch of the patch plates is realized.

Drawings

Fig. 1 is a schematic structural diagram of an automatic splicer according to an embodiment of the present invention.

Fig. 2 is a schematic structural diagram of a plate supply device of an automatic splicer according to an embodiment of the present invention.

Fig. 3 is a partially enlarged view of a portion a in fig. 2.

Fig. 4 is a usage state diagram of a plate material supply device of an automatic plate splicing machine according to an embodiment of the present invention.

Wherein, in the figures, the respective reference numerals:

10-paster production facility 11-first conveyer belt 10 a-paster medicine

20-second conveyor belt 21-plate placing position 22-plate baffle

30-first sensor device 40-sheet supply apparatus 41-frame

42-push plate mechanism 50-second sensing device 111-tab end

411-plate stacking position 412-plate limiting frame 413-wheel frame

414-push plate groove 421-cylinder 422-push plate frame

4121-plate stacking groove 4122-plate pushing-out opening 4123-folding upright post

4124 connecting rib 4125 plate support plate 4131 rolling wheel

4221, connecting rod 4222, boosting plate 20a and a connecting plate.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be further described in detail with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are for purposes of illustration only and are not intended to limit the invention.

The utility model provides an automatic splicing machine, including paster production facility 10, second conveyer belt 20 and first sensing device 30, paster production facility 10 is provided with first conveyer belt 11, and the one end that first conveyer belt 11 kept away from paster production facility 10 is provided with splicing end 111, and paster production facility 10 is used for producing paster medicine 10a, and first conveyer belt 11 is used for carrying the paster medicine 10a of paster production facility 10 production to export paster medicine 10a from splicing end 111; the second conveying belt 20 is located below the first conveying belt 11, the conveying direction of the second conveying belt 20 is the same as the conveying direction of the first conveying belt 11, a plate placing position 21 for placing a plate on a plate receiving plate 20a is arranged on the second conveying belt 20, the plate placing position 21 is located on one side of the plate receiving end 111, so that the plate receiving plate 20a on the plate placing position 21 receives the patch medicines 10a output from the plate receiving end 111, and the second conveying belt 20 is used for conveying the plate receiving plate 20a placed on the plate placing position 21; the first sensing device 30 is disposed at one side of the receiving end 111 and used for sensing the patch medicine 10a transmitted to the receiving end 111, when the first sensing device 30 senses the patch medicine 10a, the second conveying belt 20 conveys the receiving plate 20a, and when the first sensing device 30 does not sense the patch medicine 10a, the second conveying belt 20 stops conveying the receiving plate 20a to move the receiving plate 20a for a certain distance, so that the surface of the receiving plate 20a vacates a receiving position for receiving the patch medicine 10a output from the receiving end 111.

Specifically, the patch production device 10 of the automatic patch connecting machine is provided with a first conveying belt 11, the patch production device 10 produces patch medicines 10a and conveys the patch medicines through the first conveying belt 11, the patch medicines 10a are conveyed by the first conveying belt 11 and output from a patch end 111 of the first conveying belt 11, a second conveying belt 20 of the automatic patch connecting machine is positioned below the first conveying belt 11, a plate placing position 21 for placing the patch plates 20a is arranged on the second conveying belt 20, the plate placing position 21 is positioned at one side of the patch end 111, so that the patch medicines 10a output from the patch end 111 fall on the surface of the patch plates 20a of the plate placing position 21 to realize the splicing of the patch plates 20a, and as the automatic patch connecting machine is further provided with a first sensing device 30, the first sensing device 30 is arranged at one side of the patch end 111, the patch medicine 10a is conveyed to the first sensing device 30 by the first conveying belt 11 and passes through the first sensing device 30, during the period of passing through the first sensing device 30, the first sensing device 30 senses the patch medicine 10a, so that the second conveying belt 20 drives the patch plate 20a to move for a certain distance, the surface of the patch plate 20a is made to vacate a patch position for receiving the patch medicine 10a output by the patch end 111, the patch medicine 10a output from the patch end 111 falls on the patch position of the patch plate 20a, and the patch medicine 10a is attached to the surface of the whole patch plate 20a in a circulating manner, so that the patch of the patch plate 20a is completed, the patch efficiency and quality of the patch medicine 10a are effectively improved, and manpower consumed in the patch process is reduced.

It is to be understood that the patch producing apparatus 10 may be any apparatus capable of producing a sheet-like patch medicine 10a such as an antipyretic patch, a heat-generating patch, or the like.

In this embodiment, after the patch medicines 10a are produced by the patch producing apparatus 10, they are arranged on the surface of the first conveyor belt 11 in a row, and are conveyed to the splicing end 111 by the first conveyor belt 11 and fall from the splicing end 111.

In this embodiment, the conveying speed of the second conveyor belt 20 is greater than the conveying speed of the first conveyor belt 11, so that the conveying distance of the second conveyor belt 20 to the tab sheet material 20a is greater than the length of the patch medicine 10a during the sensing of the patch medicine 10a by the first sensing device 30, and the patch medicine 10a is prevented from overlapping on the tab sheet material 20 a.

In this embodiment, the first sensor device 30 is a photoelectric sensor, and the first sensor device 30 is electrically connected to the driving device of the second conveyor belt 20.

Optionally, a sheet material feeding device 40 is further included, and the sheet material feeding device 40 is located at one side of the sheet material placing position 21 and is used for conveying another sheet material 20a to the sheet material placing position 21 after the sheet material 20a is filled with the patch medicine 10 a. Specifically, after the splicing plate 20a on the plate placing position 21 is filled with the patch medicines 10a, the plate feeding device 40 accurately conveys the other splicing plate 20a to the plate placing position 21, so that the patch medicines 10a are attached to the other splicing plate 20a, manpower in the conveying process of the splicing plate 20a is effectively reduced, and the splicing plate 20a is accurately placed.

It is understood that the plate supplying device 40 may be a conveyor belt, which intermittently places a plurality of tab plates 20a on the surface of the conveyor belt so that the conveyor belt conveys the plates to the plate placing position 21 at regular intervals, or a robot, etc., which conveys the tab plates 20a by being held by the robot.

In this embodiment, the board supply device 40 includes a frame 41 and a pushing mechanism 42, a board stacking position 411 for stacking a plurality of tab boards 20a is disposed on the frame 41, the pushing mechanism 42 is fixed on the frame 41 and located at one side of the board stacking position 411, and after the tab boards 20a of the board stacking position 21 are filled with the patch medicines 10a, one tab board 20a of the board stacking position 411 is pushed to the board stacking position 411. Specifically, the sheet supply apparatus 40 may transport the tab sheet 20a to the sheet stacking location 411 in the form of a stack while allowing the tab sheet 20a to be stacked in the sheet stacking location 411, reducing the space occupied by the tab sheet 20a and the sheet supply apparatus 40.

It will be appreciated that the pusher mechanism 42 may push the tab sheet 20a directly to the sheet stacking position 411 or may use inertia to force the tab sheet 20a toward the sheet stacking position 411.

In this embodiment, further, a plate limiting frame 412 is fixed on the plate stacking position 411, a plate stacking groove 4121 for stacking a plurality of tab plates 20a is formed in the plate limiting frame 412, a plate pushing-out opening 4122 which is communicated with the plate stacking groove 4121 and used for pushing out one tab plate 20a is formed in one side of the plate limiting frame 412 close to the second conveyor belt 20, and the pushing plate mechanism 42 is used for pushing one tab plate 20a of the plate stacking groove 4121 to the plate placing position 21 through the plate pushing-out opening 4122 after the tab plate 20a of the plate placing position 21 is filled with the patch medicines 10 a. Specifically, through the arrangement of the plate limiting frame 412 and the plate stacking groove 4121, the plate 20a can be effectively limited, the plate 20a can be stacked orderly, and the plate pushing mechanism 42 can push the plate conveniently.

In this embodiment, the plate-limiting frame 412 further includes a plurality of folded columns 4123, the plurality of folded columns 4123 enclose to form a plate stacking groove 4121, and a connecting rib 4124 is fixed between the folded columns 4123 along the pushing direction of the connecting piece plate 20 a. Specifically, the folded columns 4123 can facilitate observation of the storage amount of the tab sheet 20a while achieving formation of the sheet stacking groove 4121, and the connecting ribs 4124 can reinforce the structure of each folded column 4123 to prevent the folded column 4123 from deforming under the driving of the tab sheet 20 a.

In this embodiment, a plate supporting plate 4125 for placing and supporting the tab plate 20a is further provided on a surface of the plate stopper 412 near the plate stacking groove 4121, and the plate supporting plate 4125 is flush with the plate ejecting opening 4122. Specifically, the supporting plate can support the splicing plate 20a, so that the splicing plate 20a is far away from the plate stacking position 411, and abrasion to the plate stacking position 411 in the process of pushing the plate by the plate pushing mechanism 42 is avoided.

Further, in this embodiment, the connecting ribs 4124 are extended in the direction of the sheet stacking groove 4121 to form a sheet supporting plate 4125.

In this embodiment, further, a wheel frame 413 is fixed on the plate stacking position 411, a rolling wheel 4131 is rotatably disposed on the wheel frame 413, the rolling wheel 4131 is used for supporting the sheet receiving plate 20a, and when the pushing plate mechanism 42 pushes the sheet receiving plate, the sheet receiving plate 20a drives the rolling wheel 4131 to rotate. Specifically, the rolling wheel 4131 can provide support for the tab sheet material 20a while reducing the energy consumption of the plate pushing process of the plate pushing mechanism 42.

Optionally, a plate baffle 22 is fixed on the side of the second conveyor belt 20 away from the push plate mechanism 42, and the plate baffle 22 is located on the side of the plate placing position 21. Specifically, the sheet shutter 22 may block the tab sheet 20a, which is conveyed to the sheet placing position 21 by the sheet feeding apparatus 40, to prevent the tab sheet 20a from deviating from the sheet placing position 21.

Alternatively, the pushing plate mechanism 42 includes an air cylinder 421 and a pushing plate frame 422, the air cylinder 421 is fixed on the frame 41 and located at one side of the plate stacking position 411, the pushing plate frame 422 is fixed on a driving end of the air cylinder 421 and extends to the plate stacking position 411, and the air cylinder 421 is used for driving the pushing plate frame 422 to push the tab plate 20a located at the bottommost layer in the plate stacking position 411 to the plate placing position 21.

Specifically, the conveying of the tab plate 20a is further realized by the driving of the air cylinder 421 and the pushing of the pushing plate frame 422.

In this embodiment, the push plate frame 422 further includes a connecting rod 4221 and a boosting plate 4222, one end of the connecting rod 4221 is fixed to a driving end of the air cylinder 421, a push plate groove 414 is formed in a top surface of the frame 41, the push plate groove 414 extends toward a push plate direction of the push plate mechanism 42, the air cylinder 421 is located below the push plate groove 414, one end of the connecting rod 4221 close to the tab plate 20a penetrates through the push plate groove 414 and extends to an end portion of the tab plate 20a at a bottommost layer in the plate stacking groove 4121, the boosting plate 4222 is horizontally fixed to one end of the connecting rod 4221 close to the tab plate 20a, the air cylinder 421 is configured to drive the boosting plate 4222 to reset the boosting plate 4222 from the end portion of the tab plate 20a at the bottommost layer in the plate stacking groove 4121, the tab plate 20a is pushed to the plate placing position 21 by the plate pushing opening 4122, and the boosting plate 4222 is driven to reset after the tab plate 20a is pushed to the plate placing position 21.

Optionally, a second sensing device 50 is further included, the second sensing device 50 is located on one side of the board placing position 21 and electrically connected to the pushing plate mechanism 42, and is configured to sense the tab board 20a of the board placing position 21, when the second sensing device 50 senses the tab board 20a, the pushing plate mechanism 42 stops operating, and when the second sensing device 50 does not sense the tab board 20a, the pushing plate mechanism 42 starts operating to push one of the tab boards 20a in the board stacking position 411 to the board stacking position 411. Specifically, through the setting of second sensing device 50, can realize that push pedal mechanism 42 docks the automatic transport of piece panel 20a, and then realize effectively promoting the piece efficiency of piece of paster medicine 10a to the full-automatic piece of paster medicine 10a, alleviates the manpower of paster medicine 10a piece process.

In this embodiment, the second sensing device 50 is a photoelectric sensor, and the second sensing device 50 is electrically connected to the cylinder 421.

In this embodiment, after the splicing operation of the splicing sheet 20a in the sheet stacking position 411 is completed, the splicing sheet 20a with the completed splicing needs to be removed from the second conveyor 20.

The above description of the present invention does not limit the scope of the present invention. Any other corresponding changes and modifications according to the technical idea of the present invention should be included in the scope of the claims of the present invention.

Claims (10)

1. An automatic splicer, comprising:

the patch production equipment is provided with a first conveying belt, one end of the first conveying belt, far away from the patch production equipment, is provided with a patch connecting end, the patch production equipment is used for producing patch medicines, and the first conveying belt is used for conveying the patch medicines produced by the patch production equipment and outputting the patch medicines from the patch connecting end;

the second conveying belt is positioned below the first conveying belt, the conveying direction of the second conveying belt is the same as that of the first conveying belt, a plate placing position for placing a splicing plate is arranged on the second conveying belt and positioned on one side of the splicing end, so that the splicing plate on the plate placing position receives patch medicines output by the splicing end, and the second conveying belt is used for conveying the splicing plate placed on the plate placing position;

the first sensing device is arranged on one side of the splicing end and used for sensing the patch medicines transmitted to the splicing end, when the first sensing device senses the patch medicines, the second conveying belt conveys the splicing plate, and when the first sensing device does not sense the patch medicines, the second conveying belt stops conveying the splicing plate to move the splicing plate for a certain distance, so that the surface of the splicing plate vacates a splicing position used for receiving the patch medicines output by the splicing end.

2. The automatic splicing machine of claim 1, further comprising a sheet feeding device located at one side of the sheet placement location for feeding another splicing sheet to the sheet placement location after the splicing sheet is filled with the patch medicine.

3. The automatic splicer of claim 2, wherein the sheet supply equipment comprises a frame and a push plate mechanism, the frame is provided with a sheet stacking position for stacking a plurality of splicing sheets, the push plate mechanism is fixed on the frame and located on one side of the sheet stacking position, and after the splicing sheets of the sheet stacking position are filled with patch medicines, one splicing sheet of the sheet stacking position is pushed to the sheet stacking position.

4. The automatic splicer according to claim 3, wherein a board limiting frame is fixed on the board stacking position, a board stacking groove for stacking a plurality of spliced boards is formed in the board limiting frame, a board pushing outlet communicated with the board stacking groove and used for pushing out one spliced board is formed in one side of the board limiting frame close to the second conveyor belt, and the pushing plate mechanism is used for pushing one spliced board in the board stacking groove to the board placing position from the board pushing outlet after the spliced board in the board placing position is filled with the patch medicine.

5. The automatic splicing machine of claim 4, wherein the plate limiting frame comprises a plurality of folded upright posts, the folded upright posts are enclosed to form the plate stacking groove, and connecting ribs are fixed between the folded upright posts along the pushing direction of the splicing plates.

6. The automatic splicing machine of claim 4, wherein a plate supporting plate for placing and supporting the spliced plate is arranged on one surface of the plate limiting frame, which is close to the plate stacking groove, and the plate supporting plate is flush with the plate pushing outlet.

7. The automatic splicer according to claim 3, wherein a wheel carrier is further fixed to the plate stacking position, a rolling wheel is rotatably provided on the wheel carrier, the rolling wheel is used for supporting the spliced plate, and when the push plate mechanism pushes the spliced plate, the spliced plate drives the rolling wheel to rotate.

8. The automatic splicer of claim 3, wherein a sheet material baffle is fixed to a side of the second conveyor belt away from the push plate mechanism, the sheet material baffle being located to a side of the sheet material placement location.

9. The automatic splicer of claim 3, wherein the push plate mechanism includes an air cylinder and a push plate rack, the air cylinder is fixed on the frame and located at one side of the plate stacking position, the push plate rack is fixed on a driving end of the air cylinder and extends to the plate stacking position, and the air cylinder is used for driving the push plate rack to push the splicing plate located at the bottommost layer in the plate stacking position to the plate stacking position.

10. The automatic splicing machine according to claim 3, further comprising a second sensing device, wherein the second sensing device is located on one side of the plate placing position and electrically connected to the pushing plate mechanism, and is used for sensing the spliced plate at the plate placing position, when the second sensing device senses the spliced plate, the pushing plate mechanism stops operating, and when the second sensing device does not sense the spliced plate, the pushing plate mechanism starts operating to push one of the spliced plates at the plate stacking position to the plate stacking position.

Images