CN220052008U - A cutting device for patch - Google Patents

Abstract

The utility model relates to the technical field of patch cutting, and discloses a cutting device for patches. This a cutting device for patch realizes the centre gripping removal through installing stable cutting device, the patch setting that will process in the inboard of conveyer belt, will adjust through the rotatory roller of conveyer belt control in step, the rotatory roller will drive the cutting frame contact and rotatory cutting patch when adjusting, can compress inside supporting spring structure in the cutting, the cutting then drives antiseized push pedal through supporting spring and promotes the patch separation, can effectually realize quick cutting's effect through the rotation, can promote machining efficiency through the cutting of continuity.

Description

A cutting device for patch

Technical Field

The utility model relates to the technical field of patch cutting, in particular to a cutting device for patches.

Background

The patch is a common external medicine, and is applied to different parts of the body in an external absorption mode for treatment by being stuck on a sticking layer after being cut by a cutting device.

The cutting device is used for cutting the patch material, the patch on the whole surface is arranged at the bottom of the patch device, and the patch is cut by the pressing cutting knife and then separated, so that the patch cutting processing treatment can be realized.

Chinese patent publication No.: CN110103276B discloses an eye patch extrusion cutting device, which comprises a base, a transverse plate, an L-shaped rod, a first wedge block, a first spring, a first vertical rod, a second spring, a first fixing plate, a damping block, a guide sleeve, a cross rod and the like; the base top bolt has the diaphragm that plays the supporting role, opens on the diaphragm has first through-hole and second through-hole, and first through-hole is located second through-hole right side, and the left side of diaphragm is opened has the trompil that plays the guiding role, and the trompil communicates with each other with the second through-hole. The eye patches can be cut through the blade, so that the eye patches can be cut at one time, the eye patches can be prevented from being cut, and four eye patches can be cut at one time, so that time can be saved.

In the prior art, when using, can realize the effect of four patches of single cutting through the multiunit cutting structure that sets up at major structure and promote the efficiency of processing, but when cutting, still need push down the lifting and separate again, can't realize the continuity.

Disclosure of Invention

The utility model aims to provide a cutting device for patches, which solves the problems that in the prior art, when cutting is carried out, the patches still need to be pressed down, lifted and separated, and continuity cannot be realized.

In order to solve the technical problems, the utility model provides the following technical scheme: the utility model provides a cutting device for patch, includes the cutting case, the inside of cutting case is provided with stable cutting assembly, and stable cutting assembly is used for promoting cutting efficiency, the inside left side of cutting case is provided with auxiliary assembly, and auxiliary assembly is used for handling the cutting patch;

the stable cutting assembly comprises four groups of conveying belts, two groups of supporting rollers are arranged on the inner sides of the conveying belts, a driving belt is arranged on the outer sides of the front sides of the supporting rollers, a rotating roller is arranged on the back of the inner sides of the driving belts, a plurality of groups of cutting frames are arranged on the outer sides of the rotating roller, a plurality of groups of limiting frames are arranged on the inner sides of the cutting frames, supporting springs are embedded and installed in the limiting frames, and anti-sticking pushing plates are arranged on the outer sides of the supporting springs;

the auxiliary assembly comprises a plurality of groups of guide rollers, a bonding layer is arranged on the outer side of each guide roller, a plurality of groups of pushing discs are arranged below the bonding layer, a piston rod is mounted at the bottom of each pushing disc, and an electric push rod is arranged on the outer side of the bottom of each piston rod.

Preferably, a welding table is arranged in the cutting box and is positioned on the inner side of the attaching layer, a bearing seat is arranged at the bottom of the inner side of the cutting box, the bearing seat is positioned on the outer side of the electric push rod, and a regulator is arranged on the front side of the cutting box.

Preferably, the gear shaft is installed in the inboard embedding of backing roll, and the outside of gear shaft is provided with drive gear, drive gear is located the inboard at the drive belt back, driving motor is installed in the front of gear shaft, and driving motor's back-mounted has the transmission box, the transmission box is located the outside of drive belt.

Preferably, a transmission shaft is mounted on the front surface of the rotary roller, and the transmission shaft is positioned on the outer side of the transmission belt.

Preferably, the collecting roller is installed in the left side of laminating layer bottom, and the front and the back of collecting roller install the installing support, rotating electrical machines is installed in the front of installing support, the release roller is installed in the left side at laminating layer top, and the inboard of laminating layer is provided with three guide rollers, and the guide roller is located the inboard of cutting case.

Preferably, the welding disc is installed at the top of the electric push rod, the welding disc is located at the top of the bearing seat, two groups of auxiliary guide rods are installed at the bottom of the pushing disc, and the auxiliary guide rods are located in the bearing seat.

Preferably, the front of the regulator is provided with a control panel, the front of the control panel is provided with a display screen, the front of the control panel is provided with a plurality of groups of control buttons, and the front of the control panel is provided with a groove handle.

Compared with the prior art, the utility model has the following beneficial effects:

according to the utility model, the stable cutting device is arranged, the plurality of groups of supporting rollers inside can be driven to rotate through the driving motor, the adhesive agent to be processed is arranged on the inner side of the conveying belt to realize clamping movement, the rotating rollers are controlled by the conveying belt to be adjusted synchronously, the rotating rollers can drive the cutting frame to contact and rotate to cut the adhesive agent when adjusting, the internal supporting spring structure can be compressed when cutting, the adhesive agent is separated through the supporting spring driven by the anti-sticking push plate after cutting, the rapid cutting effect can be effectively realized through rotation, and the processing efficiency can be improved through continuous cutting.

Secondly, the auxiliary component is arranged, so that the existing adhesive plaster needs to manually adhere the adhesive layer to the surface of the adhesive plaster after the cutting is finished, the working pressure of the worker is increased, meanwhile, dust is easily attached to the surface due to exposure, the adhesive layer released by synchronous rolling is arranged at the top of the adhesive plaster, and the electric push rod can drive the pushing disc at the top to quickly rise so as to contact and attach the adhesive plaster after the cutting to the surface of the adhesive layer, thereby avoiding dust attachment caused by exposure, and simultaneously facilitating subsequent processing and reducing the working pressure of the worker.

Drawings

FIG. 1 is a schematic diagram of the main structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of a cutting box of the present utility model;

FIG. 3 is a schematic cross-sectional view of a cutting frame of the present utility model;

FIG. 4 is a schematic cross-sectional view of a pusher tray of the present utility model;

FIG. 5 is a schematic diagram of a regulator according to the present utility model.

Wherein: 1. a cutting box; 101. a welding table; 102. a bearing seat; 2. a transmission belt; 201. a gear shaft; 202. a support roller; 203. a driving motor; 204. a transmission box; 205. a transmission gear; 3. cutting a frame; 301. a transmission belt; 302. a transmission shaft; 303. a rotating roller; 304. a limit frame; 305. a support spring; 306. an anti-sticking push plate; 4. a bonding layer; 401. a mounting bracket; 402. a rotating electric machine; 403. a receiving roller; 404. a release roller; 405. a guide roller; 5. pushing the disc; 501. a welding plate; 502. an electric push rod; 503. a piston rod; 504. an auxiliary guide rod; 6. a regulator; 601. a control panel; 602. a display screen; 603. a control button; 604. a groove handle.

Description of the embodiments

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

Referring to fig. 1 to 5, a cutting device for patches includes a cutting box 1, a stable cutting assembly is disposed inside the cutting box 1, the stable cutting assembly is used for improving cutting efficiency, an auxiliary assembly is disposed on the left side inside the cutting box 1, and the auxiliary assembly is used for processing cut patches;

the stable cutting assembly comprises four groups of conveying belts 2, two groups of supporting rollers 202 are arranged on the inner side of each conveying belt 2, a driving belt 301 is arranged on the outer side of the front face of each supporting roller 202, a rotating roller 303 is arranged on the back face of the inner side of each driving belt 301, a plurality of groups of cutting frames 3 are arranged on the outer side of each rotating roller 303, a plurality of groups of limiting frames 304 are arranged on the inner side of each cutting frame 3, supporting springs 305 are embedded and installed in the inner sides of the limiting frames 304, and anti-sticking pushing plates 306 are arranged on the outer sides of the supporting springs 305;

the auxiliary assembly includes a plurality of groups of deflector rolls 405, and the outside of deflector roll 405 is provided with laminating layer 4, and the below of laminating layer 4 is provided with a plurality of groups of promotion dish 5, and promotes the bottom of dish 5 and installs piston rod 503, and the outside of piston rod 503 bottom is provided with electric putter 502.

Through above-mentioned technical scheme, can drive inside multiunit backing roll 202 through being provided with driving motor 203 and rotate, the patch that will need process sets up the inboard realization centre gripping removal at conveyer belt 2, synchronous will be adjusted through the rotatory roller 303 of conveyer belt 301 control, rotatory roller 303 will drive the contact of cutting frame 3 and rotatory cutting patch when adjusting, can compress inside backing spring 305 structure in the cutting, the cutting then drives antiseized push pedal 306 through backing spring 305 and promotes the patch separation, can effectually realize quick cutting's effect through the rotation, can promote machining efficiency through the cutting of continuity.

Through above-mentioned technical scheme, utilize laminating layer 4 setting at the top of patch of synchronous rolling release, utilize electric putter 502 can drive the promotion dish 5 at top and rise fast can contact the patch after the cutting is accomplished and attach the surface at laminating layer 4, both can avoid exposing and lead to the dust to attach, be convenient for follow-up processing simultaneously reduce staff's operating pressure.

Specifically, the inside of the cutting box 1 is provided with a welding table 101, the welding table 101 is located on the inner side of the bonding layer 4, the bottom of the inner side of the cutting box 1 is provided with a bearing seat 102, the bearing seat 102 is located on the outer side of the electric push rod 502, and the front side of the cutting box 1 is provided with a regulator 6.

Through the above technical scheme, the welding table 101 structure can provide support for extrusion in a welding mode, and the support can be provided for the patch to be cut by utilizing the bearing seat 102 structure.

Specifically, the gear shaft 201 is embedded and mounted on the inner side of the support roller 202, the transmission gear 205 is disposed on the outer side of the gear shaft 201, the transmission gear 205 is located on the inner side of the back surface of the transmission belt 301, the driving motor 203 is mounted on the front surface of the gear shaft 201, the transmission box 204 is mounted on the back surface of the driving motor 203, and the transmission box 204 is located on the outer side of the transmission belt 301.

Through the above technical scheme, the gear shaft 201 structure can drive the transmission gear 205 to adjust through rotation, and the transmission can drive the transmission belt 301 on the outer side to adjust synchronously, and the driving motor 203 structure can provide kinetic energy for the rotation of the inner part, and the transmission box 204 is used for providing an installation position for the inner structure.

Specifically, a transmission shaft 302 is mounted on the front surface of the rotation roller 303, and the transmission shaft 302 is located outside the transmission belt 301.

Through the above technical solution, the structure of the transmission shaft 302 can perform kinetic energy transmission.

Specifically, the receiving roller 403 is installed in the left side of laminating layer 4 bottom, and the front and the back of receiving roller 403 install installing support 401, and rotating electrical machines 402 are installed in the front of installing support 401, and release roller 404 is installed in the left side at laminating layer 4 top, and the inboard of laminating layer 4 is provided with three sets of deflector rolls 405, and deflector roll 405 is located the inboard of cutting box 1.

Through above-mentioned technical scheme, accomodate roller 403 structure can accomodate laminating layer 4 through the rotation, utilizes installing support 401 structure to restrict through welded mode to inboard accomodate roller 403 structure, can drive through rotating electrical machines 402 and adjust, utilizes release roller 404 can release laminating layer 4, utilizes inside deflector roll 405 structure can assist the guide.

Specifically, the top of the electric push rod 502 is provided with a welding disc 501, the welding disc 501 is located at the top of the bearing seat 102, the bottom of the pushing disc 5 is provided with two groups of auxiliary guide rods 504, and the auxiliary guide rods 504 are located inside the bearing seat 102.

Through above-mentioned technical scheme, welding dish 501 passes through welded mode and sets up electric putter 502 at the top of bearing seat 102, utilizes electric putter 502 can drive pushing disc 5 and carries out quick lift adjustment, utilizes supplementary guide arm 504 can increase lift adjustment's stability.

Specifically, the front of the regulator 6 is provided with a control panel 601, the front of the control panel 601 is provided with a display screen 602, the front of the control panel 601 is provided with a plurality of groups of control buttons 603, and the front of the control panel 601 is provided with a groove handle 604.

Through above-mentioned technical scheme, control panel 601 can provide the mounted position for positive regulation structure, utilizes control button 603 to adjust, and the data of adjustment process will show on display screen 602, utilizes recess handle 604 to overturn and opens and maintain.

When the adhesive patch is used, the smooth surfaces on two sides of the adhesive patch are contacted with the conveying belt 2, the conveying belt 2 is used for clamping and driving to carry out position adjustment, meanwhile, the driving motor 203 drives the two groups of gear structures and the conveying belt 301 to carry out kinetic energy transmission, the rotating roller 303 is used for driving the internal cutting frame 3 to carry out rotary cutting, the adhesive patch can be continuously cut through the cutting frame 3, meanwhile, the anti-sticking push plate 306 is used for pushing and separating, the adhesive patch continuously moves to the bottom of the adhesive layer 4 after separating, the piston rod 503 at the output end is controlled by the electric push rod 502, and the pushing disc 5 at the top of the transmission control ascends to push the cut adhesive patch to be attached to the bottom of the adhesive layer 4 for attaching and separating.

Although embodiments of the present utility model 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 thereof, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. Cutting device for patches, comprising a cutting box (1), characterized in that: the inside of the cutting box (1) is provided with a stable cutting assembly, the stable cutting assembly is used for improving cutting efficiency, the left side of the inside of the cutting box (1) is provided with an auxiliary assembly, and the auxiliary assembly is used for processing a cutting patch;

the stable cutting assembly comprises four groups of conveying belts (2), two groups of supporting rollers (202) are arranged on the inner sides of the conveying belts (2), a driving belt (301) is arranged on the outer sides of the front sides of the supporting rollers (202), a rotating roller (303) is arranged on the back sides of the inner sides of the driving belt (301), a plurality of groups of cutting frames (3) are arranged on the outer sides of the rotating roller (303), a plurality of groups of limiting frames (304) are arranged on the inner sides of the cutting frames (3), supporting springs (305) are embedded and installed in the limiting frames (304), and anti-sticking push plates (306) are arranged on the outer sides of the supporting springs (305);

the auxiliary assembly comprises a plurality of groups of guide rollers (405), a bonding layer (4) is arranged on the outer side of each guide roller (405), a plurality of groups of pushing discs (5) are arranged below each bonding layer (4), piston rods (503) are arranged at the bottoms of the pushing discs (5), and electric push rods (502) are arranged on the outer sides of the bottoms of the piston rods (503).

2. A cutting device for patches according to claim 1, characterized in that: the inside of cutting case (1) is provided with welding bench (101), and welding bench (101) are located the inboard of laminating layer (4), carrier (102) are installed to the bottom of cutting case (1) inboard, and carrier (102) are located the outside of electric putter (502), regulator (6) are installed in the front of cutting case (1).

3. A cutting device for patches according to claim 1, characterized in that: the inside embedding of backing roll (202) is installed gear shaft (201), and the outside of gear shaft (201) is provided with drive gear (205), drive gear (205) are located the inboard at drive belt (301) back, driving motor (203) are installed in the front of gear shaft (201), and the back-mounting of driving motor (203) has transmission box (204), transmission box (204) are located the outside of drive belt (301).

4. A cutting device for patches according to claim 1, characterized in that: a transmission shaft (302) is mounted on the front face of the rotary roller (303), and the transmission shaft (302) is located on the outer side of the transmission belt (301).

5. A cutting device for patches according to claim 1, characterized in that: the utility model discloses a cutting box, including laminating layer (4), including cutting box (1), including laminating layer (4), mounting bracket (401) are installed in the left side of laminating layer (4) bottom, and front and the back-mounting of collecting roller (403) have installing support (401), rotating electrical machines (402) are installed in the front of installing support (401), release roller (404) are installed in the left side at laminating layer (4) top, and the inboard of laminating layer (4) is provided with three guide roller (405), and guide roller (405) are located the inboard of cutting box (1).

6. A cutting device for patches according to claim 1, characterized in that: the top of electric putter (502) is installed and is welded dish (501), and welded dish (501) are located the top of bearing seat (102), two sets of auxiliary guide arm (504) are installed to the bottom of pushing away dish (5), and auxiliary guide arm (504) are located the inside of bearing seat (102).

7. A cutting device for patches according to claim 2, characterized in that: the front of regulator (6) is provided with control panel (601), and display screen (602) are installed on the front of control panel (601), the front of control panel (601) is provided with a plurality of groups of control button (603), and recess handle (604) have been seted up on the front of control panel (601).