CN111514453B - Double-row button type physiotherapy electrode piece forming machine - Google Patents

Double-row button type physiotherapy electrode piece forming machine Download PDF

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Publication number
CN111514453B
CN111514453B CN202010366598.1A CN202010366598A CN111514453B CN 111514453 B CN111514453 B CN 111514453B CN 202010366598 A CN202010366598 A CN 202010366598A CN 111514453 B CN111514453 B CN 111514453B
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cutting
fixing
supporting
block
rods
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CN111514453A (en
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楼钢锋
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Zhejiang Rongqi Medical Technology Co ltd
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Zhejiang Rongqi Medical Technology Co ltd
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    • DTEXTILES; PAPER
    • D06TREATMENT OF TEXTILES OR THE LIKE; LAUNDERING; FLEXIBLE MATERIALS NOT OTHERWISE PROVIDED FOR
    • D06HMARKING, INSPECTING, SEAMING OR SEVERING TEXTILE MATERIALS
    • D06H7/00Apparatus or processes for cutting, or otherwise severing, specially adapted for the cutting, or otherwise severing, of textile materials
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N1/00Electrotherapy; Circuits therefor
    • A61N1/02Details
    • A61N1/04Electrodes
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B65CONVEYING; PACKING; STORING; HANDLING THIN OR FILAMENTARY MATERIAL
    • B65GTRANSPORT OR STORAGE DEVICES, e.g. CONVEYORS FOR LOADING OR TIPPING, SHOP CONVEYOR SYSTEMS OR PNEUMATIC TUBE CONVEYORS
    • B65G35/00Mechanical conveyors not otherwise provided for

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  • Engineering & Computer Science (AREA)
  • Health & Medical Sciences (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Biomedical Technology (AREA)
  • Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
  • Radiology & Medical Imaging (AREA)
  • Textile Engineering (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Mechanical Engineering (AREA)
  • Details Of Cutting Devices (AREA)
  • Treatment Of Fiber Materials (AREA)

Abstract

The invention discloses a double-row button type physiotherapy electrode piece forming machine with a good forming effect, which comprises two conveying rails, two conveying blocks, a supporting device, a fixing device, a cutting device and a pressing device, wherein the two conveying blocks are arranged on the two conveying rails; the fixing device comprises a plurality of fixing components arranged on the supporting device, and each fixing component comprises a fixing frame, a plurality of first ratchets, a fixing rod, a fixing block, two second ratchets, a first elastic piece and a second elastic piece; the first ratchet and the second ratchet are arranged in a matched mode, the fixing block can move relative to the fixing rod, the second ratchet can rotate relative to the fixing block, one end of the second elastic piece is connected to the fixing block, the other end of the second elastic piece is connected to the supporting device, and the fixing assemblies are identical in structure and symmetrically arranged. The invention increases the stability of the electrode slice during cutting and improves the cutting effect of the electrode slice.

Description

Double-row button type physiotherapy electrode piece forming machine
Technical Field
The invention belongs to the field of physiotherapy electrode piece forming machines, and particularly relates to a double-row button type physiotherapy electrode piece forming machine.
Background
The physiotherapy electrode piece is one of common products in physiotherapy, and the button type physiotherapy electrode piece is one of physiotherapy electrode pieces, and is named because buttons are arranged on the button type physiotherapy electrode piece. The button type physiotherapy electrode piece has various specifications, and has single row and also multiple rows.
The button-type physiotherapy electrode piece produced by a traditional forming machine has the condition that the edge of the electrode piece is askew when the electrode piece is cut, and also has the condition that the cutting shape of the electrode piece is wrong because the electrode piece is not fixed and is cut stably when the electrode piece is cut.
Disclosure of Invention
The invention provides a double-row button type physiotherapy electrode piece forming machine which is used for overcoming the defects of the prior art, increasing the stability of an electrode piece during cutting and improving the cutting effect of the electrode piece.
In order to achieve the purpose, the invention adopts the following technical scheme: a double-row button type physiotherapy electrode piece forming machine comprises two conveying rails, two conveying blocks respectively arranged on the two conveying rails, a supporting device arranged on the two conveying blocks, a fixing device arranged on the supporting device, a cutting device arranged on the conveying rails, and a pressing device arranged on the conveying rails; the fixing device comprises a plurality of fixing components arranged on the supporting device, and each fixing component comprises a fixing frame, a plurality of first ratchets arranged on the fixing frame, a fixing rod arranged on one side of the fixing frame, a fixing block arranged on the fixing rod, two second ratchets arranged on two sides of the fixing block, a first elastic piece used for connecting the two second ratchets, and a second elastic piece sleeved on the fixing rod; the conveying block can move relative to the conveying track, the first ratchet and the second ratchet are arranged in a matched mode, the fixing block can move relative to the fixing rod, the second ratchet can rotate relative to the fixing block, one end of the second elastic piece is connected to the fixing block, the other end of the second elastic piece is connected to the supporting device, and the fixing assemblies are identical in structure and symmetrically arranged.
According to the invention, through the arrangement of the fixing blocks, when a worker places the conductive cloth and the non-woven fabric which are subjected to the buckling operation on the supporting device, the fixing blocks are pressed to move downwards and fix the conductive cloth and the non-woven fabric, and then the conductive cloth and the non-woven fabric are fixed on the supporting device through the mutual meshing action between the first ratchet and the second ratchet, so that the conductive cloth and the non-woven fabric are fixed on the supporting device through the fixing blocks, the situation that the conductive cloth and the non-woven fabric are displaced when being cut subsequently is avoided, the situation that the cutting edges of the conductive cloth and the non-woven fabric are skewed due to the fact that the conductive cloth and the non-woven fabric are not fixed stably during cutting is further avoided, and the stability of the conductive cloth and; through the setting of second ratchet, when the fixed block needs to fix electrically conductive cloth and non-woven fabrics, can carry on spacingly to the fixed block through the lock between second ratchet and the first ratchet, stability when having increased fixed electrically conductive cloth and non-woven fabrics of fixed block, simultaneously when electrically conductive cloth and the non-woven fabrics on the needs take off on with strutting arrangement, can make two second ratchets rotate to the position of fixed block through the second ratchet of pressing both sides, thereby make two second ratchets and first ratchet break away from each other and mesh, and make things convenient for the fixed block to reset and take out electrically conductive cloth and non-woven fabrics, portability when having increased electrically conductive cloth and non-woven fabrics fixed with the dismantlement.
The supporting device comprises supporting plates arranged on the two conveying blocks and two supporting components arranged on the supporting plates; the supporting component comprises a supporting block arranged on the supporting plate and a plurality of cutting grooves arranged on the supporting block; the two support assemblies are identical in structure and symmetrically arranged, and the support blocks can move relative to the support plate; through the arrangement of the supporting plate and the two supporting blocks, after the conductive cloth and the non-woven fabric are placed on the supporting plate, the non-woven fabric and the conductive cloth can be supported at two positions through the two supporting blocks, so that the situation that the two electrode plates cannot be driven to move simultaneously by the supporting blocks after the conductive cloth and the non-woven fabric are cut into the two electrode plates by a subsequent cutting device is avoided; through the setting of cutting the groove, when cutting device is cutting non-woven fabrics and electrically conductive cloth, can be through the cooperation of cutting groove and cutting device, make cutting device can cut the more depths to the supporting shoe, avoided cutting device because only cut the surface of supporting shoe and the non-woven fabrics that leads to and electrically conductive cloth not by the condition of complete cutting separation, and then avoided the follow-up non-woven fabrics that will cut and the electrically conductive cloth condition that does not break away from raw and other materials appear when taking off, the effect of non-woven fabrics and electrically conductive cloth cutting has been increased.
The supporting assembly further comprises a moving track arranged on the supporting plate, a moving block used for connecting the moving track with the supporting block, a first telescopic rod used for connecting the moving block with the moving track, a third elastic piece arranged for connecting the first telescopic rod with the moving track, a plurality of ejector rods arranged on the supporting block and an air pipe arranged on the moving block; the moving track is of an inclined structure, the moving block can move relative to the moving track, the air pipe and the first telescopic rod are arranged in a matched mode, and the air pipe and the ejector rod are arranged in a matched mode; through the arrangement of the moving block, after the non-woven fabric and the conductive cloth are cut, the moving block is pushed to move downwards, and then the two supporting blocks are driven to be opened towards two sides respectively in the process of moving downwards, so that the non-woven fabric and the conductive cloth which are cut can be driven by the pressing device to pass through the initial positions of the supporting blocks and continue to move downwards, the non-woven fabric and the conductive cloth can be continuously attached to a subsequent PE film, the situation that the non-woven fabric and the conductive cloth cannot be continuously attached to the PE film due to the fact that the non-woven fabric and the conductive cloth are blocked by the supporting blocks is avoided, meanwhile, the operation that a worker needs to take the cut non-woven fabric and the cut conductive cloth and then attach the non-woven fabric and the cut conductive cloth to the PE film is avoided, the situation that the positions are inclined when the non-woven fabric, the conductive cloth and the PE, the efficiency in laminating is improved; through the setting of ejector pin, when the movable block moves down along the removal track, the movable block can promote first telescopic link and contract, make the gas in the first telescopic link enter into the ejector pin through the trachea, and drive a plurality of ejector pins upwards extension, make electrically conductive cloth laminating one side on the supporting shoe can be by a plurality of ejector pins jack-ups, avoided the supporting shoe when removing or push down the device because electrically conductive cloth and the corner of cutting cut groove contact each other and the electrically conductive cloth that leads to is scraped the condition of breaking when driving electrically conductive cloth and moving, the possibility of electrically conductive cloth damage has been reduced, the qualification rate of product has been increased.
The cutting device comprises two first connecting rods arranged on the conveying track, two connecting frames respectively arranged on the two first connecting rods, and a plurality of first cutting assemblies respectively arranged on the two connecting frames; the first cutting assembly comprises a plurality of second telescopic rods arranged on the connecting frame, a plurality of first cutting knives arranged on the second telescopic rods respectively, guide plates arranged on one sides of the first cutting knives respectively, and guide rods arranged on the other sides of the first cutting knives respectively; the cutting device comprises a plurality of first cutting assemblies, a guide plate, a first cutting groove, a plurality of guide rods and a plurality of first cutting assemblies, wherein the plurality of first cutting assemblies are identical in structure and symmetrically arranged, the guide plate and the first cutting knife are arranged in a matched mode, the guide rods penetrate through the guide plate, the guide plate can move relative to the guide rods, and the first cutting knife and the cutting groove are correspondingly arranged; through the arrangement of the plurality of first cutting knives, after the fixing device fixes the non-woven fabrics and the conductive fabrics and drives the conveying block and the supporting plate to move below the cutting device through the conveying track, the operation of the conveying track is suspended and the supporting plate is suspended below the cutting device, then the non-woven fabrics and the conductive fabrics are selected according to the requirements, the appointed second telescopic rod is controlled by the system to extend to drive the first cutting knives to move downwards, and the guide plate drives the adjacent first cutting knives to move downwards, so that when the non-woven fabrics and the conductive fabrics are cut by the first cutting knives, the cutting lengths of the non-woven fabrics and the conductive fabrics by the first cutting knives can be adjusted by extending different second telescopic rods, the condition that the materials are not completely cut from the raw materials or are excessively cut to cause waste due to insufficient or too much cutting length when the non-woven fabrics and the conductive fabrics are cut by the first cutting knives is avoided, the adaptability of the first cutting knife to different cutting length requirements during cutting is increased; through the setting of guide board and guide bar, when appointed second telescopic link extends and drives appointed first cutting knife and remove, can drive the effect through the first cutting knife of guide board to appointed first cutting knife one side, make first cutting knife can not appear cutting position and the condition of vacancy when cutting non-woven fabrics and conductive fabric, the cutting effect of first cutting knife has been increased, simultaneously, setting through the guide bar, make a plurality of first cutting knives carry on spacingly through the guide bar when the cutting, the mutual position of having avoided between a plurality of first cutting knives takes place the dislocation and the non-woven fabrics that leads to and the cutting edge of conductive fabric appear crooked or do not cut the complete condition, the cutting effect of first cutting knife has been increased.
The cutting device also comprises a plurality of second cutting assemblies respectively arranged on the two connecting frames; the second cutting assembly comprises an adjusting track arranged on the connecting frame, a first driving piece arranged on the adjusting track, a third telescopic rod arranged on the first driving piece, a second cutting knife arranged on the third telescopic rod, two fourth telescopic rods arranged on two sides of the second cutting knife, two grooves arranged on two sides of the second cutting knife, two fifth telescopic rods respectively arranged on the two grooves, and two third cutting knives respectively arranged on the two fifth telescopic rods; the plurality of second cutting assemblies are identical in structure and symmetrically arranged, the first driving piece can move relative to the adjusting track, the second cutting knife and the cutting groove are correspondingly arranged, the fourth telescopic rod and the fifth telescopic rod are arranged in a matched mode, and the third cutting knife can rotate relative to the groove; through the arrangement of the second cutting knife, after the first cutting knife cuts the non-woven fabric and the conductive cloth, the adjusting track is started to drive the first driving piece to move to the positions on two sides of the non-woven fabric and the conductive cloth after the cutting is finished, then the first driving piece is started to drive the third telescopic rod to extend, and further the second cutting knife is driven to move downwards and cut the non-woven fabric and the conductive cloth, so that the situation that the non-woven fabric and the conductive cloth cannot be completely cut from raw materials due to the fact that the cutting positions of the second cutting knife and the first cutting knife are disconnected is avoided, the cutting accuracy between the second cutting knife and the first cutting knife is improved, and the cutting effect of the second cutting knife is improved; through the arrangement of the fourth telescopic rod, when the second cutting knife moves downwards, the fourth telescopic rod can firstly contact the non-woven fabric and the conductive cloth and contract in the process of downward movement of the second cutting knife, and the gas in the fourth telescopic rod is extruded into the fifth telescopic rod, so that the fifth telescopic rod drives the third cutting knife to overturn towards the outer side and is matched with the second cutting knife to cut the non-woven fabric and the conductive cloth, the condition that the cutting position between the first cutting knife and the second cutting knife cannot be cut is avoided, the condition that the non-woven fabric and the conductive cloth cannot be taken down due to the fact that the non-woven fabric and the conductive cloth are not completely cut is further avoided, the cutting effect is increased, and meanwhile, when the fourth telescopic rod cuts the non-woven fabric and the conductive cloth, the non-woven fabric and the conductive cloth can be fixed through the plurality of fourth telescopic rods, the condition that the non-woven fabrics and the conductive fabrics can displace towards two sides after being cut by the first cutting knife is avoided, and the condition that the second cutting knife is inclined due to the fact that the non-woven fabrics and the conductive fabrics displace and the cutting is caused is further avoided.
The pressing device comprises two second connecting rods respectively arranged on the two conveying tracks, a second driving piece arranged on the two second connecting rods, a sixth telescopic rod arranged on the second driving piece, a connecting block arranged on the sixth telescopic rod, two seventh telescopic rods arranged on two sides of the connecting block, two limiting rods respectively arranged on the two seventh telescopic rods, a fourth elastic piece used for connecting the seventh telescopic rod and the connecting block, two limiting blocks respectively arranged on the two supporting blocks, and two limiting grooves respectively arranged on the two limiting blocks; the limiting rod and the limiting groove are arranged in a matched mode; through the arrangement of the limiting rod, after the non-woven fabric and the conductive fabric are cut, the supporting plate is moved to the position below the pressing device by the conveying track and is suspended, then the second driving piece is started to drive the sixth telescopic rod to extend, further the seventh telescopic rod is driven to move downwards by the connecting block, the limiting rod is buckled into the limiting groove in the downward movement process of the seventh telescopic rod, then the limiting block and the supporting block are driven to move downwards by the seventh telescopic rod and the limiting rod in the downward movement process of the connecting block, meanwhile, when the two supporting blocks move downwards and are opened towards two sides, the seventh telescopic rod can extend in the same step, the limiting rod can be always buckled into the limiting groove, the situation that the supporting block cannot continue to drive the supporting block to move downwards after the supporting block moves downwards and is opened towards two sides is avoided, and the stability when the supporting block is driven to move by the limiting rod is increased, meanwhile, the conductive cloth and the non-woven fabric after cutting are guaranteed to accurately move downwards from the positions of the two supporting blocks after being opened, and the conductive cloth and the non-woven fabric are attached to the PE film prepared below.
The pressing device also comprises two connecting plates arranged on two sides of the connecting block, two buckle assemblies respectively arranged on the two connecting plates, two fifth elastic pieces respectively arranged on the two connecting plates, and a fourth cutting knife arranged at the bottom of the connecting block; the buckle assembly comprises two clamping plates arranged on the connecting plate and two clamping grooves respectively arranged on the two clamping plates; the two buckle assemblies are identical in structure and symmetrically arranged, the clamping plates can rotate relative to the connecting plate, an electromagnet is arranged in any one of the two clamping plates, and an iron sheet is arranged on the other clamping plate of the two clamping plates; through the arrangement of the clamping plates, when the connecting block moves downwards and buckles the limiting rod into the limiting groove, the electromagnet in the clamping plates is started to enable the two clamping plates to attract each other, and the buttons on the non-woven fabric and the conductive cloth are fixed after the two clamping plates attract each other, so that the situation that the non-woven fabric and the conductive cloth fall downwards due to the fact that the bottom support is lost after the two supporting blocks are opened towards the two sides is avoided; through the arrangement of the electromagnets in the clamping plates, when the button is made of materials such as iron, cobalt and nickel which can be attracted by the magnets, the button can be fixed through the electromagnets, and when the button cannot be attracted by the magnets, the button can be attracted by the electromagnets through the iron sheet in the other clamping plate and fixed, so that the button can be fixed by the two clamping plates no matter what materials are made; through the arrangement of the clamping groove, when the button is fixed by the clamping plate, the button can be buckled in the clamping groove, the contact area between the clamping plate and the button is increased, and the stability of the clamping plate in fixing the button is improved; through the arrangement of the fifth elastic piece, when the connecting plate moves downwards, the upper surface of the button can contact the fifth elastic piece firstly, and the upper surface of the button is wrapped through the fifth elastic piece, so that the condition that the upper surface of the button is abraded by the connecting plate is avoided; through the setting of fourth cutting knife, when the pushing down device drives the non-woven fabrics and the electrically conductive cloth after the cutting is accomplished and pass the carriage and remove downwards, can cut the raw and other materials of middle part through the fourth cutting knife, avoided pushing down the device and the not circumstances of cutting department mutual interference of raw and other materials, and then avoided pushing down the device because blockked the unable condition that drives the non-woven fabrics and electrically conductive cloth downstream by raw and other materials.
In summary, the invention has the following advantages: the stability of the electrode slice during cutting is improved, and the cutting effect of the electrode slice is improved.
Drawings
FIG. 1 is a schematic structural diagram of the present invention.
Fig. 2 is a partial enlarged view of the invention at a in fig. 2.
Fig. 3 is a partial enlarged view of the invention at B in fig. 2.
Fig. 4 is a side view of the present invention.
FIG. 5 is a cross-sectional view taken along line A-A of FIG. 4 in accordance with the present invention.
Fig. 6 is a partial enlarged view of the invention at a in fig. 5.
Fig. 7 is a partial enlarged view of the invention at B in fig. 5.
FIG. 8 is a cross-sectional view taken along line B-B of FIG. 4 in accordance with the present invention.
Fig. 9 is a partial enlarged view of the invention at a in fig. 8.
Fig. 10 is a cross-sectional view taken along line C-C of fig. 4 in accordance with the present invention.
Fig. 11 is a partial enlarged view of the invention at a in fig. 10.
Detailed Description
In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.
As shown in fig. 1-11, a double row button type physiotherapy electrode piece forming machine comprises two conveying rails 1, two conveying blocks 2 respectively arranged on the two conveying rails, a supporting device 3 arranged on the two conveying blocks, a fixing device 4 arranged on the supporting device, a cutting device 5 arranged on the conveying rails, and a pressing device 6 arranged on the conveying rails; the conveying block can move relative to the conveying track, and the conveying track is an electric track.
The fixing device 4 comprises a plurality of fixing components arranged on the supporting device 3, and the fixing components comprise a fixing frame 41, a plurality of first ratchet teeth 42, a fixing rod 43, a fixing block 44, two second ratchet teeth 45, a first elastic piece 46 and a second elastic piece 47; the fixed frame is provided with a plurality of first ratchets 42, a fixed rod 43, a fixed block 44, two second ratchets 45, a first elastic piece 46 and a second elastic piece 47, wherein the fixed rod is arranged on the fixed frame, the fixed rod 43 is arranged on one side of the fixed frame, the fixed block is arranged on the fixed rod, the two second ratchets 45 are arranged on two sides of the fixed block, and the first elastic piece 46 is used for connecting; the first ratchet and the second ratchet can be meshed with each other, the fixed block can move relative to the fixed rod, the second ratchet can rotate relative to the fixed block, one end of the second elastic piece is connected to the fixed block, the other end of the second elastic piece is connected to the supporting device, and the plurality of fixing components are identical in structure and symmetrically arranged; the first elastic piece is a spring, and the second elastic piece is a spring.
The supporting device 3 comprises a supporting plate 31 and two supporting components; the support plate 31 is arranged on the two conveying blocks 2, and the two support components are arranged on the support plate; the supporting component comprises a supporting block 32, a plurality of cutting grooves 33, a moving track 34, a moving block 35, a first telescopic rod 36, a third elastic piece 37, a plurality of push rods 38 and an air pipe 39; the supporting block 32 is arranged on the supporting plate, and the plurality of cutting grooves 33 are arranged on the supporting block; the two support assemblies are identical in structure and symmetrically arranged, and the support blocks can move relative to the support plate; the moving track 34 is arranged on the supporting plate 31, the moving block 35 is used for connecting the moving track with the supporting block, the first telescopic rod 36 is used for connecting the moving block with the moving track, the third elastic piece 37 is used for connecting the first telescopic rod with the moving track, the plurality of ejector rods 38 are arranged on the supporting block, and the air pipe 39 is arranged on the moving block; the moving track is of an inclined structure, the moving block can move relative to the moving track, the air pipe is communicated with one end of the first telescopic rod, and the air pipe is communicated with the ejector rods; the third elastic member is a spring.
The cutting device 5 comprises two first connecting rods 51, two connecting frames 52, a plurality of first cutting assemblies and a plurality of second cutting assemblies; two first connecting rods 51 are arranged on the conveying track 1, two connecting frames 52 are respectively arranged on the two first connecting rods, and a plurality of first cutting assemblies are respectively arranged on the two connecting frames; the first cutting assembly comprises a plurality of second telescopic rods 53, a plurality of first cutting blades 54, a guide plate 55 and a guide rod 56; the plurality of second telescopic links 53 are provided on the connection frame, the plurality of first cutters 54 are provided on the plurality of second telescopic links, respectively, the guide plates 55 are provided on one sides of the plurality of first cutters, respectively, and the guide rods 56 are provided on the other sides of the plurality of first cutters, respectively; the plurality of first cutting assemblies are identical in structure and symmetrically arranged, the guide plates can drive adjacent first cutting knives to move, the guide rods penetrate through the guide plates, the guide plates can move relative to the guide rods, the first cutting knives and the cutting grooves are correspondingly arranged, and the second telescopic rods are air rods driven by an air pump; the plurality of second cutting assemblies are respectively arranged on the two connecting frames 52, and each second cutting assembly comprises an adjusting track 57, a first driving piece 58, a third telescopic rod 59, a second cutting knife 50, two fourth telescopic rods 501, two grooves 502, two fifth telescopic rods 503 and two third cutting knives 504; the adjusting track 57 is arranged on the connecting frame, the first driving piece 58 is arranged on the adjusting track, the third telescopic rod 59 is arranged on the first driving piece, the second cutting knife 50 is arranged on the third telescopic rod, the two fourth telescopic rods 501 are arranged on two sides of the second cutting knife, the two grooves 502 are arranged on two sides of the second cutting knife, the two fifth telescopic rods 503 are respectively arranged on the two grooves, and the two third cutting knives 504 are respectively arranged on the two fifth telescopic rods; the plurality of second cutting assemblies are identical in structure and symmetrically arranged, the first driving piece can move relative to the adjusting track, the second cutting knives and the cutting grooves are correspondingly arranged, the fourth telescopic rods and the fifth telescopic rods are connected through air pipes, and the third cutting knives can rotate relative to the grooves; the adjusting track is an electric track, the first driving piece is an air cylinder, the third telescopic rod is an air rod driven by the air cylinder, a spring is arranged in the fourth telescopic rod, and the fourth telescopic rod keeps an extending state through the spring.
The pressing device 6 comprises two second connecting rods 61, a second driving piece 62, a sixth telescopic rod 63, a connecting block 64, two seventh telescopic rods 65, two limiting rods 66, a fourth elastic piece 67, two limiting blocks 68, two limiting grooves 69, two connecting plates 60, two buckle assemblies, two fifth elastic pieces 601 and a fourth cutting knife 602; the two second connecting rods 61 are respectively arranged on the two conveying tracks 1, the second driving piece 62 is arranged on the two second connecting rods, the sixth telescopic rod 63 is arranged on the second driving piece, the connecting block 64 is arranged on the sixth telescopic rod, the two seventh telescopic rods 65 are arranged on two sides of the connecting block, the two limiting rods 66 are respectively arranged on the two seventh telescopic rods, the fourth elastic piece 67 is used for connecting the seventh telescopic rod with the connecting block, the two limiting blocks 68 are respectively arranged on the two supporting blocks, the two limiting grooves 69 are respectively arranged on the two limiting blocks, and the limiting rods can be buckled into the limiting grooves; the second driving piece is an air cylinder, the sixth telescopic rod is an air rod driven by the air cylinder, and the fourth elastic piece is a spring; the two connecting plates 60 are arranged on two sides of the connecting block 64, the two buckle assemblies are respectively arranged on the two connecting plates, the two fifth elastic members 601 are respectively arranged on the two connecting plates, and the fourth cutting knife 602 is arranged at the bottom of the connecting block; the buckle assembly comprises two clamping plates 603 arranged on the connecting plate and two clamping grooves 604 respectively arranged on the two clamping plates; the two buckle assemblies are identical in structure and symmetrically arranged, the clamping plates can rotate relative to the connecting plate, an electromagnet is arranged in any one of the two clamping plates, an iron sheet is arranged on the other clamping plate, and the fifth elastic piece is made of rubber.
The specific working principle is as follows: after the worker places the conductive cloth and the non-woven fabric, which have been subjected to the knotting operation, on the supporting device 3, the worker presses the plurality of fixing blocks 44 around to move the fixing blocks 44 downward and fix the conductive cloth and the non-woven fabric, and then the conductive cloth and the non-woven fabric are fixed on the supporting device 3 by the plurality of fixing blocks 44 through the mutual engagement between the first ratchet 42 and the second ratchet 45; when the fixing device 4 finishes fixing the non-woven fabrics and the conductive fabrics and drives the conveying block 2 and the supporting plate 31 to move below the cutting device 5 through the conveying track 1, the operation of the conveying track 1 is suspended, the supporting plate 31 is suspended below the cutting device 5, then the non-woven fabrics and the conductive fabrics are selected according to the cutting length, the designated second telescopic rod 53 is controlled by the system to extend to drive the first cutting knife 54 to move downwards, the guide plate 55 drives the adjacent first cutting knife 54 to move downwards, and when the non-woven fabrics and the conductive fabrics are cut by the first cutting knife 54, the cutting length of the non-woven fabrics and the conductive fabrics by the first cutting knife 54 can be adjusted by extending different second telescopic rods 53; after the first cutting knife 54 finishes cutting the non-woven fabric and the conductive fabric, the adjusting track 57 is started to drive the first driving part 58 to move to the positions of the two sides of the non-woven fabric and the conductive fabric after being cut by the first cutting knife 54, then the first driving part 58 is started to drive the third telescopic rod 59 to extend, and further the second cutting knife 50 is driven to move downwards and cut the non-woven fabric and the conductive fabric, meanwhile, when the second cutting knife 50 moves downwards, the fourth telescopic rod 501 can firstly contact the non-woven fabric and the conductive fabric and shrink in the process that the second cutting knife 50 moves downwards, and gas in the fourth telescopic rod 501 is squeezed into the fifth telescopic rod 503, so that the fifth telescopic rod 503 drives the third cutting knife 504 to turn outwards and is matched with the second cutting knife 50 to cut the non-woven fabric and the conductive fabric; after the non-woven fabric and the conductive fabric are cut, the conveying track 1 moves the supporting plate 31 to the position below the pressing device 6 and pauses, then the second driving piece 62 is started to drive the sixth telescopic rod 63 to extend, the seventh telescopic rod 65 is driven to move downwards through the connecting block 64, the limiting rod 66 is buckled into the limiting groove 69 in the downward movement process of the seventh telescopic rod 65, then the limiting block 68 and the supporting block 32 are driven to move downwards through the seventh telescopic rod 65 and the limiting rod 66 in the continuous downward movement process of the connecting block 64, and meanwhile, when the two supporting blocks 32 move downwards and are opened towards two sides, the seventh telescopic rod 65 can extend in the same step, so that the limiting rod 66 can be always buckled into the limiting groove 69; meanwhile, when the connecting block 64 moves downwards and buckles the limiting rod 66 into the limiting groove 69, the electromagnet in the clamping plates 603 is started to enable the two clamping plates 603 to attract each other, and the buttons on the non-woven fabric and the conductive fabric are fixed after the two clamping plates 603 attract each other; finally, the non-woven fabric and the conductive fabric are driven by the pressing device 6 to move downwards and be attached to the PE film prepared below, and the processing of the double-row button type motor piece is completed.
It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims (7)

1. A double-row button type physiotherapy electrode piece forming machine comprises two conveying rails (1), two conveying blocks (2) respectively arranged on the two conveying rails, a supporting device (3) arranged on the two conveying blocks, a fixing device (4) arranged on the supporting device, a cutting device (5) arranged on the conveying rails, and a pressing device (6) arranged on the conveying rails; the method is characterized in that: the fixing device (4) comprises a plurality of fixing components arranged on the supporting device (3), and each fixing component comprises a fixing frame (41), a plurality of first ratchets (42) arranged on the fixing frame, a fixing rod (43) arranged on one side of the fixing frame, a fixing block (44) arranged on the fixing rod, two second ratchets (45) arranged on two sides of the fixing block, a first elastic part (46) used for connecting the two second ratchets, and a second elastic part (47) sleeved on the fixing rod; the conveying block (2) can move relative to the conveying track (1), the first ratchet (42) and the second ratchet (45) are arranged in a matched mode, the fixing block (44) can move relative to the fixing rod (43), the second ratchet (45) can rotate relative to the fixing block (44), one end of the second elastic piece (47) is connected to the fixing block (44), the other end of the second elastic piece (47) is connected to the supporting device (3), and the fixing components are identical in structure and symmetrically arranged.
2. The double row button type physiotherapy electrode sheet forming machine according to claim 1, characterized in that: the supporting device (3) comprises a supporting plate (31) arranged on the two conveying blocks (2) and two supporting components arranged on the supporting plate; the supporting component comprises a supporting block (32) arranged on the supporting plate and a plurality of cutting grooves (33) arranged on the supporting block; the two supporting components are identical in structure and symmetrically arranged, and the supporting blocks (32) can move relative to the supporting plate (31).
3. The double-row button-type physiotherapy electrode sheet forming machine according to claim 2, characterized in that: the supporting assembly further comprises a moving track (34) arranged on the supporting plate (31), a moving block (35) used for connecting the moving track and the supporting block, a first telescopic rod (36) used for connecting the moving block and the moving track, a third elastic piece (37) used for connecting the first telescopic rod and the moving track, a plurality of ejector rods (38) arranged on the supporting block, and an air pipe (39) arranged on the moving block; the moving track (34) is of an inclined structure, the moving block (35) can move relative to the moving track (34), the air pipe (39) and the first telescopic rod (36) are arranged in a matched mode, and the air pipe (39) and the ejector rod (38) are arranged in a matched mode.
4. The double-row button-type physiotherapy electrode sheet forming machine according to claim 2, characterized in that: the cutting device (5) comprises two first connecting rods (51) arranged on the conveying track (1), two connecting frames (52) respectively arranged on the two first connecting rods, and a plurality of first cutting assemblies respectively arranged on the two connecting frames; the first cutting assembly comprises a plurality of second telescopic rods (53) arranged on the connecting frame, a plurality of first cutting knives (54) respectively arranged on the plurality of second telescopic rods, guide plates (55) respectively arranged on one sides of the plurality of first cutting knives, and guide rods (56) respectively arranged on the other sides of the plurality of first cutting knives; a plurality of first cutting subassembly structures are the same and are the symmetry and set up, guide board (55) with first cutting knife (54) are the cooperation and set up, guide pole (56) wear to locate on guide board (55), guide board (55) can for the guide pole removes, first cutting knife (54) with cut groove (33) and be corresponding the setting.
5. The double-row button-type physiotherapy electrode sheet forming machine according to claim 4, characterized in that: the cutting device (5) further comprises a plurality of second cutting assemblies respectively arranged on the two connecting frames (52); the second cutting assembly comprises an adjusting track (57) arranged on the connecting frame, a first driving piece (58) arranged on the adjusting track, a third telescopic rod (59) arranged on the first driving piece, a second cutting knife (50) arranged on the third telescopic rod, two fourth telescopic rods (501) arranged on two sides of the second cutting knife, two grooves (502) arranged on two sides of the second cutting knife, two fifth telescopic rods (503) respectively arranged on the two grooves, and two third cutting knives (504) respectively arranged on the two fifth telescopic rods; the plurality of second cutting assemblies are identical in structure and symmetrically arranged, the first driving piece (58) can move relative to the adjusting track (57), the second cutting knife (50) and the cutting groove (33) are correspondingly arranged, the fourth telescopic rod (501) and the fifth telescopic rod (503) are arranged in a matched mode, and the third cutting knife (504) can rotate relative to the groove (502).
6. The double-row button-type physiotherapy electrode sheet forming machine according to claim 2, characterized in that: the pressing device (6) comprises two second connecting rods (61) respectively arranged on the two conveying tracks (1), a second driving piece (62) arranged on the two second connecting rods, a sixth telescopic rod (63) arranged on the second driving piece, a connecting block (64) arranged on the sixth telescopic rod, two seventh telescopic rods (65) arranged on two sides of the connecting block, two limiting rods (66) respectively arranged on the two seventh telescopic rods, a fourth elastic piece (67) used for connecting the seventh telescopic rod and the connecting block, two limiting blocks (68) respectively arranged on the two supporting blocks, and two limiting grooves (69) respectively arranged on the two limiting blocks; the limiting rod (66) and the limiting groove (69) are arranged in a matched mode.
7. The double row button type physiotherapy electrode sheet forming machine according to claim 6, characterized in that: the pressing device (6) further comprises two connecting plates (60) arranged on two sides of the connecting block (64), two buckle assemblies respectively arranged on the two connecting plates, two fifth elastic pieces (601) respectively arranged on the two connecting plates, and a fourth cutting knife (602) arranged at the bottom of the connecting block; the buckle assembly comprises two clamping plates (603) arranged on the connecting plate and two clamping grooves (604) respectively arranged on the two clamping plates; the two clamping buckle assemblies are identical in structure and symmetrically arranged, the clamping plates (603) can rotate relative to the connecting plate (60), an electromagnet is arranged in any one clamping plate (603) of the two clamping plates (603), and an iron sheet is arranged on the other clamping plate (603) of the two clamping plates (603).
CN202010366598.1A 2020-04-30 2020-04-30 Double-row button type physiotherapy electrode piece forming machine Active CN111514453B (en)

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