CN116727897B - Battery pole piece cutting machine - Google Patents

Abstract

The invention is applicable to the technical field of battery pole piece manufacturing, and provides a battery pole piece cutting machine which comprises a mounting frame, a feeding system, a pressing system, a cutting system, a positioning system, a cleaning system and a control system; the feeding system is used for placing products, and the compacting system is used for positioning and compacting the products; the cutting system comprises a laser cutting device, and the cleaning system is used for cleaning dust on the surface of a product; the control system is used for controlling and monitoring actions of the feeding system, the pressing system, the positioning system and the cleaning system. The invention sets the tension control device in the feeding system to control the stability of the product in the moving process, and sets the compacting system to position and fix the product by using the upper steel belt and the lower steel belt so that the cutting position of the product is accurate when the laser cutting device cuts the product, thereby solving the problems of inaccurate size, low production efficiency, low product quality and the like in the cutting process.

Description

Battery pole piece cutting machine

Technical Field

The invention belongs to the technical field of button cell cutting and manufacturing, and particularly relates to a battery pole piece cutting machine.

Background

The application field of button cells is mainly focused on small portable electronic products, medical devices, communication devices, and the like. The button cell has wide application in the fields of small portable electronic products, medical equipment, communication equipment and the like due to the characteristics of portability, high flexibility, convenient use and the like.

The cutting technology of the button cell pole piece is an important process link in the production process of the button cell. The cutting accuracy and quality of the pole pieces directly affect the performance and service life of the button cell. The cutting technology of the button cell pole piece has direct influence on the quality of the button cell. The pole piece of the button cell mainly has two cutting modes: mechanical cutting and laser cutting. In actual production, the manufacturer will choose the appropriate cutting method according to the needs.

In the prior art, the manufacturing process of the small button cell pole piece is difficult, and because the width of the cell pole piece is small, in the whole production process of the cell pole piece, most production modes are the slitting cutting of the pole piece through a slitting machine, and the general pole piece is uneven, so that the problem of inaccurate cutting dimension and the like can be generated when the pole piece enters the slitting machine for cutting, and the production efficiency and quality of the cell pole piece are affected.

Disclosure of Invention

The embodiment of the invention aims to provide a battery pole piece cutting machine, which aims to solve the problems that in the prior art, the manufacturing process of a small button battery pole piece is difficult, and the battery pole piece is small in width, and in the whole production process of the battery pole piece, most production modes are that the pole piece is cut in a slitting way through a slitting machine, the general pole piece is uneven, the cutting dimension is inaccurate and the like when entering the slitting machine for cutting, and the production efficiency and quality of the battery pole piece are affected.

The embodiment of the invention is realized in such a way that a battery pole piece cutting machine comprises: the device comprises a mounting frame, a feeding system, a compacting system, a cutting system, a positioning system, a cleaning system and a control system;

the feeding system is arranged on the mounting frame and positioned at the bottom layer of the whole battery pole piece cutting machine and is used for placing products, and the feeding system comprises a tension control device which is used for controlling and maintaining tension stability of the products;

the compression system is fixed on the mounting frame and is positioned right above the feeding system, the compression system is provided with an upper steel belt and a lower steel belt to position and fix the product, and the compression system is used for positioning and compressing the product;

The positioning system is fixed on the mounting frame and is positioned at one side of the compacting system, the positioning system comprises a positioning device and a detection device, the positioning device is used for correcting the position of a product so that the product is not easy to deviate when in tape running, and the detection device is used for detecting whether the product is accurately positioned at the detection position;

the cutting system is fixed on the mounting frame and is positioned right above the compacting system, and comprises a laser cutting device which is used for cutting the positioned product;

the cleaning system is arranged on the mounting frame and positioned on the top layer of the whole battery pole piece cutting machine and is used for cleaning dust on the surface of a product;

the control system is used for controlling and monitoring actions of the feeding system, the pressing system, the positioning system, the cutting system and the cleaning system.

The invention is provided with a tension control device in a feeding system, controls and maintains the stability of the product in the movement process, a compacting system is arranged for positioning and fixing the product by using upper and lower steel belts so as to ensure that the cutting position of the product is accurate when the laser cutting device cuts the product, a positioning system is arranged for guiding and determining the movement direction of the cut product and detecting the position of the product, a cleaning system is arranged for removing impurities attached to the product after cutting, and the problems of inaccurate size, low production efficiency, low product quality and the like in the cutting process are solved.

Drawings

Fig. 1 is a perspective structure diagram of a battery pole piece cutting machine provided by an embodiment of the invention;

fig. 2 is a schematic structural diagram of a feeding system in a battery pole piece cutting machine according to an embodiment of the present invention;

fig. 3 is a schematic structural diagram of a pressing system in a battery pole piece cutting machine according to an embodiment of the present invention;

fig. 4 is a schematic structural diagram of a positioning system in a battery pole piece cutting machine according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a cutting system in a battery pole piece cutting machine according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of a cleaning system in a battery pole piece cutting machine according to an embodiment of the present invention.

In the accompanying drawings: 1. a mounting frame; 2. a feeding system; 21. a tension control device; 22. a detection assembly; 23. a discharging device; 3. a cleaning system; 31. unreeling the assembly; 32. a winding assembly; 33. a guide assembly; 34. a third drive assembly; 4. a compacting system; 41. a second drive assembly; 42. a compression assembly; 43. an adsorption assembly; 5. a cutting system; 51. a laser cutting device; 52. a second visual positioning assembly; 6. a positioning system; 61. a positioning device; 611. a second moving assembly; 612. a positioning roller set; 62. a detection device; 621. a first visual positioning assembly; 7. and a control system.

Description of the embodiments

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

Specific implementations of the invention are described in detail below in connection with specific embodiments.

As shown in fig. 1, a block diagram of a battery pole piece cutting machine according to an embodiment of the present invention includes: the device comprises a mounting frame 1, a feeding system 2, a compacting system 4, a cutting system 5, a positioning system 6, a cleaning system 3 and a control system 7;

the feeding system 2 is arranged on the mounting frame 1 and positioned at the bottom layer of the whole battery pole piece cutting machine, the feeding system 2 is used for placing products, the feeding system 2 comprises a tension control device 21, and the tension control device 21 is used for controlling and maintaining the tension stability of the products;

the compressing system 4 is fixed on the mounting frame 1 and is positioned right above the feeding system 2, the compressing system 4 is provided with an upper steel belt and a lower steel belt to position and fix the product, and the compressing system 4 is used for positioning and compressing the product;

The positioning system 6 is fixed on the mounting frame 1 and is positioned at one side of the compacting system 4, the positioning system 6 comprises a positioning device 61 and a detection device 62, the positioning device 61 is used for correcting the position of a product so as to ensure that the product is not easy to deviate when the product is in a tape running state, and the detection device 62 is used for detecting whether the product is accurately positioned at the detection position;

the cutting system 5 is fixed on the mounting frame 1 and is positioned right above the compacting system 4, the cutting system 5 comprises a laser cutting device 51, and the laser cutting device 51 is used for cutting a product positioned in place;

the cleaning system 3 is arranged on the mounting frame 1 and positioned on the top layer of the whole battery pole piece cutting machine, and the cleaning system 3 is used for cleaning dust on the surface of a product;

the control system 7 is used for controlling and monitoring actions of the feeding system 2, the compacting system 4, the positioning system 6, the cutting system 5 and the cleaning system 3.

In the embodiment of the invention, the battery pole piece cutting machine mainly comprises a mounting frame 1, a feeding system 2, a compressing system 4, a cutting system 5, a positioning system 6, a cleaning system 3 and a control system 7, preferably, the mounting frame 1 can be a vertical mounting cabinet, the feeding system 2 is arranged at the lower left part of the mounting frame 1 so as to be convenient for placing products, the compressing system 4 can be arranged right above the feeding system 2 and positioned at the middle layer of the mounting frame 1, the positioning system 6 can be arranged at one side of the compressing system 4 and positioned at the middle layer of the mounting frame 1, the cutting system 5 can be fixed at the upper left layer of the mounting frame 1 and positioned right above the compressing system 4, and the cleaning system 3 can be arranged at the upper right part of the mounting frame 1 or positioned at the middle position of the lower layer of the mounting frame 1.

Preferably, in the working process of the whole battery pole piece cutting machine, a product is placed on the feeding system 2 in a material roll mode, one end of the product is positioned and fixed between an upper steel belt and a lower steel belt in the pressing system 4 by winding upwards, at the moment, the positioning device 61 of the positioning system 6 corrects the position of the product, the detecting device 62 is arranged to detect whether the product is accurately positioned at the detecting position, the pressing system 4 is matched to enable the product to be positioned at an accurate processing position, when a product setting program command is to cut the product, the control system 7 gives an action command to enable the laser cutting device 51 in the cutting system 5 to cut the product, and the laser cutting device 51 is matched with the detecting device 62 to realize unlimited range of cut products, the dimensional accuracy of the cut product can be ensured according to the command of the control system 7 and the matching of the detecting device 62 and the laser cutting device 51, impurities on the product and residual scraps on the cut product are removed by the cleaning system 3, and the processed product is collected; when the program of the product has no cutting command, after the product is positioned by the pressing system 4, the product is detected by the detecting device 62 in the dimensional accuracy when the product reaches the positioning device 61 in the positioning system 6, and after the detected product is cleaned of impurities by the cleaning system 3, a receiving system with the same structure as the feeding system 2 is arranged on the mounting frame 1 and used for collecting the detected product.

In one example of the invention, the feed system 2 may preferably have a tension control device 21, the tension control device 21 maintaining tension stability of the product across the battery pole piece cutter when the product is disposed on the feed system 2.

In one example of the invention, the hold down system 4 may preferably place the upper and lower belts in contact with the product and thereby position the product completely.

In one embodiment of the present invention, the positioning system 6 is preferably mainly composed of a positioning device 61 and a detecting device 62, wherein the positioning device 61 relocates the product positioned by the upper and lower steel belts, and the detecting device 62 detects whether the product is accurately positioned at the detecting position.

As shown in the figure2As shown, the feeding system 2 further comprises a discharging device 23 and a detecting assembly 22 as a preferred embodiment of the present invention;

the discharging device 23 comprises a storage rack and a first driving component, wherein the storage rack is used for placing products and guiding the movement of the products, the storage rack is fixed on the mounting rack 1, the tail end of the storage rack is in transmission connection with an output shaft of the first driving component, the first driving component is fixed on the mounting rack 1, and the first driving component is used for providing power for rotation of the storage rack;

The detecting assembly 22 comprises a first speed sensor and a first sensor bracket, the first sensor bracket is fixed on the mounting frame 1, the first speed sensor is installed on the first sensor bracket, the first sensor bracket is used for fixing the first speed sensor and adjusting the position of the first speed sensor, and the first speed sensor is used for detecting the movement speed of a product and transmitting the detection result to the control system 7;

the tension control device 21 comprises a first supporting roller, a first pushing block and a first air cylinder, wherein the first supporting roller is used for supporting and guiding products, the first pushing block is installed at the output end of the first air cylinder and used for controlling the movement speed of the products, the first air cylinder is used for providing power for the movement of the first pushing block, the first air cylinder drives the first pushing block to move, moves to one side of the first supporting roller and contacts with the products on the first supporting roller, and the movement speed of the products is controlled by adjusting the position of the first pushing block.

In the embodiment of the present invention, the feeding system 2 may further have a discharging device 23 and a detecting assembly 22, preferably, the detecting assembly 22 is installed above the discharging device 23, and the tension control device 21 is fixed above the detecting assembly 22.

Preferably, the discharging device 23 mainly comprises a storage rack and a first driving component, the storage rack can be an L-shaped rack, the L-shaped rack comprises a supporting part and a connecting part, a cylinder rack and a through hole are arranged at the tail end of the connecting part, the through hole is used for the tail end of an output shaft of the first driving component to pass through and be fixed by the cylinder rack, a guide rod with a certain length is arranged at the intersection position of the connecting part and the supporting part, the guide rod is also arranged at the tail end of the supporting part, and a product is placed on the cylinder rack through the guide rod, and the tail end of the product passes through the guide rod and extends to other systems; preferably, the first driving assembly can be composed of a first motor, a reduction gear set and a first transmission rod, wherein the output end of the first motor is in transmission connection with the reduction gear set, one end of the first transmission rod is fixed at the output end of the reduction gear set, and the other end of the first transmission rod penetrates through a through hole of the L-shaped frame and is fixedly connected with the cylindrical frame.

Preferably, the detecting assembly 22 may be composed of a first speed sensor and a first sensor bracket, the first speed sensor may be fixed on the mounting frame 1 and located under the first guide rod at the end of the support part of the L-shaped frame, and the first speed sensor may be of a correlation type and installed at both sides of the product; preferably, the first sensor support can be fixed on the mounting frame 1 at the tail end by using a bolt sleeve, a moving block can be arranged on the first sensor support, a first supporting plate is arranged on the moving block and used for installing the first speed sensor, a U-shaped notch is arranged on the first supporting plate, a product just passes through the U-shaped notch, and the first moving assembly can guide the first speed sensor to move to a set position according to actual conditions so as to ensure that the product is detected.

Preferably, the tension control device 21 may be composed of a first supporting roller, a first pushing block and a first air cylinder, wherein the first supporting roller is installed above the detecting assembly 22, the first pushing block and the first air cylinder are installed on the right side of the supporting roller, and the first air cylinder controls the first pushing block to be close to or contacted with the product so as to control the stability of the product in motion.

As shown in the figure3As another preferred embodiment of the present invention, the compressing system 4 includes a second driving assembly 41, a compressing assembly 42, and an adsorbing assembly 43;

the second driving component 41 is fixed on the mounting frame 1, and the second driving component 41 is used for providing power for the movement of the pressing component 42;

the compacting assembly 42 comprises an upper steel belt, a lower steel belt, a bracket, a tightening assembly and a first moving assembly, wherein the bracket is fixed on the positioning device 61 and comprises a first mounting plate and a second mounting plate, the first mounting plate is used for fixing the tightening assembly, the first moving assembly and the adsorption assembly 43, the second mounting plate is used for mounting the tightening assembly, the tightening assembly is used for placing products and adjusting the tightness degree of the upper steel belt and the lower steel belt, the first moving assembly comprises a first guide rail and a first sliding block, and the first moving assembly is used for guiding and supporting the bracket;

The adsorption component 43 is installed on the compaction component 42, the adsorption component 43 is used for adsorbing impurities generated by product cutting, the adsorption component 43 comprises an upper dust collection box and a lower dust collection box, the upper dust collection box is arranged above an upper steel belt, and the lower dust collection box is arranged below a lower steel belt.

In the embodiment of the present invention, the compacting system 4 mainly comprises a second driving component 41, a compacting component 42 and an adsorbing component 43, preferably, the product is placed between the upper steel belt and the lower steel belt of the compacting component 42, the upper steel belt and the lower steel belt are used for positioning the product, at this time, the second driving component 41 is provided with a deviation rectifying component, the compacting component 42 is fixed on the second driving component 41, the compacting component 42 can be used for positioning the product, when the upper steel belt and the lower steel belt mounted on the compacting component 42 need to loosen the positioning in the vertical direction of the product, the second driving component 41 provides the power for the vertical movement of the upper steel belt of the compacting component 42, when the upper steel belt and the lower steel belt of the compacting component 42 need to adjust the positioning position in the horizontal direction, the deviation rectifying component provides the power for the compacting component 42, after the product is completely positioned, the adsorbing component 43 mounted on the upper steel belt and the lower steel belt is used for ensuring the qualification rate of the product surface after the impurity adsorption on the product surface, when the cutting of the next process is completed, when the product is subjected to the next process, the detecting device 62 is used for detecting the position of the product and outputting the detected position of the product and outputting the qualified result after the next process, and the qualified result is positioned on the next process step, and the qualified product is output.

In the embodiment of the present invention, the second driving component 41 may be composed of a deviation rectifying component and a first power component, where the deviation rectifying component may be provided with a mounting bracket, and the deviation rectifying component is used for mounting the power component when viewed from the overall structure of the compression system 4, and the first power component may be provided with a fixing seat, and the first power component is located right above the mounting bracket of the deviation rectifying component when viewed from the overall structure of the compression system 4.

Preferably, the deviation rectifying assembly can be further provided with a second motor, a first screw rod and a protruding block, the second motor and the first screw rod can be preferably fixed on the mounting bracket, the protruding block is fixed on the first screw rod, the second motor provides power for the movement of the first screw rod, and the first screw rod drives the protruding block to do linear movement in the horizontal direction. Preferably, the second motor can be provided with a fixed plate, a plurality of mounting holes are formed in the fixed plate, the usable bolts and the threaded sleeves penetrate through the mounting holes of the fixed plate and fix the second motor on the mounting bracket, and the tail end of an output shaft of the second motor can be in transmission connection with one end of the first screw rod through a coupler. Preferably, the first screw rod can be arranged on the nut sleeve and the supporting seat, the nut sleeve is arranged on the first screw rod and used for guiding the first screw rod to move in the horizontal direction, the supporting seat can be fixed at the other end of the first screw rod and penetrates through the bottom of the mounting bracket by using a screw, the protruding block can be arranged on the nut sleeve of the first screw rod, at the moment, the first screw rod is driven by the second motor to convert rotary motion into linear motion, and the protruding block on the nut sleeve is driven to do linear motion in the horizontal direction. The lug can be a T-shaped plate with a certain thickness, the lug consists of a narrow plate and a wide plate, a mounting hole can be formed in the wide plate and used for being fixed on the nut sleeve, a fixing hole can be formed in the narrow plate, and the lug can be fixed on a fixing seat of the power assembly by using a screw to penetrate through the fixing hole. Preferably, the mounting bracket may be composed of a top plate, a front baffle, a left baffle and a right baffle, a rectangular through hole with a certain length may be provided on the top plate of the mounting bracket, the width of the through hole may be not smaller than the width of the bump narrow plate, two groups of rectangular grooves may be provided on the top plate and used for fixing the power assembly, a mounting hole may be provided on the front baffle for mounting a supporting seat on the first screw rod, and a mounting hole may be provided at one end of the top plate on the relative position of the front baffle for fixing the second motor.

Preferably, the first power assembly may further comprise a third motor, a second cylinder and a fourth moving assembly, preferably, the fixing base may comprise a bottom plate, a first side plate and a second side plate, the bottom plate may be provided with a plurality of mounting holes, the first side plate may be fixed on the bottom plate by using screws to pass through the mounting holes, the mounting position of the first side plate may be close to the third motor, the second side plate may be fixed on the bottom plate by using screws to pass through the mounting holes to see the second side plate, and the mounting position of the second side plate may be close to the pressing assembly 42. Preferably, the third motor can be provided with a fixed plate, a plurality of mounting holes can be formed in the fixed plate, the third motor can be fixed on the first side plate through the mounting holes by utilizing screws, and the tail end of an output shaft of the third motor can be provided with belt transmission and connected with the fourth moving assembly. Preferably, the second cylinder may have a through hole at a corner, and the entire second cylinder may be fixed to the bottom plate using a bolt and a screw sleeve, one end of the output shaft of the second cylinder may be provided with a fixing plate having a certain shape, both ends of the fixing plate may be provided with mounting holes, one end of the fixing plate may be fixed to the fourth moving assembly using a screw through the mounting holes, and the other end may be fixed to the pressing assembly 42 in the same manner.

In the embodiment of the present invention, preferably, the pressing assembly 42 may be configured by a mounting plate, a tightening assembly and a fifth moving assembly, the mounting plate may be configured by a first mounting plate and a second mounting plate, one side of the first mounting plate is mounted on the second side plate of the fixing base, the other side of the first mounting plate may be configured by a rectangular groove for mounting the fifth moving assembly, the first mounting plate may be configured with a mounting position for fixing the adsorbing assembly 43, the first mounting plate may be configured by a rectangular plate extending from both sides thereof, the rectangular plate may be configured for mounting the tightening assembly, the shape feature of the second mounting plate may be configured similar to that of the first mounting plate, and the rectangular plate may be configured for mounting the tightening assembly, the back surface of the second mounting plate may be configured and fixed on the fifth moving assembly, and a through hole having a coincident position and a uniform size may be configured on the first mounting plate and the second mounting plate for fixing the power assembly.

Preferably, the fifth moving assembly may be provided with a second guide rail and a second slider, the second guide rail may be provided with a rectangular groove for fixing it on the first mounting plate, the second slider may be provided with a screw for fixing it on the second mounting plate, and the second guide rail and the second slider are provided in a sliding connection.

In the embodiment of the present invention, preferably, the adsorption assembly 43 may be provided with an upper dust collection box and a lower dust collection box, the upper dust collection box is mainly composed of an upper casing, a light source, an upper air knife, an upper dust collection pipe and an air curtain, preferably, the upper casing may be a rectangular casing and has a hollow interior, and a rectangular through hole may be formed in the center of the upper top surface of the upper casing and be a light transmission opening; the lower dust collection box can be composed of a lower shell, a bottom box, a lower air knife and a lower dust collection pipe, preferably, the lower shell can be a rectangular shell, is hollow and is consistent with the length of the upper shell, the top of the lower shell can be connected with the bottom of the upper shell, and mounting rails are arranged on planes of edges of two sides in the length direction of the top of the lower shell.

As shown in the figure4As shown, the positioning device 61 comprises a positioning roller set 612 and a second moving assembly 611, wherein the positioning roller set 612 is used for supporting and guiding the product, and the second moving assembly 611 is used for adjusting and guiding the movement of the positioning roller set 612 so as to prevent the product from being deviated when the product is rewound.

In the embodiment of the present invention, the positioning device 61 may be provided to be composed of the positioning roller set 612 and the second moving assembly 611, and preferably, the positioning device 61 may detect the position, width and thickness of the product, and may contact the lower surface of the product with the outer wall surface of the positioning roller set 612 when detecting the width and position of the product and contact the side surface of the product with the outer wall surface of the positioning roller set 612 when detecting the thickness of the product, depending on the state in which the product is placed on the positioning roller set 612.

In an embodiment of the present invention, the positioning roller set 612 may preferably have a support assembly, a positioning support roller, and a positioning sensor; the support assembly may be composed of a first set of guide support rollers, a second set of guide support rollers, a first support plate and a second support plate, preferably, the first set of guide support rollers and the second set of guide support rollers may be bars having a certain length, the ends of the first set of guide support rollers may be fixed on the first support plate by means of welding, the first set of guide support rollers may have annular grooves provided on the outer wall thereof according to the size of the battery pole piece, the first support plate may be a rectangular plate having a certain thickness, and the first support plate may have circular through holes and be fixed on the second moving assembly 611 by means of screws. Preferably, the second set of guiding and supporting rollers may be identical to the first set of guiding and supporting rollers in shape and size, the ends of the second set of guiding and supporting rollers may be fixed on the second supporting plate by means of welding, the second supporting plate may be a supporting frame with a certain height, the supporting frame may have two layers of installation positions, a short plate is arranged at the top of the supporting frame for fixing the second set of guiding and supporting rollers, and two ends of the bottom of the supporting frame may be provided with circular through holes and fixed on the second moving assembly 611.

Preferably, the positioning support roller and the positioning sensor may be fixed to the mounting frame 1 and arranged on the same horizontal plane above the support assembly for guiding the movement of the product to the detecting means 62.

In an embodiment of the present invention, preferably, the second moving assembly 611 is mounted on the support assembly, and the second moving assembly 611 is used to guide the movement of the support assembly.

As shown in the figure4As shown, as a preferred embodiment of the present invention, the detecting device 62 includes a first visual positioning assembly 621, the first visual positioning assembly 621 is fixed on the positioning device 61, and the first visual positioning assembly 621 is used for capturing an image of a product and transmitting the capturing result to the control system 7.

In the embodiment of the present invention, the detecting device 62 is mainly composed of a first visual positioning component 621, and preferably, the first visual positioning component 621 includes a first camera, a camera stand, and a sixth moving component; preferably, the camera support may be an L-shaped plate having a certain thickness, the L-shaped plate may be formed of a short plate and a long plate, the long plate may have a plurality of fixing holes at its ends for mounting the first camera, and the short plate may have mounting holes at its corners for fixing the sixth moving member, and the entire camera support is for connecting the first camera and the sixth moving member.

Preferably, the sixth moving assembly mainly comprises an X-axis moving group, a Y-axis moving group and a Z-axis moving group, preferably, the X-axis moving group comprises an X-slider and an X-push rod, the X-slider may be a rectangular plate with a certain thickness, a bump may extend from one side of the rectangular plate, a plurality of circular through holes may be formed in the rectangular plate, a screw may be used to pass through the camera support on the second moving assembly 611 and the rectangular plate to fix the camera support in place, the X-push rod may be provided with a fixing plate, the fixing plate may be fixed at the bottom of the X-slider by using a screw, the X-push rod is mounted on the fixing plate, and when the head of the X-push rod is rotated, the tail of the X-push rod protrudes and contacts with the bump on the X-slider to push the X-slider and the first camera mounted on the camera support to move in the X-axis direction.

Preferably, the Y-axis moving group is composed of a bottom plate, a Y slider and a Y push rod, the bottom plate may be composed of a middle plate and two L-shaped plates at two sides, one end of the middle plate may be provided with two rectangular through holes, the Y slider may be installed on the middle plate by using a screw rod and a base, the L-shaped plates at two sides are fixed on the Z push rod of the Z-axis moving group, the explanation of the Y slider and the Y push rod in the Y-axis moving group is made with reference to the explanation of the X slider and the X push rod in the X-axis moving group, and the embodiment of the invention is not repeated.

Preferably, the Z-axis moving group can be composed of a Z-axis sliding support, a Z slider, a guide rail and a Z push rod, the Z-axis sliding support can be a U-shaped support, the U-shaped support is composed of a bottom plate and two side wing plates, the first installation position is located on the bottom plate and can fix the guide rail on the bottom plate by using a bolt sleeve, the second installation position is located on the two side wing plates, two ends of the Z push rod are respectively fixed on the two side wing plates of the Z-axis sliding support, a lug can be arranged on a middle point of a straight line where the length direction of the Z push rod is located, one side of the lug is used for fixing the Z slider, the other side of the lug can be used for fixing the bottom plate on the Y-axis moving group, and when a rotary button at the tail of the Z push rod is rotated, a part fixed on the Z push rod moves in the Z-axis direction, so that the first camera moves in the Z-axis direction.

As shown in the figure5As shown, the cutting system 5 further comprises a second visual positioning assembly 52 as a preferred embodiment of the present invention;

the second visual positioning component 52 is fixed right above the compacting system 4, and the second visual positioning component 52 is used for detecting the position of a product in the compacting system 4 between an upper steel belt and a lower steel belt;

the laser cutting device 51 includes a third moving assembly and a cutting assembly, the cutting assembly is mounted on the third moving assembly and located right above the pressing system 4, and the third moving assembly is used for supporting the cutting assembly and adjusting the position of the cutting assembly.

In the embodiment of the present invention, the cutting system 5 mainly comprises a second visual positioning assembly 52 and a laser cutting device 51, and preferably, the second visual positioning assembly 52 comprises a fixed frame, a seventh moving assembly and a camera assembly.

Preferably, the fixing frame mainly comprises a first fixing plate and a second fixing plate, the first fixing plate can be provided with a U-shaped plate with a certain thickness and comprises an upper wing plate, a lower wing plate and a middle plate, a rectangular groove can be formed in the middle plate, the length direction of the rectangular groove is consistent with the length direction of the middle plate, the groove is used for installing a fifth guide rail, and a circular through hole can be formed in the upper wing plate and the lower wing plate and used for installing an adjusting rod. Preferably, the second fixing plate may be provided with an L-shaped plate having a certain thickness and is composed of a long plate and a short plate group layer, the bottom of the short plate may be provided with a rectangular groove and a baffle for fixing the adjusting rod, and the end of the long plate may be provided with a plurality of mounting positions for fixing the second camera in the camera assembly.

Preferably, the seventh moving assembly mainly comprises a third guide rail, a third sliding block and an adjusting rod, and preferably, the third guide rail can be fixed on the middle plate of the first fixing plate by using a screw, and the bottom surface of the third sliding block can be fixedly arranged on the baffle plate of the second fixing plate and fixedly connected with the adjusting rod.

Preferably, the camera assembly mainly comprises a second camera and a light plate, the second camera can be fixed on a long plate of the second fixing plate by using a bolt and thread sleeve, the light plate can be set to be a triangular plate with a certain thickness, a top angle on the light plate can be provided with a cylindrical block to be fixed on one side of a lens of the second camera, and a bottom angle on the light plate can be arranged above a light transmitting opening of the upper dust collection box.

In one example of the present invention, preferably, the laser cutting device 51 is mainly composed of a laser emitter and an emitter holder, the emitter holder is fixed on the mounting frame 1, the laser emitter is mounted on the emitter holder, the output end of the laser emitter is located right above the compacting system 4, when the product is cut, since the product is positioned by the upper and lower steel belts, one end of the cut product is separated from the compacting system 4, and the other end is still located in the compacting system 4, so that the next cutting action can be continued, and the whole process is continuous.

As shown in the figure6As shown, the cleaning system 3 comprises a third drive assembly 34, an unreeling assembly 31, a reeling assembly 32 and a guiding assembly 33 as a preferred embodiment of the present invention;

the unreeling assembly 31 is used for placing an unused cleaning tape for wiping impurities on the surface of the product;

The winding assembly 32 is used for collecting used cleaning belts, and the winding assembly 32 is provided with an adjusting rod which is used for providing power for the movement of the cleaning belts;

the third driving assembly 34 is used for providing power for the movement of the cleaning belt, and the third driving assembly 34 is fixed on the mounting frame 1 and is positioned between the winding assembly 32 and the unwinding assembly 31;

the guide assembly 33 serves to guide the movement of the product and support the cleaning belt.

In the embodiment of the present invention, the cleaning system 3 mainly comprises a third driving component 34, an unreeling component 31, a reeling component 32 and a guiding component 33, preferably, the unreeling component 31 is used for storing unused dedusting belts, a first unreeling reel and a second unreeling reel are arranged above and below a product, the first unreeling reel is used for placing an upper dedusting belt, the second unreeling reel is used for placing a lower dedusting belt, the upper dedusting belt and the lower dedusting belt respectively remove impurities on the upper surface and the lower surface of the product, at the moment, the moving direction and the moving speed of the upper dedusting belt are consistent with those of the lower dedusting belt, a dedusting belt port starts from the unreeling reel, the guiding component 33 is bypassed, the third driving component 34 is used for controlling the moving direction and the speed of the dedusting belt, and finally, the port of the dedusting belt is fixed on the reeling component 32, and the reeling component 32 is used for collecting the dedusting belts, wherein the dedusting effect is optimal when the moving direction of the dedusting belt is opposite to the moving direction of the product. Preferably, the third drive assembly 34 and the guide assembly 33 may be connected and located at the same level as the unwind reel and the take-up assembly 32 and used to drive and guide the movement of the upper dust removing tape.

In the embodiment of the invention, the unreeling structure mainly comprises a charging barrel support, a rotating shaft and a discharging reel, preferably, the first discharging reel and the second discharging reel in the discharging reel are identical in structure, an upper dust removing belt and a lower dust removing belt are respectively stored, the first charging barrel support and the second charging barrel support in the charging barrel support are identical in structure, and the first rotating shaft in the rotating shaft is identical in structure to the second rotating shaft.

Preferably, the first dust removing band on the first discharging drum is fixed on the first discharging drum in a welding mode, one end of the first rotating shaft can fix the first discharging drum in place by using a fixing block, the other end of the first rotating shaft can be installed on the first charging drum bracket by using a bearing, a handle can be further arranged on the first dust removing band shell, the discharging drum can be rotated by rotating the handle, and the upper dust removing band can also rotate along with the rotation of the first dust removing band.

Preferably, the second dust removing band on the second discharging drum is fixed on the second discharging drum in a welding mode, one end of the second rotating shaft can fix the second discharging drum in place by using a fixing block, the other end of the second rotating shaft can be installed on the second charging drum bracket by using a bearing, a handle can be further arranged on the second dust removing band shell, the discharging drum can be rotated by rotating the handle, and the lower dust removing band can also rotate along with the rotation of the lower dust removing band.

In the embodiment of the present invention, the winding assembly 32 may be composed of a motor assembly, a second transmission rod and a fixing bracket, preferably, the motor assembly may be a fourth motor, one end of an output shaft of the fourth motor may be connected with the second transmission rod by a coupling, and a plurality of round holes may be disposed on one end surface of the fourth motor and fixed on the first fixing bracket by a bolt and a screw sleeve.

Preferably, the other end of the second transmission rod can be fixed on the fixed support by using the fixed block, the second transmission rod can be further provided with a fixed seat, the fixed seat penetrates through the transmission rod and is provided with a plurality of through holes on the base of the fixed seat, and at the moment, the second transmission rod can be penetrated through and fixed on the fixed support by using the bolt and the turnbuckle.

Preferably, the fixing support can be a mouth-shaped frame body, a plurality of through holes can be formed in the front and the rear of the fixing support, the front can be used for installing the fixing seat, and the rear can be used for fixing the fourth motor.

In the embodiment of the present invention, the third driving component 34 mainly comprises a supporting frame and a second power component, preferably, the second power component may be an electric motor or a motor, one end of an output shaft of the second power component and an input end of the guiding component 33 may be connected by a coupling, and a plurality of mounting holes may be arranged on one end surface of the second power component and pass through the mounting holes by using a bolt and a screw sleeve to fix the second power component on the supporting frame.

In the embodiment of the present invention, the guiding assembly 33 is mainly composed of a cylinder assembly, a supporting roller set and a guiding rod, preferably, the supporting roller set may be composed of a roller bracket and a roller, the roller is fixed on the roller bracket, the roller bracket may be an F-shaped bracket rotating 90 degrees clockwise, the roller is installed between two short plates of the roller bracket, the long plate on the left side of the roller bracket may be installed on the supporting bracket by means of welding or screws, the end of the roller is in transmission connection with the output end of the power assembly, the upper dust removing belt may bypass the roller and change the direction thereof, and the number of the rollers may be determined according to the direction in which the dust removing belt is actually required to be adjusted.

Preferably, the supporting roller set may be composed of a U-shaped bracket, a drum, both ends of which are fixed on both side wing plates of the U-shaped bracket, and a second speed sensor for detecting a moving speed of the dust removing belt on the drum in the supporting roller set, the middle plate of the U-shaped bracket being fixed on the cylinder assembly.

Preferably, the cylinder assembly may be composed of a third cylinder and a cylinder bracket, the output end of the third cylinder is fixedly connected with the U-shaped plate in the supporting roller set, the third cylinder is fixed on the cylinder bracket, and the cylinder bracket is mounted on the supporting frame.

Preferably, the guide rod is provided with a sliding component, a fourth guide rail in the sliding component is fixed on the support frame, a fourth sliding block is in sliding connection with the fourth guide rail, the guide rod is fixed on the fourth sliding block, and the position of the guide rod can be adjusted to the height of the guide rod on the support frame according to the positions of the upper dust removing belt and the winding component 32.

As shown in the figure1As shown, as a preferred embodiment of the present invention, the control system 7 includes a control processor and a control panel, the control panel is fixed on the mounting frame 1, the control panel is used for detecting real-time conditions of products and adjusting cutting parameters of the products, and the control processor is used for receiving detection results and outputting action signals.

In the embodiment of the invention, the control system 7 mainly comprises a control processor and a control panel, preferably, the control panel can be a touch display screen, a plurality of control panels can be arranged according to actual use requirements, the working condition of the cutting machine can be directly monitored in real time on the touch display screen, instructions can be directly input on the touch display screen, the control processor processes instruction signals and gives action signals, and the feeding system 2, the compression system 4, the cutting system 5, the positioning system 6 and the cleaning system 3 are controlled to act according to the requirements of the instruction signals.

As shown in the figure1As shown, as a preferred embodiment of the invention, the mounting 1 comprises a base for mounting and supporting the fixing plate for mounting the feeding system 2, the compacting system 4, the positioning system 6, the cutting system 5, the cleaning system 3 and the control system 7.

In the embodiment of the present invention, the mounting frame 1 may be formed of a base and a fixing plate, preferably, the fixing plate may be a rectangular plate having a certain size, a plurality of mounting positions may be provided on the fixing plate, the size of the mounting positions may be determined according to the sizes of components of the feeding system 2, the pressing system 4, the positioning system 6, the cutting system 5, the cleaning system 3 and the control system 7, the base may be a housing on which the fixing plate is mounted, and the fixing plate is mounted on the base so that the whole mounting frame 1 forms a cabinet body having a certain height, and the feeding system 2, the pressing system 4, the cutting system 5, the positioning system 6, a part of the cleaning system 3 and a part of the control system 7 are mounted on the outer surface of the cabinet body, and the other part of the components are fixed on the inner side of the cabinet body.

The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, and alternatives falling within the spirit and principles of the invention.

Claims (7)

1. A battery pole piece cutter, characterized in that the battery pole piece cutter comprises: the device comprises a mounting frame, a feeding system, a compacting system, a cutting system, a positioning system, a cleaning system and a control system;

the feeding system is arranged on the mounting frame and positioned at the bottom layer of the whole battery pole piece cutting machine and is used for placing products, and the feeding system comprises a tension control device which is used for controlling and maintaining tension stability of the products;

the feeding system further comprises a discharging device and a detecting assembly;

the discharging device comprises a storage rack and a first driving assembly, wherein the storage rack is used for placing products and guiding the movement of the products, the storage rack is fixed on the mounting rack, the tail end of the storage rack is in transmission connection with an output shaft of the first driving assembly, the first driving assembly is fixed on the mounting rack, and the first driving assembly is used for providing power for rotation of the storage rack;

the detection assembly comprises a first speed sensor and a first sensor bracket, wherein the first sensor bracket is fixed on the mounting frame, the first speed sensor is mounted on the first sensor bracket, the first sensor bracket is used for fixing the first speed sensor and adjusting the position of the first speed sensor, and the first speed sensor is used for detecting the movement speed of a product and transmitting the detection result to the control system;

The tension control device comprises a first supporting roller, a first push block and a first air cylinder, wherein the first supporting roller is used for supporting and guiding a product, the first push block is arranged at the output end of the first air cylinder and used for controlling the movement speed of the product, the first air cylinder is used for providing power for the movement of the first push block, and the first air cylinder drives the first push block to move, moves to one side of the first supporting roller and contacts with the product on the first supporting roller, and the movement speed of the product is controlled by adjusting the position of the first push block;

the compression system is fixed on the mounting frame and is positioned right above the feeding system, the compression system is provided with an upper steel belt and a lower steel belt to position and fix the product, and the compression system is used for positioning and compressing the product;

the positioning system is fixed on the mounting frame and is positioned at one side of the compacting system, the positioning system comprises a positioning device and a detection device, the positioning device is used for correcting the position of a product so that the product is not easy to deviate when in tape running, and the detection device is used for detecting whether the product is accurately positioned at the detection position;

the positioning device comprises a positioning roller set and a second moving assembly, wherein the positioning roller set is used for supporting and guiding a product, and the second moving assembly is used for adjusting and guiding the movement of the positioning roller set so that the product is not easy to deviate when the product is re-taken;

The cutting system is fixed on the mounting frame and is positioned right above the compacting system, and comprises a laser cutting device which is used for cutting the positioned product;

the cleaning system is arranged on the mounting frame and positioned on the top layer of the whole battery pole piece cutting machine and is used for cleaning dust on the surface of a product;

the control system is used for controlling and monitoring actions of the feeding system, the pressing system, the positioning system, the cutting system and the cleaning system.

2. The battery pole piece cutter of claim 1, wherein the compression system comprises a second drive assembly, a compression assembly, and an adsorption assembly;

the second driving assembly is fixed on the mounting frame and is used for providing power for the movement of the compressing assembly;

the compression assembly comprises an upper steel belt, a lower steel belt, a support, a tightening assembly and a first moving assembly, wherein the support is fixed on a positioning device and comprises a first mounting plate and a second mounting plate, the first mounting plate is used for fixing the tightening assembly, the first moving assembly and an adsorption assembly, the second mounting plate is used for mounting the tightening assembly, the tightening assembly is used for placing products and adjusting the tightness degree of the upper steel belt and the lower steel belt, the first moving assembly comprises a first guide rail and a first sliding block, and the first moving assembly is used for guiding and supporting the support;

The adsorption component is arranged on the compression component and is used for adsorbing impurities generated by cutting products, the adsorption component comprises an upper dust collection box and a lower dust collection box, the upper dust collection box is arranged above an upper steel belt, and the lower dust collection box is arranged below a lower steel belt.

3. The battery pole piece cutter of claim 1, wherein the detection device comprises a first visual positioning assembly secured to the positioning device, the first visual positioning assembly for capturing an image of the product and delivering the captured result to the control system.

4. The battery pole piece cutter of claim 1, wherein the cutting system further comprises a second visual positioning assembly;

the second visual positioning assembly is used for detecting the position of a product in the compression system between an upper steel belt and a lower steel belt;

the laser cutting device comprises a third moving assembly and a cutting assembly, wherein the cutting assembly is arranged on the third moving assembly and is positioned right above the pressing system, and the third moving assembly is used for supporting the cutting assembly and adjusting the position of the cutting assembly.

5. The battery pole piece cutter of claim 1, wherein the cleaning system comprises a third drive assembly, an unreeling assembly, a reeling assembly, and a guiding assembly;

the unreeling assembly is used for placing an unused cleaning belt, and the cleaning belt is used for wiping impurities on the surface of a product;

the winding assembly is used for collecting the used cleaning belts, and is provided with an adjusting rod which is used for providing power for the movement of the cleaning belts;

the third driving assembly is used for providing power for the movement of the cleaning belt, and is fixed on the mounting frame and positioned between the winding assembly and the unwinding assembly;

the guide assembly is used for guiding the movement of the product and supporting the cleaning belt.

6. The battery pole piece cutting machine of claim 1, wherein the control system comprises a control processor and a control panel, the control panel is fixed on the mounting frame, the control panel is used for detecting real-time conditions of products and adjusting cutting parameters of the products, and the control processor is used for receiving detection results and outputting action signals.

7. The battery pole piece cutter of claim 1, wherein the mounting bracket includes a base for mounting and supporting the fixed plate, and a fixed plate for mounting the feed system, the compression system, the positioning system, the cutting system, the cleaning system, and the control system.