CN211763034U - Automatic cut equipment of mouth of a river branch cave number - Google Patents

Abstract

The utility model relates to the technical field of production and processing, in particular to an automatic water cutting opening and hole number dividing device, which comprises a water cutting opening mechanism, a detection mechanism and a hole number dividing mechanism, wherein the water cutting opening mechanism and the detection mechanism are arranged on the opposite side of the hole number dividing mechanism side by side, the detection mechanism is arranged at the output end of the water cutting opening mechanism, the hole number dividing mechanism comprises a hole dividing base, a hole dividing moving component, a hole dividing component and a plurality of hole number discs, the hole number discs and the hole dividing moving component are both arranged on the top surface of the hole dividing base, the hole dividing component is arranged on the hole dividing moving component, the hole dividing component is positioned above the hole number discs, the hole dividing component moves from the middle part above the hole number discs to two sides for dividing, thereby, the processes of cutting the water opening, detecting the product quality and dividing the hole number of the product can be completed fully automatically, the manual mode is relatively, not only can reduce the error rate of dividing the hole number of the product, the quality of the product is guaranteed, the production efficiency is improved, and the production cost is reduced.

Description

Automatic cut equipment of mouth of a river branch cave number

Technical Field

The utility model relates to a production and processing technology field, concretely relates to automatic cut mouth of a river divides equipment of cave number.

Background

The requirement for the product is higher and higher in the production and processing process of the product, for example, the requirement for the product is constantly changed due to different use environments, different use adjustments and other conditions, and in order to save the cost and improve the effective utilization requirement of an injection molding mold, the mode of one mold with multiple cavities is more and more widely applied in the industry.

In order to facilitate the assembly and use of the products, products with different cavity numbers need to be distinguished. At present, products are generally subjected to injection molding in the industry, and then are manually screened one by one to distinguish the products with different hole numbers. The manual hole number dividing efficiency is low, more human resources are occupied, the production and manufacturing cost is increased, the problem of wrong product hole number division is often caused due to the fact that the attention of an operator is not concentrated, and meanwhile, the surface of a product is easily polluted due to manual touch of a workpiece, and the quality of the workpiece is affected.

Therefore, there is a need in the industry for a solution to the above-mentioned problems.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an automatic cut mouth of a river divides equipment of cave number to prior art not enough. The purpose of the utility model can be realized by the technical scheme as follows.

The utility model provides an automatic cut mouth of a river and divide equipment of cave number, includes cut mouth of a river mechanism, detection mechanism and divides cave number mechanism, cut mouth of a river mechanism with detection mechanism set up side by side in divide the offside of cave number mechanism, detection mechanism locates cut mouth of a river mechanism's output, divide cave number mechanism including dividing the cave base, dividing cave removal subassembly, dividing cave subassembly and a plurality of cave number dish, cave number dish with divide the cave removal subassembly all to be equipped with divide on the top surface of cave base, divide the cave subassembly to locate divide on the cave removal subassembly, just divide the cave subassembly to be located the top of cave number dish, divide the cave subassembly to follow the top middle part of cave number dish is to the both sides removal and is divided the piece.

Preferably, the cavity dividing assembly comprises a cavity dividing mounting plate and two cavity dividing members, the cavity dividing mounting plate is fixed on the cavity dividing moving assembly, the two cavity dividing members are symmetrically arranged on the cavity dividing mounting plate, the cavity dividing component comprises a first cavity dividing cylinder, a first cavity dividing slide block, a first cavity dividing slide rail, a second cavity dividing cylinder and a second cavity dividing slide block, the first cavity dividing cylinder is arranged on the cavity dividing mounting plate and pushes the first cavity dividing slide block to move in the Z direction, the first cavity dividing slide rail is arranged on the first cavity dividing slide block in the X direction, the second cavity dividing cylinder is arranged at one end of the first cavity dividing slide rail close to the outer side so as to push the second cavity dividing slide block to slide on the first cavity dividing slide rail, the first hole dividing slide rail is provided with a fixed hole dividing claw at one end of the middle part of the hole dividing mounting plate, and the second hole dividing slide block is provided with a movable hole dividing claw.

Preferably, the movable component for hole distribution comprises a first movable component for hole distribution, a second movable component for hole distribution and a third movable component for hole distribution, the first movable component for hole distribution is arranged at two ends of the base for hole distribution in the Y direction, a first movable block for hole distribution is arranged on each of the two first movable components for hole distribution and is slidably connected to the two first movable blocks for hole distribution, the two second movable components for hole distribution are arranged on the two first movable blocks for hole distribution in the Z direction, the two second movable components for hole distribution are arranged on each of the two second movable blocks for hole distribution and are slidably connected to the second movable blocks for hole distribution, the third movable component for hole distribution is arranged in the X direction, two ends of the third movable component for hole distribution are connected to the second movable blocks for hole distribution, and the third movable component for hole distribution is provided with a third movable block for.

Preferably, the water gap cutting mechanism comprises a water gap cutting base, a shearing frame, a feeding assembly and a shearing assembly, the shearing frame is arranged in the middle of the top surface of the water gap cutting base, the shearing assembly is mounted on the shearing frame, the feeding assembly and the feeding assembly are respectively arranged on two sides of the shearing frame, the feeding assembly is connected with the input end of the shearing assembly, and the feeding assembly is connected with the output end of the shearing assembly.

Preferably, the shearing assembly comprises a shearing workbench, a shearing cutter, a shearing driving cylinder, a shearing buffer cylinder and a shearing pressing plate, the shearing frame is provided with a shearing guide rod, the shearing pressing plate and the shearing workbench are respectively connected with the shearing guide rod in a sliding mode, the shearing pressing plate is located above the shearing workbench, the shearing driving cylinder is installed on the top surface of the shearing frame and pushes the shearing pressing plate to move, the shearing cutter is fixed at the bottom end of the shearing pressing plate, and the shearing buffer cylinder is installed on the bottom surface of the shearing frame and abuts against the shearing workbench.

Preferably, the feeding assembly comprises a feeding frame, a feeding rail, a feeding cylinder and a feeding moving plate, the feeding frame is arranged on one side, close to the input end of the shearing assembly, of the water cutting port base, the feeding rail transversely penetrates through the shearing frame, and the feeding cylinder is mounted on the feeding frame and pushes the feeding moving plate to slide on the feeding rail.

Preferably, the feeding assembly comprises a feeding frame, a first feeding moving member, a second feeding moving member and a feeding clamp, the feeding frame is arranged on one side, close to the output end of the shearing assembly, of the water cutting port base, the first feeding moving member is arranged on the feeding frame in the X direction, the first feeding moving member is provided with a first feeding moving block movably connected with the first feeding moving member, the second feeding moving member is arranged on the first feeding moving block in the Z direction, the second feeding moving member is provided with a second feeding moving block movably connected with the second feeding moving member, and the feeding clamp is arranged on the second feeding moving block.

Preferably, the detection mechanism places platform and defective products catch tray including detecting base, determine module, detection branch material subassembly, yields, determine module locate be close to on the detect base one side of cutting mouth of a river mechanism, detection branch material subassembly is located be close to on the detect base one side of determine module output, the yields place the platform with defective products catch tray locates respectively determine module's both sides side, just the yields is placed the platform and is located one side that is close to branch cave number mechanism.

Preferably, the detection assembly comprises a feeding detection assembly and a detection device, the feeding detection assembly comprises a detection transfer piece and a detection transfer table, the detection transfer piece is arranged in the X direction and is in sliding connection with the detection transfer table, a detection clamp is arranged on the top surface of the detection transfer table, and the detection device comprises an upper CCD detection camera and a lower CCD detection camera.

Preferably, the detecting and distributing assembly includes a first detecting and distributing moving part, a second detecting and distributing moving part, a third detecting and distributing moving part and a detecting and distributing clamp, the first detecting and distributing moving part is arranged on the detecting base in the Y direction, the first detecting and distributing moving part is provided with a first detecting and distributing moving block slidably connected with the first detecting and distributing moving part, the second detecting and distributing moving part is arranged on the first detecting and distributing moving block in the X direction, the second detecting and distributing moving part is provided with a second detecting and distributing moving block slidably connected with the second detecting and distributing moving part, the third detecting and distributing moving part is arranged on the second detecting and distributing moving block in the Z direction, the third detecting and distributing moving part is provided with a third detecting and distributing moving block slidably connected with the third detecting and distributing moving block, and the detecting and distributing clamp is mounted on the third detecting and distributing moving block.

Compared with the prior art, the beneficial effects of the utility model are that:

the utility model discloses an automatic cut mouth of a river branch cave number's equipment, the product that will adopt a mould many caves mode injection moulding sends into and carries out the shearing at the product mouth of a river in cutting mouth of a river mechanism, it detects to the quality of detection mechanism to the product again to send, under the effect of dividing cave removal subassembly, divide the product that cave subassembly will pass through the detection to remove to both sides from the top middle part of cave number dish and carry out the branch piece, thereby transfer the product of different specifications respectively to the cave number dish that corresponds on, with this can accomplish the shearing mouth of a river fully automated ground, the product quality detects and the process such as product branch cave number, relative artificial mode, not only can reduce the error rate of dividing product cave number, can also avoid the staff to cause the pollution to the product, the quality of product has been ensured, and be favorable to improving production efficiency, and the reduction in production cost.

Drawings

Fig. 1 is a schematic structural diagram of an angle of the apparatus in the embodiment of the present invention.

Fig. 2 is a schematic structural diagram of another angle of the apparatus in the embodiment of the present invention.

Fig. 3 is a schematic structural diagram of another angle of the apparatus in the embodiment of the present invention.

Fig. 4 is a partially enlarged view of a portion a in fig. 1.

Fig. 5 is a partially enlarged view of a portion B in fig. 1.

Fig. 6 is a partially enlarged view of a portion C in fig. 2.

Fig. 7 is a partially enlarged view of a portion D in fig. 2.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the following specific embodiments, and it should be understood that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

Need the manual work to divide cave number and lead to production efficiency low to the product that adopts a mould many caves mode injection moulding, manufacturing cost increases and leads to dividing the wrong scheduling problem of study number easily, the utility model provides an automatic cut mouth of a river divides equipment of cave number can accomplish cut mouth of a river, product quality detection and product fully automated and divide processes such as cave number, convenient and fast.

The utility model provides an automatic cut mouth of a river and divide equipment of cave number, as shown in fig. 1 to 7, includes cut mouth of a river mechanism 1, detection mechanism 2 and divide cave number mechanism 3, cut mouth of a river mechanism 1 with detection mechanism 2 set up side by side in divide the offside of cave number mechanism 3, detection mechanism 2 locates cut the output of mouth of a river mechanism 1 to this will be sent the mouth of a river of cutting mouth of a river mechanism 1 department to the mouth of a river of product that injection moulding came out through a mould many caves mode and cut, send to the detection mechanism 2 that sets up side by side at cut mouth of a river mechanism 1 output afterwards and detect, will send the product that will detect again to divide cave number mechanism 3 to carry out the product and divide the cave number, thereby make the compact structure of whole platform equipment, reduce the distance of transferring between each mechanism, be favorable to improving work efficiency. As shown in fig. 3, the cavity number dividing mechanism 3 includes a cavity dividing base 31, a cavity dividing moving assembly 32, a cavity dividing assembly 33, and a plurality of cavity number discs 34, wherein the cavity dividing moving assembly 32 drives the cavity dividing assembly 33 to move so as to divide the cavity number of the product, and the cavity number discs 34 with different cavity numbers are used for loading the products with different cavity numbers. The cave dish 34 with divide cave removal subassembly 32 all be equipped with divide on the top surface of cave base 31, divide cave subassembly 33 to locate divide cave removal subassembly 32 is last in order to follow to divide cave removal subassembly 32 to remove the product of sorting different cave numbers, just divide cave subassembly 33 to be located the top of cave dish 34, be convenient for sort, divide cave subassembly 33 to follow the top middle part of cave dish 34 is moved to both sides and is divided the piece to this from the middle part respectively to both sides removal branch piece can shorten the transfer distance, reduces the time of branch piece, raises the efficiency.

The device for automatically cutting the water gap and dividing the cavity number provided in the embodiment conveys a product which is injection molded in a one-die multi-cavity mode into the water gap cutting mechanism 1 to cut the water gap of the product, wherein the water gap cutting mechanism 1 is provided with a plurality of different cutters side by side, each cutter corresponds to the water gap of each product with different cavity numbers, the water gaps of the products with different cavity numbers can be conveniently cut at one time, the products are conveyed to the detection mechanism 2 to detect the quality of the product, under the action of the cavity dividing moving assembly 32, the cavity dividing assembly 33 moves the detected product from the middle part above the cavity number disc 34 to two sides to divide the product, so that the products with different specifications are respectively conveyed to the corresponding cavity number discs 34, the processes of cutting the water gap, detecting the product quality, dividing the cavity number of the product and the like can be automatically completed, and compared with a manual mode, the error rate of dividing the cavity number of the product can be reduced, the pollution to the product caused by hands can be avoided, the quality of the product is guaranteed, the production efficiency is improved, and the production cost is reduced.

As shown in fig. 3 and 5, the cavity dividing assembly 33 includes a cavity dividing mounting plate 331 and two cavity dividing members 332, the cavity dividing mounting plate 331 is fixed to the cavity dividing moving assembly 32, the two cavity dividing members 332 are symmetrically disposed on the cavity dividing mounting plate 331, and when a product is subjected to cavity dividing, the two cavity dividing members 332 move from the middle to the two sides to shorten the transfer distance. The cavity dividing member 332 comprises a first cavity dividing cylinder 3321, a first cavity dividing slide block 3322, a first cavity dividing slide rail 3323, a second cavity dividing cylinder 3324 and a second cavity dividing slide block 3325, wherein the first cavity dividing cylinder 3321 provides power for the first cavity dividing slide block 3322, and the second cavity dividing cylinder 3324 provides power for the second cavity dividing slide block 3325. The first cavity dividing cylinder 3321 is disposed on the cavity dividing mounting plate 331 and pushes the first cavity dividing slider 3322 to move in the Z direction, so that the position of the cavity dividing assembly 33 in the longitudinal direction can be adjusted to place the product on the corresponding cavity number plate 34. The first cavity dividing slide rail 3323 is arranged on the first cavity dividing slide block 3322 in the X direction, the second cavity dividing cylinder 3324 is arranged at one end of the first cavity dividing slide rail 3323 close to the outer side to push the second cavity dividing slide block 3325 to slide on the first cavity dividing slide rail 3323, and the cavity dividing assembly 33 can be adjusted at a horizontal position so as to transfer products with different cavity numbers to the upper side of the corresponding cavity number disc 34 and then move in the Z direction to place the products. First minute cave slide rail 3323 is located divide the one end at cave mounting panel 331 middle part to be equipped with fixedly divide cave claw 3326, divide to be equipped with on the second cave slider 3325 to remove and divide cave claw 3327, transversely removal can not take place for fixed branch cave claw 3326, only need longitudinal movement to put down the product promptly, and remove and divide cave claw 3327 and can carry out longitudinal movement again after the lateral shifting goes on to the cave number dish 34 that corresponds and put down the product to this convenient and fast realizes that the product divides the piece, and can not produce the interference each other.

The device for automatically cutting water gap and dividing the cavity number provided in the embodiment is shown in figures 2 and 3, the hole-dividing moving assembly 32 comprises a first hole-dividing moving member 321, a second hole-dividing moving member 322 and a third hole-dividing moving member 323, the two side ends of the cavity dividing base 31 are respectively provided with the first cavity dividing moving pieces 321 arranged in the Y direction, the two first cavity dividing moving pieces 321 are respectively provided with a first cavity dividing moving block 324 connected with the first cavity dividing moving pieces in a sliding manner, the two second cavity dividing moving pieces 322 are respectively arranged on the two first cavity dividing moving blocks 324 in the Z direction, the two second cavity dividing moving pieces 322 are respectively provided with a second cavity dividing moving block 325 connected with the second cavity dividing moving pieces in a sliding manner, the third cavity dividing moving pieces 323 are arranged in the X direction, and both ends of the third hole dividing moving member 323 are respectively connected with the second hole dividing moving blocks 325 at both sides, and the third hole dividing moving members 323 are respectively provided with third hole dividing moving blocks 326 slidably connected therewith. Wherein first minute cave moving member 321, second minute cave moving member 322 and third minute cave moving member 323 can adopt motor drive or cylinder drive, preferably adopt motor drive in this embodiment, can provide the power that removes for each minute cave moving member when the motor starts to the adjustment of minute cave in-process X direction, Y direction and Z direction is realized.

The device for automatically cutting water gap and dividing the cavity number provided in the embodiment is shown in figures 1 and 4, the water cutting opening mechanism 1 comprises a water cutting opening base 11, a shearing frame 12, a feeding assembly 13, a feeding assembly 14 and a shearing assembly 15, the shearing frame 12 is arranged in the middle of the top surface of the water cutting port base 11, the shearing assembly 15 is arranged on the shearing frame 12, the shearing frame 12 plays a bearing role for the shearing assembly 15, the feeding component 13 and the feeding component 14 are respectively arranged at two sides of the shearing frame 12, the feeding assembly 13 is connected with the input end of the shearing assembly 15, the feeding assembly 14 is connected with the output end of the shearing assembly 15, the feeding assembly 13 sends a product to the shearing frame 12, the shearing assembly 15 arranged on the shearing frame 12 shears a product water gap, and then the product is sent out through the feeding assembly 14.

In the embodiment of the present invention, as shown in fig. 4, the shearing assembly 15 includes a shearing table 151, a shearing cutter (not shown), a shearing driving cylinder 152, a shearing buffer cylinder 153, and a shearing pressing plate 154, the shearing frame 12 is provided with a shearing guide rod 121, the shearing pressing plate 154 and the shearing table 151 are respectively connected to the shearing guide rod 121 in a sliding manner, and can limit movement of the shearing pressing plate 154 to enable the shearing pressing plate 154 to move and guide to a predetermined position, the shearing pressing plate 154 is located above the shearing table 151, the shearing cutter (in the figure, the shearing cutter is shielded by the shearing pressing plate 154) is fixed at a bottom end of the shearing pressing plate 154, the shearing driving cylinder 152 is installed on a top surface of the shearing frame 12 and pushes the shearing pressing plate 154 to move, the shearing table 151 places a product, the shearing driving cylinder 152 pushes the shearing pressing plate 154 to move downward, thereby driving the shearing cutter fixed at the bottom end of the re-shearing pressure plate 154 to shear the product nozzle. The shearing buffer cylinder 153 is mounted on the bottom surface of the shearing frame 12 and abuts against the shearing table 151, so that when the shearing press plate 154 drives the shearing tool to punch the product gate, the product can be buffered downwards for a certain distance under the action of the buffer cylinder, thereby preventing the product from being directly crushed.

In the apparatus for automatically cutting water gap and dividing the cavity number provided in this embodiment, as shown in fig. 4, the feeding assembly 13 includes a feeding frame 131, a feeding rail 132, a feeding cylinder 133 and a feeding moving plate 134, the feeding frame 131 is arranged on one side of the water cutting opening base 11 close to the input end of the shearing assembly 15, for fixing a feeding cylinder 133, the feeding rail 132 crosses the cutting frame 12, the feeding cylinder 133 is installed on the feeding rack 131 and pushes the feeding moving plate 134 to slide on the feeding rail 132, the feeding cylinder 133 provides power to push the feeding moving plate 134, when the feeding moving plate 134 drives the product to a position right below the shearing assembly 15, the shearing assembly 15 presses downwards to shear the product nozzle, then the feeding moving plate 134 is pushed to send out the product, the whole process is finished at one step, and the method is convenient and fast and is beneficial to improving the production efficiency.

In the device for automatically dividing the number of the cavities at the water cutting gap provided in the embodiment, as shown in fig. 7, the feeding assembly 14 includes a feeding frame 141, a first feeding moving member 142, a second feeding moving member 143, and a feeding clamp 144, the feeding frame 141 is disposed on one side of the water cutting gap base 11 close to the output end of the shearing assembly 15, the first feeding moving member 142 is disposed on the feeding frame 141 in the X direction, the first feeding moving member 142 is provided with a first feeding moving block 145 movably connected to the first feeding moving member 142, the second feeding moving member 143 is disposed on the first feeding moving block 145 in the Z direction, the second feeding moving member 143 is provided with a second feeding moving block 146 movably connected to the second feeding moving block 146, and the feeding clamp 144 is mounted on the second feeding moving block 146. Wherein, first pay-off moving member 142, second pay-off moving member 143 can adopt motor drive or cylinder drive, preferably adopt the cylinder drive in this embodiment, also the surperficial protruding slide rail form that establishes of cylinder, the pay-off movable block is equipped with the spout corresponding with the cylinder to realize relative slip.

The utility model provides an automatic cut mouth of a river and divide equipment of cave number, as shown in fig. 3, detection mechanism 2 places platform 24 and defective products catch tray 25 including detection base 21, determine module 22, detection branch material module 23, yields, detection base 21 is last to be close to cut one side of mouth of a river mechanism 1, detection branch material module 23 is located be close to on the detection base 21 one side of determine module 22 output, the yields place platform 24 with defective products catch tray 25 locates respectively detect module 22's both sides side, just the yields place platform 24 and locate the one side that is close to branch cave number mechanism 3. Conveying the product with the cut water gap to a detection assembly 22 for detection, and when a defective product is found, conveying the defective product to a defective product collecting tray 25 by a detection distributing assembly 23; if the product is through detecting flawless, then detect and divide material subassembly 23 to transfer the product to the yields and place the platform 24 on, wait to divide cave number mechanism 3 to carry out the branch piece of different cave number products to this can take out the defective products accurately, avoids sneaking into in the yields.

As shown in fig. 2 and 7, the detection assembly 22 includes a feeding detection assembly 221 and a detection device 222, the feeding detection assembly 221 includes a detection transfer component 2211 and a detection transfer table 2212, the detection transfer component 2211 is arranged in the X direction, the detection transfer component 2211 is slidably connected with the detection transfer table 2212, a detection clamp 2213 is arranged on the top surface of the detection transfer table 2212, a clamping portion of the detection clamp 2213 protrudes out of the detection transfer table 2212 to clamp a product and slides on the detection transfer component 2211, the detection device 222 includes an upper CCD detection camera 2221 and a lower CCD detection camera 2222, and the detection clamp 2213 clamps the product to pass through the lower CCD detection camera 2222 and the upper CCD detection camera 2221, so that the quality of the products detected from different surfaces is respectively more comprehensive. The detection transfer member 2211 may be driven by a motor or a cylinder, and is preferably driven by a motor in this embodiment.

In the device for automatically cutting water gap and dividing the cavity number provided in this embodiment, as shown in fig. 6, the detecting and distributing assembly 23 includes a first detecting and distributing moving part 231, a second detecting and distributing moving part 232, a third detecting and distributing moving part 233 and a detecting and distributing clamp 234, the first detecting and distributing moving part 231 is disposed on the detecting base 21 in the Y direction, the first detecting and distributing moving part 231 is provided with a first detecting and distributing moving block 235 slidably connected thereto, the second detecting and distributing moving part 232 is disposed on the first detecting and distributing moving block 235 in the X direction, the second detecting and distributing moving part 232 is provided with a second detecting and distributing moving block 236 slidably connected thereto, the third detecting and distributing moving part 233 is disposed on the second detecting and distributing moving block 236 in the Z direction, the third detecting and distributing moving part 233 is provided with a third detecting and distributing moving block 237 slidably connected thereto, the detecting and distributing clamp 234 is mounted on the third detecting and distributing moving block 237, the detecting and distributing assembly 23 can be driven by a motor or an air cylinder, in this embodiment, the motor is preferably driven, and when the motor is started, the moving power is provided for each detecting and distributing moving block, so that the adjustment in the X direction, the Y direction and the Z direction in the hole distributing process is realized.

The present invention has been further described with reference to specific embodiments, but it should be understood that the specific description herein should not be construed as limiting the spirit and scope of the present invention, and that various modifications to the above-described embodiments, which would occur to persons skilled in the art after reading this specification, are within the scope of the present invention.

Claims (10)

1. The utility model provides an automatic cut mouth of a river and divide equipment of cave number, its characterized in that, includes cut mouth of a river mechanism, detection mechanism and divides cave number mechanism, cut mouth of a river mechanism with detection mechanism set up side by side in divide the offside of cave number mechanism, detection mechanism locates cut the output of mouth of a river mechanism, divide cave number mechanism including dividing the cave base, dividing the cave removal subassembly, dividing cave subassembly and a plurality of cave number dish, cave number dish with divide the cave removal subassembly all to be equipped with divide on the top surface of cave base, divide the cave subassembly to locate divide on the cave removal subassembly, just divide the cave subassembly to be located the top of cave number dish, divide the cave subassembly follow the top middle part of cave number dish is to the both sides removal and is divided.

2. The automatic water gap cutting and hole number dividing device according to claim 1, wherein the hole dividing assembly comprises a hole dividing mounting plate and two hole dividing members, the hole dividing mounting plate is fixed on the hole dividing moving assembly, the two hole dividing members are symmetrically arranged on the hole dividing mounting plate, the hole dividing members comprise a first hole dividing cylinder, a first hole dividing slider, a first hole dividing slide rail, a second hole dividing cylinder and a second hole dividing slider, the first hole dividing cylinder is arranged on the hole dividing mounting plate and pushes the first hole dividing slider to move in the Z direction, the first hole dividing slide rail is arranged on the first hole dividing slider in the X direction, the second hole dividing cylinder is arranged at one end, close to the outer side, of the first hole dividing slide rail to push the second hole dividing slider to slide on the first hole dividing slide rail, and one end, located at the middle of the hole dividing mounting plate, of the first hole dividing slide rail is provided with a fixed hole dividing claw, and the second cavity dividing slide block is provided with a movable cavity dividing claw.

3. The automatic water gap hole number dividing device according to claim 1, wherein the hole dividing moving assembly comprises a first hole dividing moving member, a second hole dividing moving member and a third hole dividing moving member, the first hole dividing moving member arranged in a Y direction is arranged at each of two sides of the hole dividing base, a first hole dividing moving block slidably connected with the first hole dividing moving member is arranged on each of the two first hole dividing moving members, the two second hole dividing moving members are arranged on the two first hole dividing moving blocks in a Z direction respectively, a second hole dividing moving block slidably connected with the second hole dividing moving members is arranged on each of the two second hole dividing moving members, the third hole dividing moving member is arranged in the X direction, each of two ends of the third hole dividing moving member is connected with the second hole dividing moving block at each of two sides respectively, and the third hole dividing moving member is provided with a third hole dividing moving block slidably connected with the third hole dividing moving block.

4. The automatic water gap hole number cutting device according to claim 1, wherein the water gap cutting mechanism comprises a water gap cutting base, a shearing frame, a feeding assembly and a shearing assembly, the shearing frame is arranged in the middle of the top surface of the water gap cutting base, the shearing assembly is mounted on the shearing frame, the feeding assembly and the feeding assembly are respectively arranged on two sides of the shearing frame, the feeding assembly is connected with an input end of the shearing assembly, and the feeding assembly is connected with an output end of the shearing assembly.

5. The automatic water gap hole number cutting equipment according to claim 4, wherein the shearing assembly comprises a shearing workbench, a shearing cutter, a shearing driving cylinder, a shearing buffering cylinder and a shearing pressing plate, the shearing frame is provided with a shearing guide rod, the shearing pressing plate and the shearing workbench are respectively in sliding connection with the shearing guide rod, the shearing pressing plate is located above the shearing workbench, the shearing driving cylinder is installed on the top surface of the shearing frame and pushes the shearing pressing plate to move, the shearing cutter is fixed at the bottom end of the shearing pressing plate, and the shearing buffering cylinder is installed on the bottom surface of the shearing frame and abuts against the shearing workbench.

6. The automatic water gap hole number dividing device according to claim 4, wherein the feeding assembly comprises a feeding frame, a feeding rail, a feeding cylinder and a feeding moving plate, the feeding frame is arranged on one side of the water gap base close to the input end of the shearing assembly, the feeding rail traverses the shearing frame, and the feeding cylinder is arranged on the feeding frame and pushes the feeding moving plate to slide on the feeding rail.

7. The automatic water cutting gap hole number dividing device according to claim 4, wherein the feeding assembly comprises a feeding frame, a first feeding moving member, a second feeding moving member and a feeding clamp, the feeding frame is arranged on one side, close to the output end of the shearing assembly, of the water cutting gap base, the first feeding moving member is arranged on the feeding frame in an X direction, the first feeding moving member is provided with a first feeding moving block movably connected with the first feeding moving member, the second feeding moving member is arranged on the first feeding moving block in a Z direction, the second feeding moving member is provided with a second feeding moving block movably connected with the second feeding moving block, and the feeding clamp is mounted on the second feeding moving block.

8. The automatic water gap hole number dividing device according to claim 1, wherein the detection mechanism comprises a detection base, a detection assembly, a detection distribution assembly, a good product placing table and a defective product collecting tray, the detection assembly is arranged on the detection base and close to one side of the water gap mechanism, the detection distribution assembly is arranged on the detection base and close to one side of an output end of the detection assembly, the good product placing table and the defective product collecting tray are respectively arranged on two sides of the detection assembly, and the good product placing table is arranged on one side close to the hole number dividing mechanism.

9. The automatic water gap hole number dividing device according to claim 8, wherein the detection assembly comprises a feeding detection assembly and a detection device, the feeding detection assembly comprises a detection transfer piece and a detection transfer table, the detection transfer piece is arranged in an X direction and is in sliding connection with the detection transfer table, a detection clamp is arranged on the top surface of the detection transfer table, and the detection device comprises an upper CCD detection camera and a lower CCD detection camera.

10. The device for automatically cutting a nozzle and dividing a cavity according to claim 8, wherein the detecting and distributing assembly comprises a first detecting and distributing transfer member, a second detecting and distributing transfer member, a third detecting and distributing transfer member and a detecting and distributing clamp, the first detecting and distributing transfer member is arranged on the detecting base in the Y direction, the first detecting and distributing transfer member is provided with a first detecting and distributing moving block in sliding connection with the first detecting and distributing transfer member, the second detecting and distributing transfer member is arranged on the first detecting and distributing moving block in the X direction, the second detecting and distributing transfer member is provided with a second detecting and distributing moving block in sliding connection with the second detecting and distributing moving block, the third detecting and distributing transfer member is arranged on the second detecting and distributing moving block in the Z direction, the third detecting and distributing transfer member is provided with a third detecting and distributing moving block in sliding connection with the third detecting and distributing moving block, the detection material distribution clamp is installed on the third detection material distribution moving block.

Images