CN210453594U - Water gap shearing equipment - Google Patents

Abstract

The utility model discloses a mouth of a river shearing equipment, including triaxial drive mechanism, cutting nipper subassembly and chassis platform, and with the anchor clamps subassembly that the cutting nipper subassembly corresponds, triaxial drive mechanism drives cutting nipper subassembly and chassis platform relative movement, the anchor clamps subassembly includes anchor clamps installed part and the fixed anchor clamps of waiting to cut the product, anchor clamps installed part installation or be formed with on the chassis platform, the anchor clamps installed part with be equipped with the installation component of mutually supporting on the anchor clamps respectively, so that anchor clamps demountable installation in on the anchor clamps installed part. Compared with the prior art, the utility model discloses an anchor clamps demountable installation in on the anchor clamps installed part, when processing different products, the change needs anchor clamps to produce the processing, and convenient operation not only need not to carry out the position debugging again after changing moreover, can directly produce, and production efficiency is high.

Description

Water gap shearing equipment

Technical Field

The utility model relates to the field of machining, especially, relate to a mouth of a river shearing equipment.

Background

The nozzle is a combined part of a frame and a part formed when a model is cast in a factory, and after a product is machined, the nozzle part is cut off from the product by special cutting equipment, namely the nozzle cutting equipment.

Refer to CN201720426295.8, its anchor clamps are fixed in on the work platform, and during the use, a mouth of a river shearing equipment often can only the pertinence cut a product, if the shearing of multiple product needs to be carried out, often need change whole work platform or use multiple mouth of a river shearing equipment to carry out the operation, and is with high costs, the operation is inconvenient.

Therefore, a new nozzle shearing apparatus solving the above problems is urgently needed.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a mouth of a river shearing equipment sets up detachable anchor clamps on the platform to when processing different products, change need anchor clamps can, convenient operation need not a lot of debugging.

In order to purposefully in the realization, the utility model discloses a mouth of a river shearing equipment, including triaxial drive mechanism, cutting nipper subassembly and chassis platform, and with the anchor clamps subassembly that cutting nipper subassembly corresponds, triaxial drive mechanism drives cutting nipper subassembly and chassis platform relative movement, the anchor clamps subassembly includes anchor clamps installed part and the fixed anchor clamps of waiting to cut the product, anchor clamps installed part installation or formation in on the chassis platform, the anchor clamps installed part with be equipped with the installation component of mutually supporting on the anchor clamps respectively, so that anchor clamps demountable installation in on the anchor clamps installed part.

Compared with the prior art, the utility model discloses an anchor clamps demountable installation in on the anchor clamps installed part, when processing different products, the change needs anchor clamps to produce the processing, and convenient operation not only need not to carry out the position debugging again after changing moreover, can directly produce, and production efficiency is high.

Preferably, the mounting assembly includes a plurality of first screw holes formed in the fixture mounting member and at least two first mounting holes formed in the fixture and aligned with the first screw holes, and at least two first fixing screws respectively pass through the first mounting holes and are threadedly mounted in the corresponding first screw holes to detachably mount the fixture on the fixture mounting member. The clamp is aligned and installed on the clamp installation piece through the alignment of the first installation hole and the first screw hole, and the clamp installation piece is convenient to operate, stable to install and high in alignment precision.

Preferably, the fixture mounting member comprises a plate mounting block and a fixture mounting plate, the plate mounting block is mounted on the chassis platform, the fixture mounting plate is mounted on the plate mounting block, and the mounting assembly is disposed on the fixture mounting plate.

Specifically, a second mounting hole and a second screw hole which are opposite in position are respectively formed in the clamp mounting plate and the flat plate mounting block, and a second fixing screw can penetrate through the second mounting hole and is in threaded mounting in the second screw hole so as to mount the clamp mounting plate on the flat plate mounting block.

Specifically, the fixture comprises a first fixture, the first fixture comprises a fixture body and a clamping area formed on multiple sides of the fixture body, the mounting assembly is arranged on the clamping body, the product to be sheared comprises a water port and a product portion arranged on multiple sides of the water port and connected with the water port, a clamping groove for clamping the water port is formed in the clamping area, the product portion is suspended outside the corresponding side of the first fixture, and a corresponding shearing clamp is formed on the outer side of the first fixture corresponding to the product portion.

Specifically, anchor clamps include the second anchor clamps, the second anchor clamps include the base plate, are fixed in mount on the base plate, be fixed in first rotary mechanism on the mount and install in the last grip block of first rotary mechanism, the installation component is located on the base plate, treat to cut the product and include water mouth portion and locate water mouth portion all around and with a plurality of product portion that the water mouth portion links to each other, be formed with a plurality of centre grippings along its axial on the grip block the grip groove of water mouth portion, product portion hang in the grip block outside, the outside of grip block be provided with cut the pincers position that the pincers subassembly corresponds, first rotary mechanism install in on the mount and drive the grip block rotates.

More specifically, a second rotating mechanism is further arranged between the cutting nipper assembly and the three-axis transmission mechanism, the cutting nipper assembly is mounted on the second rotating mechanism, and the second rotating mechanism is mounted on the three-axis transmission mechanism and drives the cutting nipper assembly to rotate along the horizontal direction.

Preferably, the nozzle shearing device further comprises a material collecting disc, the product to be sheared comprises a nozzle part and a plurality of product parts which are arranged on the outer side of the nozzle part and connected with the nozzle part, the nozzle part is borne on the clamp, the product parts are suspended on the outer side of the clamp, a shearing clamp is arranged on the outer side of the clamp for the operation of the shearing pliers assembly, the clamp mounting part extends out of the clamp to the direction of the shearing clamp and forms a mounting table for bearing the material collecting disc, and the material collecting disc is borne on the mounting table and is opposite to the position of the shearing clamp. After processing is accomplished, the product directly falls into and receives the charging tray, need not the manual work and collects, and production efficiency is high.

Preferably, the three-axis transmission mechanism includes an X-axis transmission mechanism, a Y-axis transmission mechanism and a Z-axis transmission mechanism, the Y-axis transmission mechanism is mounted on the chassis platform and drives the fixture mounting member to slide along the Y-axis direction, the cutting nipper assembly is mounted on the Z-axis transmission mechanism and slides along the Z-axis direction along with the movement of the Z-axis transmission mechanism, the Z-axis transmission mechanism is mounted on the X-axis transmission mechanism and slides along the X-axis direction along with the movement of the X-axis transmission mechanism, and the X-axis transmission mechanism is mounted on the frame and located above the Y-axis transmission mechanism, so that the cutting nipper assembly is located above the chassis platform to perform cutting operation. The X shaft is arranged on the underframe platform, so that the space is saved, and the installation of the X shaft transmission mechanism and the Z shaft transmission mechanism is facilitated.

Preferably, at least two shearing pliers assemblies and at least two corresponding clamp assemblies are mounted on one underframe platform, the three-axis transmission mechanism drives the at least two shearing pliers assemblies and the at least two clamp assemblies to move relatively respectively, and the control mechanism can control the three-axis transmission mechanism to drive the at least two shearing pliers assemblies and the at least two corresponding clamp assemblies to synchronously move, so that the production efficiency is improved.

Drawings

Fig. 1 is a structural diagram of the first fixture for installing the nozzle shearing device of the present invention.

Fig. 2 is a side view of fig. 1.

Fig. 3 is a schematic structural view of the clamp assembly for mounting the first clamp according to the present invention.

Fig. 4 is an exploded view of fig. 3.

Fig. 5 is a structural diagram of the second fixture for mounting the nozzle shearing device of the present invention.

Fig. 6 is a schematic view of the structure of the second clamp for mounting the product to be sheared.

Figure 7 is an exploded schematic view of the second clamp and the product to be sheared.

Detailed Description

In order to explain technical contents, structural features, and objects and effects of the present invention in detail, the following description is given in conjunction with the embodiments and the accompanying drawings.

Referring to fig. 1 to 4, the utility model discloses a mouth of a river shearing equipment 100, including triaxial drive mechanism 10, cutting nipper subassembly 20 and chassis platform 30, and with the anchor clamps subassembly 40 that cutting nipper subassembly 20 corresponds, triaxial drive mechanism 10 drives cutting nipper subassembly 20 and chassis platform 30 relative movement, anchor clamps subassembly 40 includes anchor clamps installed part 41 and the fixed anchor clamps 42 of treating shearing product 80a, anchor clamps installed part 41 install in on chassis platform 30, anchor clamps installed part 41 with be equipped with the installation component 50 of mutually supporting on the anchor clamps 42 respectively, so that anchor clamps 42 demountable installation in on anchor clamps installed part 41.

In this embodiment, the three-axis transmission mechanism 10 includes an X-axis transmission mechanism 11, a Y-axis transmission mechanism 12, and a Z-axis transmission mechanism 13, the Y-axis transmission mechanism 12 is installed on the base frame platform 30 and drives the clamp installation member 41 to slide along the Y-axis direction, the cutting nipper assembly 20 is installed on the Z-axis transmission mechanism 13 and slides along the Z-axis direction along with the movement of the Z-axis transmission mechanism 13, the Z-axis transmission mechanism 13 is installed on the X-axis transmission mechanism 11 and slides along the X-axis direction along with the movement of the X-axis transmission mechanism 11, and the X-axis transmission mechanism 11 is installed on the frame 101 and located above the Y-axis transmission mechanism 12, so that the cutting nipper assembly 20 is located above the base frame platform 30 for cutting operation. In this embodiment, the positions of the cutting nipper assemblies 20 in the X-axis and Z-axis directions are adjusted by the X-axis transmission mechanism 11 and the Z-axis transmission mechanism 13, and the position of the clamp 42 in the Y-axis direction is adjusted by the Y-axis transmission mechanism 12, so that the cutting nipper assemblies 20 are aligned with the to-be-cut portion of the to-be-cut product 80a on the clamp 42. Of course, the Y-axis transmission mechanism 12 may be directly disposed between the X-axis transmission mechanism 11 and the Z-axis transmission mechanism 13, and the positions of the cutting nipper assemblies 20 in the X-axis, Y-axis and Z-axis directions may be adjusted through the X-axis transmission mechanism 11, the Y-axis transmission mechanism 12 and the Z-axis transmission mechanism 13.

In this embodiment, two cutting nipper assemblies 20 and two corresponding clamp assemblies 40 are mounted on one of the chassis platforms 30, the three-axis transmission mechanism 10 respectively drives the two cutting nipper assemblies 20 and the two clamp assemblies 40 to move relatively, and the control mechanism can control the three-axis transmission mechanism 10 to drive the two cutting nipper assemblies 20 and the two corresponding clamp assemblies 40 to move synchronously, so as to improve the production efficiency. Of course, one cutting nipper assembly 20 and the corresponding clamp assembly 40, and three cutting nipper assemblies 20 and the corresponding clamp assemblies 40 may also be installed on one of the underframe platforms 30, wherein one cutting nipper assembly 20 may correspond to one clamp assembly 40, and may also correspond to a plurality of clamp assemblies 40.

Referring to fig. 4, the mounting assembly 50 includes a plurality of first screw holes 51 formed in the clamp mounting member 41 and a plurality of first mounting holes 52 formed in the clamp 42 and aligned with the first screw holes 51, and at least two first fixing screws 53 respectively pass through the first mounting holes 52 and are threadedly mounted in the corresponding first screw holes 51 to detachably mount the clamp 42 to the clamp mounting member 41. The first screw holes 51 are divided into two groups and arranged on two opposite sides of the fixture mounting member 41, and each group of the first screw holes 51 is arranged in at least two rows, each row having a plurality of first screw holes 51.

Referring to fig. 3 and 4, the jig mounting member 41 includes a plate mounting block 411 and a jig mounting plate 412, the plate mounting block 411 is mounted on the undercarriage platform 30, the jig mounting plate 412 is mounted on the plate mounting block 411, and the first screw hole 51 is provided on the jig mounting plate 412. The clamp mounting plate 412 and the plate mounting block 411 are respectively provided with a second mounting hole 413 and a second screw hole 414 which are opposite to each other, and a second fixing screw (not shown) can pass through the second mounting hole 413 and be screwed in the second screw hole 414 to mount the clamp mounting plate 412 on the plate mounting block 411. In this embodiment, the panel mounting block 411 and the fixture mounting plate 412 are fixed together by a fixing screw capable of being freely turned, but the panel mounting block 411 and the fixture mounting plate 412 may also be directly clamped together by a clamping component, and an operating element is connected to the clamping component and controls the clamping locking and unlocking of the clamping component.

Referring to fig. 3 to 7, the fixture 42 includes a plurality of fixtures, wherein at least two different fixtures are provided, one fixture is a first fixture 42a, and the other fixture is a second fixture 42b, a portion of the first screw hole 51 is opposite to and matches with a first mounting hole 52 of the first fixture 42a, and a portion of the first screw hole 51 is opposite to and matches with a second mounting hole of the second fixture 42 b.

Referring to fig. 3 and 4, the first fixture 42a includes a fixture body 61 and clamping areas 62 formed on two opposite sides of the fixture body 61, the product 80a to be sheared includes a water port 81 and a product portion 82, a clamping groove 621 for clamping the water port 82 is provided in the clamping area 62, the first mounting hole 52 is provided on the fixture body 61, a second rotating mechanism 22 is further provided between the cutting nipper assembly 20 and the three-axis transmission mechanism 10, the cutting nipper assembly 20 is mounted on the second rotating mechanism 22, and the second rotating mechanism 22 is mounted on the three-axis transmission mechanism 10 and drives the cutting nipper assembly 20 to rotate along a horizontal direction.

Preferably, the nozzle shearing apparatus 100 further comprises a material receiving tray 43, the nozzle portion 81 is carried on the first clamp 42a, the product portion 82 is suspended outside the first clamp 42a, and the clamp mounting plate 412 extends to the outside of the first clamp 42a and forms a mounting platform 44 for carrying the material receiving tray 43. In this embodiment, the cutting nipper assemblies 20 perform the cutting operation on two sides of the first clamping device 42a, i.e., two cutting nippers are located on two sides of the first clamping device 42a, and the mounting platforms 44 are formed on two opposite sides of the clamping device mounting plate 412.

When the three-axis transmission mechanism 10 works, the three-axis transmission mechanism 10 drives the cutting nipper assembly 20 to be opposite to a specific position to be cut of a product 80a to be cut fixed on the first clamp 42a, the second rotating mechanism 22 is controlled to rotate to a corresponding cutting direction, the three-axis transmission mechanism 10 is controlled to move the cutting nipper assembly 20 to descend to a cutting height along the Z-axis direction, finally the cutting nipper assembly 20 is controlled to act to perform cutting operation, after the cutting operation is completed, the three-axis transmission mechanism 10 is controlled to move the cutting nipper assembly 20 to ascend to a moving position along the Z-axis direction, the three-axis transmission mechanism 10 is controlled to move the position of the first clamp 42a in the Y-axis direction to move to a specific position for next cutting, the next cutting nipper operation is performed, when the cutting nipper operation on one side of the first clamp 42a is completed, the three-axis transmission mechanism 10 is controlled to move the cutting nipper assembly 20 in, so as to carry out the shearing operation of the other side shearing clamp.

Referring to fig. 5 to 7, the second fixture 42b is configured to clamp another product 80b to be cut, the second fixture 42b includes a base plate 71, a fixing frame 72 fixed on the base plate 71, a first rotating mechanism 73 fixed on the fixing frame 72, and a clamping disc 74 installed on the first rotating mechanism 73, the product 80b to be cut includes a water gap portion 81b and a plurality of product portions 82b disposed around the water gap portion 81b and connected to the water gap portion 81b, a plurality of clamping grooves 741 clamping the water gap portion 81b are formed on the clamping disc 74 along an axial direction thereof, the first mounting hole 52 is disposed on the base plate 71, and the first rotating mechanism 73 is installed on the fixing frame 72 and drives the clamping disc 74 to rotate. The first rotating mechanism 73 includes a stepping motor.

Each clamping groove 741 is used for bearing one or more injection nozzles of the nozzle part 81b, in this embodiment, one clamping groove 741 clamps two injection nozzles, each nozzle part 81b includes a plurality of injection nozzles arranged along the central axis thereof and an annular nozzle connected to the end of the injection nozzle, and all product parts 82b are uniformly arranged along the extension of the annular nozzle at a certain interval.

In the present embodiment, a second clamp 42b corresponds to a set of the cutting nipper assemblies 20, so that one clamp 42b corresponds to one cutting nipper, and when one clamp corresponds to a plurality of sets of the cutting nipper assemblies 20, the clamp corresponds to a plurality of cutting nipper. The clamp mounting plate 412 extends from the second clamp 42b to the direction of the shearing clamp and forms a mounting table 44 for supporting a material receiving tray 43, and the material receiving tray 43 is supported on the mounting table 44 and is opposite to the position of the shearing clamp. Specifically, the cutting nipper is located at one side of the second clamp 42b, when the second clamp 42b is installed, the installation table 44 is formed at the clamp installation plate 412, the corresponding side of the cutting nipper assembly 20 for cutting the product is formed, in this embodiment, the product 80b to be cut is rotated by the first rotating mechanism 73, the cutting nipper assembly 20 performs the cutting operation at a fixed position, so the installation table 44 is installed at one side of the cutting nipper assembly 20 for cutting the product, and the material collecting tray 43 is correspondingly installed on the installation table 44.

The above disclosure is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the scope of the invention, therefore, the invention is not limited thereto.

Claims (10)

1. The utility model provides a mouth of a river shearing equipment, includes triaxial drive mechanism, cutting nipper subassembly and chassis platform, triaxial drive mechanism drives cutting nipper subassembly and chassis platform relative movement, its characterized in that: the shearing pliers comprises a base frame platform, and is characterized by further comprising a clamp assembly corresponding to the shearing pliers assembly, wherein the clamp assembly comprises a clamp mounting piece and a clamp for fixing a product to be sheared, the clamp mounting piece is mounted or formed on the base frame platform, and mounting assemblies matched with each other are respectively arranged on the clamp mounting piece and the clamp, so that the clamp can be detachably mounted on the clamp mounting piece.

2. A nozzle shearing apparatus as claimed in claim 1, wherein: the mounting assembly comprises a plurality of first screw holes formed in the fixture mounting piece and at least two first mounting holes formed in the fixture and aligned with the first screw holes, and at least two first fixing screws respectively penetrate through the first mounting holes and are in threaded mounting in the corresponding first screw holes so as to detachably mount the fixture on the fixture mounting piece.

3. A nozzle shearing apparatus as claimed in claim 1, wherein: the fixture mounting piece comprises a flat mounting block and a fixture mounting plate, the flat mounting block is mounted on the underframe platform, the fixture mounting plate is mounted on the flat mounting block, and the mounting assembly is arranged on the fixture mounting plate.

4. A nozzle shearing apparatus as claimed in claim 3, wherein: the clamp mounting plate and the flat plate mounting block are respectively provided with a second mounting hole and a second screw hole which are opposite in position, and a second fixing screw can penetrate through the second mounting hole and is in threaded mounting in the second screw hole so as to mount the clamp mounting plate on the flat plate mounting block.

5. A nozzle shearing apparatus as claimed in claim 1, wherein: the clamp comprises a first clamp, the first clamp comprises a clamp body and a clamping area formed on multiple sides of the clamp body, the mounting assembly is arranged on the clamping body, a product to be sheared comprises a water port and a product portion arranged on the multiple sides of the water port and connected with the water port, a clamping groove for clamping the water port is formed in the clamping area, the product portion is suspended outside the corresponding side of the first clamp, and the first clamp and the outer side corresponding to the product portion are provided with corresponding shearing and clamping points.

6. A nozzle shearing apparatus as claimed in claim 1, wherein: the fixture comprises a second fixture, the second fixture comprises a base plate, a fixing frame fixed on the base plate, a first rotating mechanism fixed on the fixing frame and a clamping disc installed on the first rotating mechanism, the installation assembly is arranged on the base plate, the product to be sheared comprises a water port part and a plurality of product parts arranged around the water port part and connected with the water port part, a plurality of clamping grooves for clamping the water port part are formed in the clamping disc along the axial direction of the clamping disc, the product parts are suspended outside the clamping disc, the outer side of the clamping disc is provided with a shearing clamp position corresponding to the shearing clamp assembly, and the first rotating mechanism is installed on the fixing frame and drives the clamping disc to rotate.

7. A nozzle shearing apparatus as claimed in claim 5 or claim 6, wherein: and a second rotating mechanism is further arranged between the shearing pliers assembly and the three-shaft transmission mechanism, the shearing pliers assembly is arranged on the second rotating mechanism, and the second rotating mechanism is arranged on the three-shaft transmission mechanism and drives the shearing pliers assembly to rotate along the horizontal direction.

8. A nozzle shearing apparatus as claimed in any one of claims 1 to 6, wherein: still include the receipts charging tray, treat to cut the product and include the water mouth portion and locate the water mouth portion outside and with a plurality of product portion that the water mouth portion links to each other, the water mouth portion bear in on the anchor clamps, product portion hang in the anchor clamps outside, the outside of anchor clamps is provided with cuts the clamp in order to supply cut pincers subassembly operation, the anchor clamps installed part is followed anchor clamps department stretches out to cut the clamp place direction and form the mount table that bears the receipts charging tray, the receipts charging tray bear in on the mount table and with cut the position of clamp relatively.

9. A nozzle shearing apparatus as claimed in claim 1, wherein: the three-axis transmission mechanism comprises an X-axis transmission mechanism, a Y-axis transmission mechanism and a Z-axis transmission mechanism, the Y-axis transmission mechanism is installed on the chassis platform and drives the fixture mounting piece to slide along the Y-axis direction, the shearing clamp assembly is installed on the Z-axis transmission mechanism and slides along the Z-axis direction along with the action of the Z-axis transmission mechanism, the Z-axis transmission mechanism is installed on the X-axis transmission mechanism and slides along the X-axis direction along with the action of the X-axis transmission mechanism, and the X-axis transmission mechanism is installed on the rack and located above the Y-axis transmission mechanism so that the shearing clamp assembly is located above the chassis platform to perform shearing operation.

10. A nozzle shearing apparatus as claimed in claim 1, wherein: and one, at least two shearing pliers components and at least two corresponding clamp components are arranged on the underframe platform, and the three-shaft transmission mechanism drives the at least two shearing pliers components and the at least two clamp components to move relatively respectively.

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