CN114193541A - Intelligent processing equipment for processing inner mold injection molding piece - Google Patents

Abstract

The invention relates to the technical field of injection molding part machining, in particular to intelligent machining equipment for machining an internal mold injection molding part, which comprises a numerical control machine tool body, wherein two feeding mechanisms are detachably connected to the numerical control machine tool body, locking mechanisms are installed on the feeding mechanisms, clamping mechanisms are connected to the feeding mechanisms, limiting mechanisms are installed on the clamping mechanisms, adsorption mechanisms are installed on the feeding mechanisms, and control mechanisms are connected to the feeding mechanisms; install on the digit control machine tool body through feed mechanism and blocked mechanical system cooperation, be favorable to conveniently carrying out material loading processing in turn to the work piece that needs finish machining, improved the efficiency of production, be favorable to fixing a position the centre gripping to the work piece of processing through fixture and stop gear's cooperation and place, convenient operation is efficient, work through feed mechanism makes adsorption equipment construct and control mechanism work in turn, it is firm to be favorable to adsorbing the work piece of processing on the feed mechanism, can not cause the work piece not hard up.

Description

Intelligent processing equipment for processing inner mold injection molding piece

Technical Field

The invention relates to the technical field of injection molding part processing, in particular to intelligent processing equipment for processing an internal mold injection molding part.

Background

The centre form injection molding is through the work piece that raw and other materials melt back injection extrusion cooling becomes, and the wide application is in the production of opposite sex work piece, and after the work piece was moulded plastics and is accomplished, there were the arch and the burr of mouthful clout of moulding plastics on the work piece, need cut through digit control machine tool to the arch on the work piece and peripheral burr and clear away to make workpiece surface smooth, make things convenient for follow-up production.

However, traditional digit control machine tool when handling the finish machining of work piece, need artifical single the material loading to place, the operating efficiency that makes a round trip is low to inconvenient carry out the centre gripping to the work piece fixed, it is also very loaded down with trivial details to operate, and consuming time and labouring has reduced holistic production efficiency.

Disclosure of Invention

Aiming at the problems in the prior art, the invention provides intelligent processing equipment for processing an inner mold injection molding piece.

The technical scheme adopted by the invention for solving the technical problems is as follows: the utility model provides an intelligent processing equipment that centre form injection molding processing was used, includes the digit control machine tool body, can dismantle on the digit control machine tool body and be connected with two feed mechanisms, the last blocked mechanical system that installs of feed mechanism, the last fixture that is connected with of feed mechanism, the last stop gear that installs of fixture, the last adsorption equipment that installs of feed mechanism, the last control mechanism that is connected with of feed mechanism.

Specifically, feed mechanism includes the fixed plate, can dismantle the fixed plate that is connected with two parallels on the digit control machine tool body, be equipped with the standing groove on the fixed plate, sliding connection has two on the fixed plate and places the board, two place board and standing groove inside through two sets of slide bar sliding connection, two place board bottom fixedly connected with rack respectively to the relative side, fixed plate center department rotates and is connected with the gear, two rack and gear engagement, one of them place board and standing groove top conflict, another place board and standing groove bottom conflict.

Specifically, blocked mechanical system includes the draw-in groove, two the fixed plate inboard is equipped with two draw-in grooves, draw-in groove and standing groove intercommunication, two sets of place board one end center department and install the bayonet lock respectively, bayonet lock one end through the conflict spring with place the inside sliding connection of board, bayonet lock and draw-in groove are "J" shape structure, one of them bayonet lock and the inside block of draw-in groove, install the ejector pad on the bayonet lock, the ejector pad passes through the bayonet lock and places the outside sliding connection of board, fixedly connected with guide arm on the bayonet lock, the guide arm runs through in the conflict spring and places the inside sliding connection of board.

Specifically, fixture includes the locating plate, and is two sets of place on the board respectively fixedly connected with locating plate, the locating plate is "U" font structure, the locating plate both sides are equipped with movable groove, movable groove internally mounted has the movable rod, sliding connection has the extrusion spring on the movable rod, be equipped with splint on the locating plate, splint both ends are passed through movable rod and the inside sliding connection of movable groove, extrusion spring one end is contradicted with splint, the extrusion spring other end is contradicted with the movable inslot portion.

Specifically, stop gear includes the slider, the inside sliding connection in splint both ends has the slider, the slider is "concave" font structure, the block rubber is installed at the slider both ends, the block rubber extends to splint outside and is contradicted with the locating plate inside wall, the pull rod of symmetry, two is installed at the inside both ends of splint the pull rod passes through expanding spring and the inside sliding connection of splint, two pull rod one end respectively with slider fixed connection, two the pull rod other end is installed respectively and is pushed away the knot, push away to detain and extend to the splint outside, push away and detain and splint sliding connection.

Specifically, the adsorption mechanism comprises a through groove, two groups of placing plates are provided with a through groove at the center, sealing rings are mounted on the inner sides of the through grooves, a plurality of rubber pads distributed at equal intervals are arranged on the through groove, a breathable plate is mounted on the placing plate and attached to the plurality of rubber pads, a communicating groove is formed in one end of the placing plate and communicated with the inside of the through groove, a leather sheath is mounted on the inner side of one end of the placing plate and communicated with the communicating groove, two guide pipes are mounted on the inner side of the top of each fixing plate respectively, the guide pipes pass through a buffer spring and a sliding workpiece on the inner side of each fixing plate, one end of each guide pipe extends to the inside of the placing groove, one guide pipe extends to the inner clamping part of the leather sheath, an air inlet pipe is mounted on each fixing plate respectively, and the air inlet pipe is communicated with the guide pipes through the guide grooves.

The control mechanism comprises a leather plug and two leather plugs arranged inside one end of the fixing plate, the leather plugs are connected with the sliding workpiece inside the fixing plate through pressing springs, the leather plugs extend to the inside of the guide groove, the guide groove is formed in the leather plugs, and the ejector rod is arranged on the leather plugs and extends to the inside of the placing groove.

The invention has the beneficial effects that:

(1) the intelligent processing equipment for processing the internal mold injection molding piece is arranged on the numerical control machine tool body through the matching of the feeding mechanism and the locking mechanism, is favorable for conveniently carrying out alternate feeding processing on the workpiece needing finish machining, and improves the production efficiency, namely: the placing plate is beneficial to placing workpieces to be processed under the action of the two placing plates, the two placing plates which are distributed diagonally are beneficial to sliding on the fixed plate under the action of the two groups of sliding rods, meanwhile, under the action of the rack and the gear, one placing plate is pushed to enable the other placing plate to slide reversely, so that the workpieces on the two placing plates are fed and processed in turn, the time consumption in feeding is reduced, the processing efficiency is improved, after the placing plates are abutted against the bottom of the placing groove, the clamping pin is clamped and limited with the inside of the clamping groove under the action of the abutting spring and the guide rod, the placing plates cannot slide, better feeding and workpiece processing on the other placing plate are beneficial, the pushing block is pushed to drive the clamping pin to be separated from the inside of the clamping groove under the action of the abutting spring, and the placing plates which are completely fed can be conveniently pushed and processed, and the other placing plates can slide, and the placing plate is limited by the clamping of the clamping pin and the clamping groove.

(2) The intelligent processing equipment for processing the internal mold injection molding part is beneficial to positioning, clamping and placing the processed workpiece through the matching of the clamping mechanism and the limiting mechanism, is convenient to operate and has high efficiency, namely: be favorable to the convenience to fixing a position the work piece of placing on placing the board under the effect through the locating plate, and drive splint slide in the locating plate inboard under the effect through extrusion spring, be favorable to carrying out the centre gripping of contradicting to the work piece that the locating plate inboard was placed, make the work piece centre gripping stable can not squint, and make things convenient for the follow-up unloading of dismantling the work piece to the work piece, be favorable to contradicting the pull rod under the effect through expanding spring, pull rod drive slider and block rubber are inseparable with the inboard conflict of locating plate, spacing effect has been played, make difficult slip behind the splint centre gripping, push away through extruding two and detain, make to push away to buckle and move the pull rod and pull the slider under the effect that the expanding spring breaks away from, slider and block rubber and the inboard separation of locating plate, thereby make things convenient for splint slip to dismantle the work piece.

(3) According to the intelligent processing equipment for processing the internal mold injection molding part, the adsorption mechanism and the control mechanism work in turn through the work of the feeding mechanism, so that the work piece processed on the feeding mechanism can be adsorbed firmly, and the work piece can not be loosened, namely: the gas of the vacuum pump is communicated with the guide groove and the guide pipe through the communication of the gas inlet pipe and an external pipeline, when one placing plate slides to the top of the fixed plate, the guide pipe can be inserted into the leather sheath, so that the gas is adsorbed to the inside of the through groove through the communication groove, the adsorption area is increased through the action of a plurality of rubber pads, and the dispersed adsorption force is generated through the ventilating plate, so that the work piece on the placing plate is firmly adsorbed and convenient to process, when the other placing plate is subjected to upward sliding processing, the placing plate is separated from the guide pipe, so that the adsorption force is avoided, the processed work piece is convenient to disassemble, the guide groove is blocked by the leather plug under the action of the pressing spring, the gas cannot be circulated and adsorbed, the waste is avoided, after the guide pipe is inserted into the leather sheath after the placing plate is abutted against the top of the fixed plate, and meanwhile, the placing plate drives one ejector rod, so that the ejector rod drives the leather plug to slide under the action of the pressing spring, thereby make guiding gutter and guide slot intercommunication on the leather plug, be favorable to producing the adsorption affinity and adsorb the work piece, through placing keeping away from of board, make the ejector pin zero pressure, drive the leather plug under the effect of pressing the spring and block up the guide slot.

Drawings

The invention is further illustrated with reference to the following figures and examples.

Fig. 1 is a schematic overall structure diagram of a preferred embodiment of an intelligent processing device for processing an internal mold injection molding part according to the present invention;

FIG. 2 is an enlarged view of the part A shown in FIG. 1;

FIG. 3 is a schematic view of the connection structure of the fixing plate, the placing plate and the sliding rod of the present invention;

FIG. 4 is a schematic view of a connection structure of the positioning plate and the clamping plate according to the present invention;

FIG. 5 is an enlarged view of the structure of the portion B shown in FIG. 3;

FIG. 6 is an enlarged view of the structure of the portion C shown in FIG. 3;

fig. 7 is an enlarged view of the structure of the portion D shown in fig. 3.

In the figure: 1. a numerical control machine tool body; 2. a feeding mechanism; 201. a fixing plate; 202. placing the plate; 203. a placement groove; 204. a slide bar; 205. a gear; 206. a rack; 3. a locking mechanism; 301. a push block; 302. a bayonet lock; 303. against the spring; 304. a guide bar; 305. a card slot; 4. a clamping mechanism; 401. positioning a plate; 402. a movable groove; 403. a splint; 404. a compression spring; 405. a movable rod; 5. a limiting mechanism; 501. pushing and buckling; 502. a pull rod; 503. a tension spring; 504. a slider; 505. a rubber block; 6. an adsorption mechanism; 601. a gas permeable plate; 602. an air inlet pipe; 603. a guide groove; 604. a buffer spring; 605. a conduit; 606. a leather sheath; 607. a communicating groove; 608. a seal ring; 609. a through groove; 610. a rubber pad; 7. a control mechanism; 701. a plug of leather; 702. a pressing spring; 703. a top rod; 704. and a diversion trench.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

As shown in fig. 1-7, the intelligent processing equipment for processing the internal mold injection molding part comprises a numerical control machine tool body 1, wherein two feeding mechanisms 2 are detachably connected to the numerical control machine tool body 1, locking mechanisms 3 are installed on the feeding mechanisms 2, clamping mechanisms 4 are connected to the feeding mechanisms 2, limiting mechanisms 5 are installed on the clamping mechanisms 4, adsorption mechanisms 6 are installed on the feeding mechanisms 2, and control mechanisms 7 are connected to the feeding mechanisms 2.

Specifically, the feeding mechanism 2 includes a fixed plate 201, two parallel fixed plates 201 are detachably connected to the numerically-controlled machine tool body 1, a placing groove 203 is formed in the fixed plate 201, two placing plates 202 are slidably connected to the fixed plate 201, the two placing plates 202 are slidably connected to the inside of the placing groove 203 through two sets of sliding rods 204, racks 206 are fixedly connected to opposite sides of the bottoms of the two placing plates 202 respectively, a gear 205 is rotatably connected to the center of the fixed plate 201, the two racks 206 are engaged with the gear 205, one of the placing plates 202 abuts against the top of the placing groove 203, the other placing plate 202 abuts against the bottom of the placing groove 203, the workpiece to be machined is favorably placed under the action of the two placing plates 202, the two placing plates 202 which are diagonally distributed are favorably slide on the fixed plate 201 under the action of the two sets of sliding rods 204, meanwhile, under the action of the rack 206 and the gear 205, one of the placing plates 202 is pushed to enable the other placing plate 202 to slide reversely, so that workpieces on the two placing plates 202 are fed and processed in turn, time consumption in feeding is reduced, and processing efficiency is improved.

Specifically, the locking mechanism 3 includes a clamping groove 305, two clamping grooves 305 are disposed on the inner sides of the two fixing plates 201, the clamping grooves 305 are communicated with the placing grooves 203, two sets of placing plates 202 are respectively provided with a clamping pin 302 at the center of one end, one end of each clamping pin 302 is slidably connected with the inside of the placing plate 202 through a butting spring 303, the clamping pins 302 and the clamping grooves 305 are both in a "J" shape structure, one clamping pin 302 is clamped with the inside of the clamping groove 305, the clamping pin 302 is provided with a push block 301, the push block 301 is slidably connected with the outer side of the placing plate 202 through the clamping pin 302, the clamping pin 302 is fixedly connected with a guide rod 304, the guide rod 304 penetrates through the butting spring 303 and is slidably connected with the inside of the placing plate 202, and after the placing plate 202 is abutted against the bottom of the placing groove 203, the clamping pin 302 is clamped and limited with the inside of the clamping groove 305 under the action of the butting spring 303 and the guide rod 304, the placing plate 202 cannot slide, better feeding and workpiece processing on the other placing plate 202 are facilitated, the pushing block 301 is pushed to drive the clamping pin 302 to break away from the inside of the clamping groove 305 under the action of the abutting spring 303, so that the placing plate 202 which is fed with materials is pushed and processed conveniently, the other placing plate 202 slides downwards, and the placing plate 202 is limited through the clamping of the clamping pin 302 and the clamping groove 305.

Specifically, the clamping mechanism 4 includes positioning plates 401, two sets of the positioning plates 202 are fixedly connected with the positioning plates 401 respectively, the positioning plates 401 are u-shaped structures, two sides of the positioning plates 401 are provided with movable grooves 402, movable rods 405 are installed inside the movable grooves 402, extrusion springs 404 are slidably connected to the movable rods 405, the positioning plates 401 are provided with clamping plates 403, two ends of the clamping plates 403 are slidably connected to the inside of the movable grooves 402 through the movable rods 405, one end of each extrusion spring 404 is abutted to the corresponding clamping plate 403, the other end of each extrusion spring 404 is abutted to the inside of the corresponding movable groove 402, a workpiece placed on the corresponding positioning plate 202 can be conveniently positioned under the action of the positioning plates 401, the clamping plates 403 are driven to slide on the inner sides of the positioning plates 401 under the action of the extrusion springs 404, and the workpiece placed on the inner sides of the positioning plates 401 can be clamped, the workpiece is clamped stably and cannot deviate, and the workpiece is conveniently and subsequently detached and blanked.

Specifically, the limiting mechanism 5 includes a sliding block 504, the sliding blocks 504 are connected to the two ends of the clamping plate 403 in a sliding manner, the sliding block 504 is of a concave structure, the rubber blocks 505 are installed at the two ends of the sliding block 504, the rubber blocks 505 extend to the outside of the clamping plate 403 to be abutted against the inner side wall of the positioning plate 401, the symmetrical pull rods 502 are installed at the two ends of the clamping plate 403, the two pull rods 502 are connected with the inside of the clamping plate 403 in a sliding manner through expansion springs 503, one end of each of the two pull rods 502 is fixedly connected with the sliding block 504, the other end of each of the two pull rods 502 is provided with a push buckle 501, the push buckles 501 extend to the outside of the clamping plate 403, the push buckles 501 are connected with the clamping plate 403 in a sliding manner, the push rods 502 are favorably abutted against the pull rods 502 under the action of the expansion springs 503, and the pull rods 502 drive the sliding block 504 and the rubber blocks 505 to be abutted against the inner side of the positioning plate 401 tightly, the limiting effect is achieved, the clamping plate 403 is not prone to sliding after being clamped, the push buckle 501 is pushed by two pieces, the push buckle 501 drives the pull rod 502 to get rid of the pulling of the sliding block 504 under the action of the telescopic spring 503, the sliding block 504 and the rubber block 505 are separated from the inner side of the positioning plate 401, and therefore the clamping plate 403 can slide to disassemble a workpiece conveniently.

Specifically, the adsorption mechanism 6 includes a through groove 609, a through groove 609 is provided at the center of two sets of the placing plates 202, a sealing ring 608 is installed inside the through groove 609, a plurality of rubber pads 610 distributed at equal intervals are provided on the through groove 609, a ventilation plate 601 is installed on the placing plate 202, the ventilation plate 601 is attached to the plurality of rubber pads 610, a communication groove 607 is provided inside one end of the placing plate 202, the communication groove 607 is communicated with the inside of the through groove 609, a leather sheath 606 is installed inside one end of the placing plate 202, the leather sheath 606 is communicated with the communication groove 607, two guide pipes 605 are respectively installed on the inner sides of the tops of two fixing plates 201, the guide pipes 605 are connected with the sliding workpiece inside the fixing plate 201 through a buffer spring 604, one end of the guide pipe 605 extends into the placing groove 203, one of the guide pipes 605 extends into the leather sheath 606 to be engaged, and the two fixing plates 201 are respectively provided with an air inlet pipe 602, the air inlet pipe 602 is communicated with the guide pipe 605 through the guide groove 603, the air of the vacuum pump is communicated with the guide groove 603 and the guide pipe 605 through the communication of the air inlet pipe 602 and an external pipeline, when one of the placing plates 202 slides to the top of the fixing plate 201, the guide tube 605 is inserted into the leather sheath 606, so that the gas is absorbed into the through groove 609 through the communication groove 607, the sealing ring 608 is used to seal the periphery, and the absorption area is increased by the plurality of rubber pads 610, and the dispersed adsorption force is generated by the ventilation plate 601, which is beneficial to firmly adsorbing the workpiece on the placing plate 202 and is convenient for processing, when another placing plate 202 is slid up, the placing plate 202 is separated from the guide pipe 605, so that the adsorption force is avoided, and the processed workpiece is convenient to detach.

Specifically, the control mechanism 7 includes a leather plug 701, two leather plugs 701 are installed inside one end of the two fixing plates 201, the leather plugs 701 slide along the inside of the fixing plates 201 through a pressing spring 702, the leather plugs 701 extend into a guide groove 603, a guide groove 704 is arranged on the leather plug 701, a push rod 703 is installed on the leather plug 701, the push rod 703 extends into a placing groove 203, the leather plugs 701 block the guide groove 603 under the action of the pressing spring 702, so that gas cannot flow and be adsorbed, and no waste is caused, after the placing plate 202 slides and abuts against the top of the fixing plate 201, the guide pipe 605 is inserted into the leather sheath 606, and simultaneously the placing plate 202 drives one of the push rods 703 to make the push rod 703 drive the leather plug 701 to slide under the action of the pressing spring 702, so that the guide groove 704 on the leather plug 701 communicates with the guide groove 603, the adsorption force is favorably generated to adsorb a workpiece, the ejector rod 703 has no pressure through the separation of the placing plate 202, and the leather plug 701 is driven to block the guide groove 603 under the action of the pressing spring 702.

When the invention is used, firstly, two corrected fixed plates 201 are installed on a numerical control machine tool body 1 through bolts, the workpieces to be processed are favorably placed under the action of the two placing plates 202, the two placing plates 202 which are distributed diagonally are favorably slide on the fixed plates 201 under the action of the two groups of sliding rods 204, meanwhile, under the action of the rack 206 and the gear 205, one placing plate 202 is pushed to enable the other placing plate 202 to slide reversely, so that the workpieces on the two placing plates 202 are fed and processed in turn, the time consumption in feeding is reduced, the processing efficiency is improved, after the placing plates 202 are abutted against the bottoms of the placing grooves 203, the clamping pins 302 are clamped and limited with the insides of the clamping grooves 305 under the action of the abutting springs 303 and the guide rods 304, the placing plates 202 cannot slide, and the better feeding and the processing of the workpieces on the other placing plates 202 are favorably realized, the pushing block 301 is pushed to enable the pushing block 301 to drive the clamping pin 302 to get rid of the separation from the inside of the clamping groove 305 under the action of the abutting spring 303, so that the loaded placing plate 202 is convenient to push and process, the other placing plate 202 slides downwards, the placing plate 202 is limited through the clamping of the clamping pin 302 and the clamping groove 305, the positioning plate 401 is favorable for conveniently positioning a workpiece placed on the placing plate 202, the extrusion spring 404 is used for driving the clamping plate 403 to slide on the inner side of the positioning plate 401, the workpiece placed on the inner side of the positioning plate 401 is favorable for abutting and clamping, the workpiece is clamped stably and not to deviate, the subsequent workpiece is convenient to disassemble and blank, the expansion spring 503 is favorable for abutting the pull rod 502, the pull rod 502 drives the sliding block 504 and the rubber block 505 to abut against the inner side of the positioning plate 401 tightly, the limiting effect is achieved, and the clamping plate 403 is not easy to slide after being clamped, the two push buttons 501 are extruded to enable the push buttons 501 to drive the pull rod 502 to get rid of the pulling of the slide block 504 under the action of the expansion spring 503, the slide block 504 and the rubber block 505 are separated from the inner side of the positioning plate 401, so that the workpiece can be conveniently dismounted by the sliding of the clamping plate 403, the air of the vacuum pump is communicated with the guide groove 603 and the guide pipe 605 through the communication between the air inlet pipe 602 and an external pipeline, when the placing plate 202 slides to the top of the fixing plate 201 through one of the placing plates, the guide pipe 605 is inserted into the leather sheath 606, so that the air is adsorbed to the inside of the through groove 609 through the communication groove 607, the adsorption area is increased through the action of the plurality of rubber pads 610, and the dispersed adsorption force is generated through the air permeable plate 601, so that the workpiece on the placing plate 202 can be firmly adsorbed, the processing is convenient, when the placing plate 202 slides upwards, the placing plate 202 is separated from the guide pipe 605, so that the adsorption force is avoided, and the workpiece after being processed can be conveniently dismounted, make the leather plug 701 block up to guide slot 603 under the effect through pressing down spring 702, make gaseous unable circulation adsorb, can not cause the waste, after supporting with fixed plate 201 top through the slip of placing board 202, inside pipe 605 inserts leather sheath 606, place board 202 simultaneously and drive one of them ejector pin 703, make ejector pin 703 drive leather plug 701 break away from to slide under the effect of pressing down spring 702, thereby make guiding gutter 704 on the leather plug 701 and guide slot 603 communicate, be favorable to producing the adsorption affinity and adsorb the work piece, through placing keeping away from of board 202, make ejector pin 703 pressureless, drive leather plug 701 and block up to guide slot 603 under the effect of pressing down spring 702.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (10)

1. The intelligent processing equipment for processing the inner mold injection molding part is characterized by comprising a numerical control machine tool body (1), wherein two feeding mechanisms (2) are detachably connected to the numerical control machine tool body (1), locking mechanisms (3) are installed on the feeding mechanisms (2), clamping mechanisms (4) are connected to the feeding mechanisms (2), limiting mechanisms (5) are installed on the clamping mechanisms (4), adsorption mechanisms (6) are installed on the feeding mechanisms (2), and control mechanisms (7) are connected to the feeding mechanisms (2);

the feeding mechanism (2) comprises a fixing plate (201), the numerical control machine tool body (1) is detachably connected with two parallel fixing plates (201), a placing groove (203) is formed in the fixing plate (201), the fixing plate (201) is connected with two placing plates (202) in a sliding mode, the two opposite sides of the bottom of each placing plate (202) are fixedly connected with a rack (206) respectively, the center of the fixing plate (201) is rotatably connected with a gear (205), the two racks (206) are meshed with the gear (205), one of the placing plates (202) is abutted to the top of the placing groove (203), and the other placing plate (202) is abutted to the bottom of the placing groove (203).

2. The intelligent processing equipment for processing the internal mold injection molding part according to claim 1, wherein: two groups of sliding rods (204) are respectively arranged on the two fixing plates (201), and the placing plate (202) is in sliding connection with the two sliding rods (204).

3. The intelligent processing equipment for processing the internal mold injection molding part according to claim 1, wherein: the locking mechanism (3) comprises clamping grooves (305), two clamping grooves (305) are formed in the inner sides of the fixing plates (201), the clamping grooves (305) are communicated with the placing grooves (203), clamping pins (302) are respectively installed at the centers of one ends of two groups of placing plates (202), one end of each clamping pin (302) is in sliding connection with the inside of each placing plate (202) through a contact spring (303), one clamping pin (302) is clamped with the inside of each clamping groove (305), a push block (301) is installed on each clamping pin (302), and the push block (301) is in sliding connection with the outer side of each placing plate (202) through the clamping pins (302).

4. The intelligent processing equipment for processing the internal mold injection molding part according to claim 3, wherein: the clamping pin (302) and the clamping groove (305) are both of J-shaped structures, a guide rod (304) is fixedly connected to the clamping pin (302), and the guide rod (304) penetrates through the abutting spring (303) and is connected with the inner portion of the placing plate (202) in a sliding mode.

5. The intelligent processing equipment for processing the internal mold injection molding part according to claim 1, wherein: fixture (4) are including locating plate (401), and are two sets of respectively fixedly connected with locating plate (401) on placing board (202), locating plate (401) are "U" font structure, locating plate (401) both sides are equipped with movable groove (402), be equipped with splint (403) on locating plate (401), splint (403) both ends and movable groove (402) inside sliding connection, movable groove (402) inside sliding connection has extrusion spring (404), extrusion spring (404) one end is contradicted with splint (403), extrusion spring (404) other end and movable groove (402) inside are contradicted.

6. The intelligent processing equipment for processing the internal mold injection molding part according to claim 5, wherein: the movable groove (402) internally mounted has a movable rod (405), splint (403) both ends and movable rod (405) sliding connection, extrusion spring (404) and movable rod (405) sliding connection.

7. The intelligent processing equipment for processing the internal mold injection molding part according to claim 5, wherein: stop gear (5) include slider (504), splint (403) both ends inside sliding connection has slider (504), slider (504) are "concave" font structure, slider (504) both ends extend to splint (403) outside and locating plate (401) inside wall conflict, pull rod (502) of symmetry are installed at splint (403) inside both ends, two pull rod (502) are through expanding spring (503) and splint (403) inside sliding connection, two pull rod (502) one end respectively with slider (504) fixed connection, two pull rod (502) other end is installed respectively and is pushed away knot (501), push away and detain (501) and extend to splint (403) the outside, push away and detain (501) and splint (403) sliding connection.

8. The intelligent processing equipment for processing the internal mold injection molding part according to claim 7, wherein: rubber block (505) are installed at slider (504) both ends, rubber block (505) extend to splint (403) outside and contradict with locating plate (401) inside wall.

9. The intelligent processing equipment for processing the internal mold injection molding part according to claim 1, wherein: the adsorption mechanism (6) comprises a through groove (609), a through groove (609) is formed in the centers of two groups of placing plates (202), a sealing ring (608) is installed on the inner side of the through groove (609), a plurality of rubber pads (610) distributed at equal intervals are arranged on the through groove (609), a breathable plate (601) is installed on the placing plate (202), the breathable plate (601) is attached to the plurality of rubber pads (610), a communication groove (607) is formed in one end of the placing plate (202), the communication groove (607) is communicated with the inside of the through groove (609), a leather sheath (606) is installed on the inner side of one end of the placing plate (202), the leather sheath (606) is communicated with the communication groove (607), two guide pipes (605) are respectively installed on the inner sides of the tops of the two fixing plates (201), the guide pipes (605) slide with workpieces on the inner sides of the fixing plates (201) through buffer springs (604), and one end of each guide pipe (605) extends to the inside of the placing groove (203), one of the conduits (605) extends to the leather sheath (606) to be clamped, air inlet pipes (602) are respectively arranged on the two fixing plates (201), and the air inlet pipes (602) are communicated with the conduits (605) through guide grooves (603).

10. The intelligent processing equipment for processing the internal mold injection molding part according to claim 9, wherein: control mechanism (7) include leather plug (701), two fixed plate (201) one end internally mounted has two leather plugs (701), leather plug (701) are through pressing spring (702) and the inside slip work piece of fixed plate (201), leather plug (701) extend to inside guide slot (603), be equipped with guiding gutter (704) on leather plug (701), install ejector pin (703) on leather plug (701), ejector pin (703) extend to inside standing groove (203).

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