CN116604515A - Assembling device and method for metal injection mold - Google Patents

Abstract

The invention relates to the field of injection molds and discloses an assembly device of a metal injection mold, which comprises a workbench, a unidirectional inflation mechanism, a circulating inflation and deflation mechanism, a pneumatic telescopic mechanism, a vertical rod, a mold placement mechanism, a mold frame mounting mechanism, a top plate and a switch button, wherein the unidirectional inflation mechanism is fixedly arranged on the left side of the upper surface of the inner side of the workbench; according to the invention, through the arranged workbench, the unidirectional inflation mechanism, the circulating inflation and deflation mechanism, the pneumatic telescopic mechanism, the vertical rod, the die placement mechanism, the die frame mounting mechanism, the top plate and the switch button, the die frame is mounted below the die frame mounting mechanism when in use by matching with the push rod, the U-shaped frame, the touch rod, the first spring and the baffle ring, the die is placed above the die placement mechanism, and then the unidirectional inflation mechanism is started to drive the pneumatic telescopic mechanism to ascend so as to push the die placement mechanism, so that the die is primarily clamped inside the die frame.

Description

Assembling device and method for metal injection mold

Technical Field

The invention relates to the field of injection molds, in particular to an assembly device and an assembly method of a metal injection mold.

Background

The mould refers to various moulds and tools used for injection molding, blow molding, extrusion, die casting or forging forming, smelting, stamping and other methods to obtain the required products in industrial production, in short, the mould is a tool used for manufacturing a formed article, the tool is composed of various parts, and different moulds are composed of different parts, and the processing of the appearance of the article is realized mainly through the change of the physical state of the formed material;

In the installation process of the injection mold, the existing assembly mode is simple and rough, and the mold is usually manually knocked to be clamped with the mold frame, so that the mode is large in consumption on a human body and inconvenient to use and operate, and the assembly device and method of the metal injection mold are provided.

Disclosure of Invention

The invention mainly solves the technical problem of providing an assembly device and method for a metal injection mold, which can solve the problems that the existing assembly mode is relatively simple and rough in the installation process of the injection mold, the mold is usually manually knocked to be clamped with a mold frame, and the mode consumes a large amount of human body and is inconvenient to use and operate.

In order to solve the technical problems, according to one aspect of the invention, the assembly device of the metal injection mold more specifically comprises a workbench, a unidirectional inflation mechanism, a circulating inflation and deflation mechanism, a pneumatic telescopic mechanism, a vertical rod, a mold placement mechanism, a mold frame mounting mechanism, a top plate and a switch button, wherein the unidirectional inflation mechanism is fixedly arranged on the left side of the inner upper surface of the workbench, the circulating inflation and deflation mechanism is fixedly arranged on the right side of the inner upper surface of the workbench, the pneumatic telescopic mechanism is fixedly arranged between the unidirectional inflation mechanism and the circulating inflation and deflation mechanism, the vertical rods are symmetrically and fixedly connected to the upper surface of the workbench, the mold placement mechanism is connected to the outer side walls of the two vertical rods in a sliding manner, the mold frame mounting mechanism is connected to the upper side of the mold placement mechanism in a sliding manner, the top plate is fixedly connected to the top plate in a sliding manner, the switch button is fixedly arranged on the right side of the inner upper surface of the workbench, the switch button is fixedly arranged on the center of the inner upper surface of the workbench, the switch button is fixedly connected to the left side of the switch frame mounting mechanism, the switch button is fixedly connected to the contact with the contact rod, the contact rod is fixedly arranged on the top plate is fixedly connected to the top plate of the contact rod, the contact rod is fixedly arranged on the contact rod is connected to the contact rod, the contact rod is fixedly arranged on the contact rod is arranged on the contact rod, the contact rod is connected to the contact rod, the one-way inflation mechanism is communicated with the die placement mechanism and the pneumatic telescopic mechanism, and the circulating inflation and deflation mechanism is communicated with the die placement mechanism.

Furthermore, a plurality of universal wheels are fixedly connected to the bottom of the workbench.

Still further, unidirectional charging mechanism includes plenum box, motor one, axostylus axostyle one, cam one, L shape piston board, slide bar, slider, wedge support piece, spring two, concave connection spare and roll roller, the communication hole two of running through has been seted up to the left side top of plenum box, the communication hole one of running through has been seted up to the bottom of plenum box, the front surface fixedly connected with of plenum box motor one, the output shaft rear end of motor one is located the inside fixedly connected with of plenum box axostylus axostyle one, the lateral wall fixedly connected with of axostylus axostyle one, the front surface and the rear surface of cam one all have been seted up spacing spread groove, the inboard of plenum box is located the below sliding connection of cam one have L shape piston board, the lower surface left of L shape piston board has been seted up the spout, the inside fixedly connected with of spout the lateral wall of spout is located the inside sliding connection of spout has the slider, the top fixedly connected with of slider the inside fixedly connected with the cam one, the front surface and the back surface of cam one have the wedge shape piston board is located two and is connected with two and is located the inside the concave connection spare is located two and is connected with the inside the surface of wedge shape piston board.

Still further, the inside of L shape piston board is located the transfer chamber has been seted up to the below of concave connection spare, the inside sliding connection in transfer chamber has piston board one, piston board one with fixedly connected with a plurality of springs three between the transfer chamber, L shape piston board with fixedly connected with between the wedge supports the piece aerifys the gasbag, aerify the gasbag with fixedly communicate between the transfer chamber has the ventilation chamber, the inboard lower surface fixedly connected with extrusion gasbag of concave connection spare, the bottom of extrusion gasbag is located the inside fixedly connected with air cock in transfer chamber.

Still further, circulation is filled gassing mechanism and is included circulation case, motor two, axostylus axostyle two, cam two, piston board two and spring four, circulation case is located the right side of charging box, the fixed intercommunication in bottom of circulation case has the venthole, the through type's communication hole three has been seted up at the top of circulation case, the front surface fixedly connected with of circulation case motor two, the output shaft rear end of motor two is located the inside fixedly connected with of circulation case axostylus axostyle two, the lateral wall fixedly connected with of axostylus axostyle two the cam two, the inboard of circulation case is located the below sliding connection of cam two has piston board two, piston board two with common fixedly connected with a plurality of between the circulation case spring four.

Still further, pneumatic telescopic machanism includes pipe, round bar, piston block and communicating pipe one, the inboard sliding connection of pipe has the round bar, the bottom of round bar is located the inboard fixedly connected with of pipe the piston block, the bottom fixed intercommunication of pipe has communicating pipe one, communicating pipe one keep away from the one end of pipe with communicating pipe one's inboard fixed connection.

Still further, mould placing mechanism is including placing board, atmospheric pressure box, piston board three, piston board four, strike the post, communicating pipe two, communicating pipe three, the inside of placing the board has been seted up and has been inhaled the air cavity, the inside sliding connection in air cavity has piston board three, a plurality of suction holes that run through have been seted up to the inboard upper surface in air cavity, the bottom of placing the board is provided with atmospheric pressure box, the inboard sliding connection of atmospheric pressure box has piston board four, the upper surface of piston board four is provided with a plurality of strike the post, the bottom fixed intercommunication in air cavity has communicating pipe two, communicating pipe two's bottom with communicating pipe two's inboard fixed connection, atmospheric pressure box's bottom fixed intercommunication has communicating pipe three, communicating pipe three's bottom with communicating pipe three's inboard fixed connection.

Furthermore, a plurality of threaded holes are fixedly formed in the upper surface of the piston plate IV, and a threaded head is fixedly connected to the bottom of the knocking column.

Still further, the mould frame installation mechanism includes upper plate, fixed plate, fastening bolt and grip block, the lower surface symmetry fixedly connected with of upper plate the fixed plate, the equal threaded connection of opposite side of fixed plate has fastening bolt, even fastening bolt's opposite end runs through two respectively the opposite side of fixed plate, and all rotate and be connected with the grip block.

According to another aspect of the present invention, there is provided a method of assembling a metal injection mold, comprising the steps of:

s1, when in use, a mold frame is mounted on the lower surface of the mold frame mounting mechanism, during mounting, the two clamping plates below the upper plate are driven to move by rotating the fastening bolts screwed with the fixing plates, and then the mold frame is stably clamped by the two clamping plates;

s2, placing an injection mold on the upper surface of the mold placing mechanism, then pulling the placing plate upwards to enable the opening of the air pressure box to leak, and then screwing a plurality of knocking columns into corresponding threaded holes through the threaded heads according to the shape of the edge of the mold for installation;

S3, manually controlling the unidirectional inflation mechanism to start through an external controller, wherein when the unidirectional inflation mechanism is started, the first motor, the first shaft rod, the concave connecting piece, the rolling roller and the limiting connecting groove drive the first cam to rotate unidirectionally, so that the first communicating pipe is inflated towards the inside of the circular pipe, the piston block pushes the circular rod to ascend, then the die placement mechanism is pushed to ascend rapidly, the die can be quickly clamped into the die frame, primary splicing is completed, the first communicating pipe inflates towards the inside of the circular pipe, the air tank can suck air towards the inside of the air suction cavity through the second communicating pipe, and accordingly the third piston plate is driven to descend, the air suction hole sucks the die, stability of the die along with the ascending of the die placement mechanism is guaranteed, and the die is not easy to slide;

s4, after the die placement mechanism drives the die to be primarily clamped into the die frame, the die frame installation mechanism is pushed to ascend along the vertical rods and approach the top plate, then the push rod, the U-shaped frame, the touch rod and the first spring are arranged, so that the switch button is driven to be opened, the circulating inflation and deflation mechanism is started, at the moment, the rotation of the first cam is blocked by the sliding rod, the sliding block, the second spring, the wedge-shaped abutting block and the sliding groove, so that the rotation of the first cam is slowed down, and the first cam is inflated and expanded by the inflation air bag, the ventilation cavity, the transit cavity, the first piston plate, the third spring, the extrusion air bag and the first air nozzle which are matched with each other, so that the first cam is further limited by the inflation and inflation of the extrusion air bag when the wedge-shaped abutting block is pushed by the first cam, and the rotation speed is slowed down;

S5, the circulation inflation and deflation mechanism is composed of a circulation box, a motor II, a shaft rod II, a cam II, a piston plate II and a spring IV, the air outlet hole and the communication hole III are arranged in a matched mode, the piston plate II can move up and down repeatedly along the circulation box, then the air outlet hole and the communication hole III are used for exhausting air and air back and forth, and the communication hole III is communicated with the air pressure box through the communication pipe III, so that the piston plate IV inside the air pressure box can be pushed to reciprocate up and down, the knocking column can be driven to repeatedly knock the placing plate, the cam I is matched with the cam I to rotate at the moment to be limited, the knocking column is knocked on one side, the die placing mechanism slowly pushes the die upwards, and further tight clamping is achieved after the die and the die frame are preliminarily clamped.

The assembly device of the metal injection mold has the beneficial effects that:

according to the invention, through the arranged workbench, the one-way inflation mechanism, the circulating inflation and deflation mechanism, the pneumatic telescopic mechanism, the vertical rod, the die placement mechanism, the die frame installation mechanism, the top plate and the switch button, the die frame is installed below the die frame installation mechanism in use by matching with the arranged push rod, the U-shaped frame, the touch rod, the spring I and the baffle ring, the die is placed above the die placement mechanism, then the one-way inflation mechanism is started, the pneumatic telescopic mechanism is driven to ascend to push the die placement mechanism, so that the die is primarily clamped into the die frame, the one-way inflation mechanism can pump air towards the die placement mechanism, the die placement mechanism can closely adsorb a column die, after the die is primarily clamped into the die frame, the die frame installation mechanism is pushed to ascend, then the push rod is pushed to ascend, then the touch rod is enabled to move rightwards, the switch button is started, the circulating inflation and deflation mechanism repeatedly inflates and deflates towards the die placement mechanism, so that the die is clamped into the die frame, the die is more firm, and labor is greatly saved;

According to the unidirectional inflating mechanism, the first motor is started, the first shaft rod is driven to rotate by utilizing the first communicating hole, the second communicating hole, the limiting connecting groove and the sliding groove, so that the first cam is driven to rotate, the limiting connecting groove and the rolling roller are connected to limit the rotation range of the first cam, when the first cam rotates, air is discharged through the first communicating hole, the second communicating hole is used for exhausting air, and when the first cam rotates, the first cam normally rotates at first and then is blocked by the second wedge-shaped abutting block, the rotation speed is slowed down, and the L-shaped piston plate is not influenced;

according to the invention, through the transfer cavity, the first piston plate, the third spring, the inflatable air bag, the ventilation cavity, the extrusion air bag and the air tap, the extrusion air bag is in a deflation state under a normal state, the rotation of the first cam is not influenced, when the first cam pushes the wedge-shaped supporting block to rotate, the air pressure in the inflatable air bag is inflated into the transfer cavity, so that the first piston plate rises, and then the air pressure is inflated into the extrusion air bag to expand, so that the rotation of the first cam is further limited;

According to the circulating inflation and deflation mechanism, the circulating box, the motor II, the shaft lever II, the cam II, the piston plate II and the spring IV are formed, so that the motor II is started to drive the cam II to rotate, and the piston plate II can be driven to reciprocate up and down under the cooperation of the spring IV, so that repeated air inlet and air outlet can be realized through the communication hole III and the air outlet hole;

according to the invention, the mold placement mechanism is characterized in that through the composed placement plate, the air pressure box, the piston plate III, the piston plate IV, the knocking post, the communicating pipe II and the communicating pipe III, as well as the air suction cavity and the air suction hole, air pressure is pumped out towards the inside of the air suction cavity to drive the piston plate III to descend, then the air suction hole can suck air, so that a mold can be adsorbed, the air is repeatedly inflated and pumped out towards the inside of the air pressure box, the piston plate IV can be driven to reciprocate up and down, the knocking post is driven to knock the placement plate, and the mold placement mechanism can be matched to slowly ascend, so that the clamping installation of the mold and the mold frame is further enhanced.

Drawings

The invention will be described in further detail with reference to the accompanying drawings and detailed description.

FIG. 1 is a schematic view of the whole structure of an assembling device of a metal injection mold of the present invention;

FIG. 2 is a schematic structural view of a vertical rod of an assembly device of the metal injection mold of the present invention;

FIG. 3 is a schematic cross-sectional view of a unidirectional air charging mechanism of an assembly device of a metal injection mold of the present invention;

FIG. 4 is a schematic side view of a vertical cross section of a female connector of an assembly device of a metal injection mold according to the present invention;

FIG. 5 is a schematic cross-sectional view of a cyclic inflation and deflation mechanism of an assembly apparatus for a metal injection mold of the present invention;

FIG. 6 is a schematic cross-sectional view of the pneumatic telescoping mechanism of the assembly apparatus of the metal injection mold of the present invention;

FIG. 7 is a schematic cross-sectional view of a mold placement mechanism of an assembly device for a metal injection mold of the present invention;

FIG. 8 is a schematic cross-sectional view of a mold frame mounting mechanism of an assembly apparatus for a metal injection mold of the present invention;

FIG. 9 is an enlarged schematic view of the assembly device of the metal injection mold of the present invention at A in FIG. 1;

fig. 10 is an enlarged view of the assembly device of the metal injection mold of the present invention at B in fig. 3.

In the figure: 1. a work table; 2. a unidirectional inflation mechanism; 3. a circulating inflation and deflation mechanism; 4. a pneumatic telescoping mechanism; 5. a vertical rod; 6. a mold placement mechanism; 7. a mold frame mounting mechanism; 8. a top plate; 9. a switch button; 10. a push rod; 11. a U-shaped frame; 12. a touch lever; 13. a first spring; 14. a universal wheel; 15. a second communicating hole; 16. a first communicating hole; 17. a limit connecting groove; 18. a chute; 19. a transfer cavity; 20. a first piston plate; 21. a third spring; 22. an inflatable airbag; 23. a ventilation chamber; 24. extruding the air bag; 25. an air tap; 26. an air outlet hole; 27. a communication hole III; 28. an air suction cavity; 29. an air suction hole; 30. a threaded hole; 31. a thread head; 32. a baffle ring; 201. an air charging box; 202. a first motor; 203. a first shaft lever; 204. a first cam; 205. an L-shaped piston plate; 206. a slide bar; 207. a slide block; 208. wedge-shaped abutting blocks; 209. a second spring; 210. a female connector; 211. a rolling roller; 301. a circulation box; 302. a second motor; 303. a second shaft lever; 304. a second cam; 305. a second piston plate; 306. a spring IV; 401. a round tube; 402. a round bar; 403. a piston block; 404. a first communicating pipe; 601. placing a plate; 602. an air pressure box; 603. a third piston plate; 604. a piston plate IV; 605. knocking the column; 606. a second communicating pipe; 607. a third communicating pipe; 701. an upper plate; 702. a fixing plate; 703. a fastening bolt; 704. and a clamping plate.

Detailed Description

The application will be described in detail hereinafter with reference to the drawings in conjunction with embodiments. It should be noted that, without conflict, the embodiments of the present application and features of the embodiments may be combined with each other.

According to one aspect of the present application, as shown in fig. 1 to 10, there is provided an assembling device of a metal injection mold, comprising a working table 1, a unidirectional air charging mechanism 2, a circular air charging and discharging mechanism 3, a pneumatic telescopic mechanism 4, a vertical rod 5, a mold placing mechanism 6, a mold frame mounting mechanism 7, a top plate 8 and a switch button 9, wherein the unidirectional air charging mechanism 2 is fixedly mounted on the left side of the inner upper surface of the working table 1, the circular air charging and discharging mechanism 3 is fixedly mounted on the right side of the inner upper surface of the working table 1, the pneumatic telescopic mechanism 4 is fixedly mounted between the unidirectional air charging mechanism 2 and the circular air charging and discharging mechanism 3 at the center of the inner upper surface of the working table 1, the vertical rods 5 are symmetrically and fixedly connected to the upper surface of the working table 1, the outer side walls of the two vertical rods 5 are jointly and slidably connected with the mold placing mechanism 6, the outer side walls of the two vertical rods 5 are arranged above the die placement mechanism 6 and are connected with a die frame installation mechanism 7 in a sliding way, the top ends of the two vertical rods 5 are connected with a top plate 8 in a fixed way, a switch button 9 is fixedly arranged on the right side of the upper surface of the top plate 8, the switch button 9 is electrically connected with the circulating inflation and deflation mechanism 3, the upper surface of the die frame installation mechanism 7 is fixedly connected with a push rod 10, the upper surface of the top plate 8 is fixedly connected with a U-shaped frame 11 on the left side of the switch button 9, the outer side wall of the U-shaped frame 11 is connected with a touch rod 12 in a sliding way, the right end of the touch rod 12 is contacted with the left side of the switch button 9, the top end of the push rod 10 penetrates the top plate 8 and is contacted with the left end of the touch rod 12, a spring I13 is fixedly connected between the touch rod 12 and the U-shaped frame 11 in a fixed way, the outer side walls of the two vertical rods 5 are all fixedly connected with a baffle ring 32 under the die frame installation mechanism 7, the one-way inflation mechanism 2 is communicated with the die placement mechanism 6 and the pneumatic telescopic mechanism 4, the circulating inflation and deflation mechanism 3 is communicated with the die placement mechanism 6, the die frame mounting mechanism 7, the top plate 8 and the switch button 9 are matched by the workbench 1, the one-way inflation mechanism 2, the circulating inflation and deflation mechanism 3, the pneumatic telescopic mechanism 4, the vertical rod 5, the die placement mechanism 6, the die frame mounting mechanism 7, the top plate 8 and the switch button 9, the push rod 10, the U-shaped frame 11, the touch rod 12, the first spring 13 and the baffle ring 32 are matched, so that the die frame is mounted below the die frame mounting mechanism 7 when in use, the die is placed above the die placement mechanism 6, then the one-way inflation mechanism 2 is started, the pneumatic telescopic mechanism 4 is driven to ascend to push the die placement mechanism 6, make the preliminary block of mould to the mould frame inside, and the one-way inflation mechanism 2 can be towards the inside gassing of mould placement machine 6, make the mould placement machine 6 can be inseparable adsorption column mould, after the preliminary block of mould frame inside, can promote mould frame installation mechanism 7 and rise, then promote push rod 10 and rise, then make touch rod 12 remove right, turn on shift knob 9, make circulation fill gassing mechanism 3 start, circulation fill gassing mechanism 3 through aerify the gassing repeatedly towards mould placement machine 6 inside, make mould placement machine 6 can strike the mould, make mould block to the inside inseparabler firm of mould frame, the very big degree uses manpower sparingly.

In this embodiment, a plurality of universal wheels 14 are fixedly connected to the bottom of the workbench 1, so that the whole device can move in position.

In the embodiment, the unidirectional air charging mechanism 2 comprises an air charging box 201, a motor I202, a shaft I203, a cam I204, an L-shaped piston plate 205, a slide bar 206, a sliding block 207, a wedge-shaped abutting block 208, a spring II 209, a concave connecting piece 210 and a rolling roller 211, a through communication hole II 15 is formed above the left side of the air charging box 201, a through communication hole I16 is formed at the bottom of the air charging box 201, the front surface of the air charging box 201 is fixedly connected with the motor I202, the rear end of an output shaft of the motor I202 is fixedly connected with the shaft I203 in the air charging box 201, the outer side wall of the shaft I203 is fixedly connected with the cam I204, the front surface and the rear surface of the cam I204 are both provided with limiting connecting grooves 17, the inner side of the air charging box 201 is provided with the L-shaped piston plate 205 in a sliding connection below the cam I204, a sliding groove 18 is formed in the left side of the lower surface of the L-shaped piston plate 205, the inner part of the sliding groove 18 is fixedly connected with the slide bar 206, the outer side wall of the slide bar 206 is located at the inner side of the slide groove 18 and is connected with a slide block 207 in a sliding manner, the top of the slide block 207 is fixedly connected with a wedge-shaped abutting block 208, a plurality of springs two 209 are fixedly connected between the wedge-shaped abutting block 208 and the L-shaped piston plate 205 together, the upper surface of the L-shaped piston plate 205 is located at the outer bottom of the cam one 204 and is fixedly connected with a concave connecting piece 210, the inner front surface and the inner rear surface of the concave connecting piece 210 are located at the inner sides of the two limit connecting grooves 17 and are respectively connected with a rolling roller 211 through rotating shafts, the unidirectional inflating mechanism 2 in the invention comprises an inflating box 201, a motor one 202, a shaft one 203, a cam one 204, the L-shaped piston plate 205, the slide bar 206, the slide block 207, the wedge-shaped abutting block 208, the springs two 209, the concave connecting piece 210 and the rolling roller 211, and the communicating hole one 16, the communicating hole two 15, the limit connecting groove 17 and the slide groove 18 which are arranged, the first motor 202 is started to drive the first shaft 203 to rotate, so as to drive the first cam 204 to rotate, the connection between the limit connecting groove 17 and the rolling roller 211 can limit the rotation range of the first cam 204, when the first cam 204 rotates, the first cam can exhaust air through the first communication hole 16, the second communication hole 15 exhausts air, and when the first cam 204 rotates, the first cam rotates normally at first, then the first cam is blocked by the wedge-shaped supporting block 208 to slow down the rotation speed, but the L-shaped piston plate 205 is not affected to descend.

In this embodiment, a transfer chamber 19 is formed in the L-shaped piston plate 205 below the concave connecting member 210, a first piston plate 20 is slidably connected in the transfer chamber 19, a plurality of springs three 21 are fixedly connected between the first piston plate 20 and the transfer chamber 19, an air bag 22 is fixedly connected between the L-shaped piston plate 205 and the wedge-shaped abutment 208, an air vent chamber 23 is fixedly connected between the air bag 22 and the transfer chamber 19, an extrusion air bag 24 is fixedly connected to the lower surface of the inner side of the concave connecting member 210, an air tap 25 is fixedly connected to the bottom of the extrusion air bag 24 in the transfer chamber 19, and through the transfer chamber 19, the first piston plate 20, the springs three 21, the air bag 22, the air vent chamber 23, the extrusion air bag 24 and the air tap 25 which are arranged, the extrusion air bag 24 is in a deflation state in a normal state, the rotation of the first cam 204 is not affected, when the first cam 204 pushes the wedge-shaped abutment 208 to rotate, the air pressure in the air bag 22 is inflated into the transfer chamber 19, the first piston plate 20 is inflated, and then the air pressure is inflated into the extrusion air bag 24, and the cam 204 is inflated, and the rotation is further limited.

In this embodiment, the circulation inflation and deflation mechanism 3 includes a circulation box 301, a motor two 302, a shaft two 303, a cam two 304, a piston plate two 305 and a spring four 306, the circulation box 301 is located on the right side of the inflation box 201, the bottom of the circulation box 301 is fixedly connected with an air outlet hole 26, a through communication hole three 27 is formed in the top of the circulation box 301, the front surface of the circulation box 301 is fixedly connected with the motor two 302, the rear end of an output shaft of the motor two 302 is located inside the circulation box 301 and fixedly connected with the shaft two 303, the outer side wall of the shaft two 303 is fixedly connected with the cam two 304, the inner side of the circulation box 301 is located below the cam two 304 and is slidingly connected with the piston plate two 305, and a plurality of springs four 306 are fixedly connected between the piston plate two 305 and the circulation box 301.

In this embodiment, the pneumatic telescopic mechanism 4 includes a circular tube 401, a circular rod 402, a piston block 403 and a communicating tube one 404, the inner side of the circular tube 401 is slidably connected with the circular rod 402, the bottom end of the circular rod 402 is located at the inner side of the circular tube 401 and fixedly connected with the piston block 403, the bottom of the circular tube 401 is fixedly connected with the communicating tube one 404, one end of the communicating tube one 404 far away from the circular tube 401 is fixedly connected with the inner side of the communicating hole one 16, the pneumatic telescopic mechanism 4 is connected with the circular tube 401, the circular rod 402, the piston block 403 and the communicating tube one 404 through the formed circular tube one 404, so that when air pressure is filled into the circular tube 401 through the communicating tube one 404, the piston block 403 is driven to move, and the circular rod 402 is driven to stretch out.

In the embodiment, the mold placing mechanism 6 comprises a placing plate 601, an air pressure box 602, a piston plate III 603, a piston plate IV 604, a knocking post 605, a communicating pipe II 606 and a communicating pipe III 607, wherein an air suction cavity 28 is arranged in the placing plate 601, the piston plate III 603 is connected in a sliding manner in the air suction cavity 28, a plurality of penetrating air suction holes 29 are arranged on the upper surface of the inner side of the air suction cavity 28, the air pressure box 602 is arranged at the bottom of the placing plate 601, the piston plate IV 604 is connected in a sliding manner in the air pressure box 602, a plurality of knocking posts 605 are arranged on the upper surface of the piston plate IV 604, the communicating pipe II 606 is fixedly connected at the bottom of the air suction cavity 28, the bottom of the communicating pipe II 606 is fixedly connected with the inner side of the communicating pipe II 15, the communicating pipe III 607 is fixedly connected at the bottom of the air pressure box 602, the bottom end of the third communicating pipe 607 is fixedly connected with the inner side of the third communicating hole 27, and the mold placing mechanism 6 in the invention comprises a placing plate 601, an air pressure box 602, a third piston plate 603, a fourth piston plate 604, a knocking post 605, a second communicating pipe 606, the third communicating pipe 607, an air suction cavity 28 and an air suction hole 29, so that the air suction cavity 28 can be pumped out to drive the third piston plate 603 to descend, then the air suction hole 29 can be used for air intake, thereby adsorbing a mold, repeatedly inflating and exhausting the air towards the air pressure box 602, and driving the fourth piston plate 604 to reciprocate up and down, thereby driving the knocking post 605 to knock the placing plate 601, and further strengthening the clamping installation of the mold and the mold frame by matching with the mold placing mechanism 6.

In this embodiment, the upper surface of the fourth piston plate 604 is fixedly provided with a plurality of threaded holes 30, and the bottom of the striking column 605 is fixedly connected with the threaded head 31, so that the striking column 605 is conveniently screwed to the surface of the fourth piston plate 604.

In this embodiment, the mold frame mounting mechanism 7 includes an upper plate 701, a fixing plate 702, fastening bolts 703 and clamping plates 704, where the fixing plate 702 is symmetrically and fixedly connected to the lower surface of the upper plate 701, the fastening bolts 703 are connected to opposite sides of the fixing plate 702 in a threaded manner, opposite ends of the fastening bolts 703 penetrate through opposite sides of the two fixing plates 702 respectively, and the clamping plates 704 are connected in a rotating manner, and the two clamping plates 704 are adjusted to move by rotating the fastening bolts 703, so that the clamping plates 704 can clamp the mold frame conveniently.

According to another aspect of the present invention, there is provided a method of assembling a metal injection mold, comprising the steps of:

s1, when in use, a mold frame is mounted on the lower surface of a mold frame mounting mechanism 7, and when in mounting, the two clamping plates 704 below the upper plate 701 are driven to move by rotating the fastening bolts 703 screwed with the fixing plates 702, and then the mold frame is stably clamped by the two clamping plates 704;

s2, placing an injection mold on the upper surface of the mold placing mechanism 6, then pulling the placing plate 601 upwards to enable the opening of the air pressure box 602 to leak, and then screwing a plurality of knocking posts 605 into corresponding threaded holes 30 through the threaded heads 31 according to the shape of the edge of the mold for installation;

S3, starting the unidirectional air charging mechanism 2 through manual control of an external controller, wherein during starting, a first motor 202, a first shaft rod 203, a concave connecting piece 210, a rolling roller 211 and a limit connecting groove 17 are arranged to drive a first cam 204 to rotate unidirectionally, so that a first communicating pipe 404 is utilized to charge air towards the inside of a circular pipe 401, a piston block 403 pushes a circular rod 402 to ascend, a die placement mechanism 6 is pushed to ascend rapidly, a die can be clamped into the die frame rapidly, primary splicing is completed, the first communicating pipe 404 charges air towards the inside of the circular pipe 401, and meanwhile, an air charging box 201 pumps air towards the inside of an air suction cavity 28 through a second communicating pipe 606, so that a third piston plate 603 is driven to descend, an air suction hole 29 sucks air to suck the die, and stability of the die along with the ascending of the die placement mechanism 6 is guaranteed, and the die is not easy to slide;

s4, after the die placement mechanism 6 drives the die to be primarily clamped into the die frame, the die frame installation mechanism 7 is pushed to ascend along the vertical rod 5 and approach to the top plate 8, then the switch button 9 is driven to be opened through the push rod 10, the U-shaped frame 11, the touch rod 12 and the first spring 13, so that the circulating inflation and deflation mechanism 3 is started, at the moment, the rotation of the first cam 204 is blocked by the slide rod 206, the slide block 207, the second spring 209, the wedge-shaped abutting block 208 and the slide groove 18, so that the rotation of the first cam 204 is slowed down, and the inflation air bag 22, the ventilation cavity 23, the transit cavity 19, the first piston plate 20, the third spring 21, the extrusion air bag 24 and the air tap 25 which are matched are arranged are pushed by the first cam 204, so that the extrusion air bag 24 is inflated, the rotation of the first cam 204 is further limited, and the rotation speed is slowed down;

S5, circulation inflation and deflation mechanism 3 is through circulation case 301, motor two 302, axostylus axostyle two 303, cam two 304, piston board two 305 and spring four 306, the venthole 26 and the intercommunicating pore three 27 of cooperation setting can make piston board two 305 reciprocate along circulation case 301 from top to bottom, and then through venthole 26 and intercommunicating pore three 27 back and forth bleed and give vent to anger, because intercommunicating pore three 27 communicates with air pressure box 602 each other through communicating pipe three 607, thereby make can promote the inside piston board four 604 reciprocating motion of air pressure box 602, consequently can drive and strike post 605 and strike and place board 601 repeatedly, cooperation cam one 204 rotates at this moment and receives the speed limit, make strike post 605 on one side and strike, mould placement mechanism 6 slowly upwards promotes the mould, thereby further closely block behind the preliminary block of mould and the mould frame of being convenient for.

The working principle of the device is as follows: when in use, the mold frame is mounted on the lower surface of the mold frame mounting mechanism 7, and when in mounting, the two clamping plates 704 below the upper plate 701 are driven to move by rotating the fastening bolts 703 which are in threaded connection with the fixing plates 702, and then the mold frame is stably clamped by the two clamping plates 704; then placing the injection mold on the upper surface of the mold placing mechanism 6, then pulling the placing plate 601 upwards to enable the air pressure box 602 to leak out, and then screwing the plurality of knocking posts 605 into the corresponding threaded holes 30 through the thread heads 31 according to the shape of the edge of the mold for installation; the unidirectional inflation mechanism 2 is manually controlled by an external controller to be started, and when the unidirectional inflation mechanism is started, the first motor 202, the first shaft rod 203, the concave connecting piece 210, the rolling roller 211 and the limiting connecting groove 17 are arranged to drive the first cam 204 to rotate unidirectionally, so that the first communicating pipe 404 is utilized to inflate towards the inside of the circular pipe 401, the piston block 403 pushes the circular rod 402 to ascend, and then the die placement mechanism 6 is pushed to ascend rapidly, so that the die can be quickly clamped into the die frame to complete preliminary splicing, the first communicating pipe 404 inflates towards the inside of the circular pipe 401, and meanwhile, the air tank 201 can pump air towards the inside of the air suction cavity 28 by utilizing the second communicating pipe 606, so that the third piston plate 603 is driven to descend, the air suction hole 29 sucks the die, and the stability of the die when the die ascends along with the die placement mechanism 6 is ensured, and the die is not easy to slide down; after the die placement mechanism 6 drives the die to be primarily clamped into the die frame, the die frame installation mechanism 7 is pushed to ascend along the vertical rod 5 and approach the top plate 8, then the push rod 10, the U-shaped frame 11, the touch rod 12 and the first spring 13 are arranged, the switch button 9 is driven to be opened, so that the circulating inflation and deflation mechanism 3 is started, at the moment, the rotation of the first cam 204 is blocked by the slide rod 206, the slide block 207, the second spring 209, the wedge-shaped abutting block 208 and the slide groove 18, so that the rotation of the first cam 204 is slowed down, and the inflation air bag 22, the ventilation cavity 23, the transfer cavity 19, the first piston plate 20, the third spring 21, the extrusion air bag 24 and the air tap 25 which are cooperatively arranged are matched with each other, so that when the wedge-shaped abutting block 208 is pushed by the first cam 204, the extrusion air bag 24 is inflated, the rotation of the first cam 204 is further limited, and the rotation speed of the first cam 204 is slowed down; the circulation inflation and deflation mechanism 3 is through the circulation case 301 of constituteing, the motor two 302, the axostylus axostyle two 303, the cam two 304, piston plate two 305 and spring four 306, the venthole 26 and the intercommunicating pore three 27 of cooperation setting can make piston plate two 305 reciprocate along circulation case 301 from top to bottom, and then make a round trip to bleed and give vent to anger through venthole 26 and intercommunicating pore three 27, because intercommunicating pore three 27 communicates with air pressure box 602 each other through communicating pipe three 607, thereby make can promote the inside piston plate four 604 reciprocating motion of air pressure box 602, then can drive the knocking post 605 and strike and place board 601 repeatedly, the cooperation cam one 204 rotates this moment and receives the speed limit, make the knocking post 605 strike on one side, simultaneously mould placement mechanism 6 slowly upwards promotes the mould, thereby further inseparable block behind the preliminary block of mould and the mould frame of being convenient for.

Wherein the electrical components presented herein are all electrical components that are present in reality.

Of course, the above description is not intended to limit the invention, but rather the invention is not limited to the above examples, and variations, modifications, additions or substitutions within the spirit and scope of the invention will be within the scope of the invention.

Claims (10)

1. The utility model provides an assembly quality of metal injection mold, includes workstation (1), one-way inflation mechanism (2), circulation fill gassing mechanism (3), pneumatic telescopic machanism (4), montant (5), mould placement machine constructs (6), mould frame installation mechanism (7), roof (8) and shift knob (9), its characterized in that: the utility model is characterized in that the left side of the upper surface of the inner side of the workbench (1) is fixedly provided with the unidirectional inflation mechanism (2), the right side of the upper surface of the inner side of the workbench (1) is fixedly provided with the circulating inflation and deflation mechanism (3), the center of the upper surface of the inner side of the workbench (1) is fixedly provided with the pneumatic telescopic mechanism (4) between the unidirectional inflation mechanism (2) and the circulating inflation and deflation mechanism (3), the upper surface of the workbench (1) is symmetrically and fixedly connected with the vertical rod (5), the outer side walls of the two vertical rods (5) are jointly and slidingly connected with the die placement mechanism (6), the outer side walls of the two vertical rods (5) are positioned above the die placement mechanism (6) and are jointly and slidingly connected with the die frame installation mechanism (7), the top ends of the two vertical rods (5) are jointly and fixedly connected with the top plate (8), the right side of the upper surface of the top plate (8) is fixedly provided with the switch button (9), the switch button (9) is in contact with the die frame (7), the upper surface of the U-shaped push rod (11) is fixedly connected with the upper surface of the die frame (11), the right end of the touch rod (12) is contacted with the left side of the switch button (9), the top end of the push rod (10) penetrates through the top plate (8) and is contacted with the left end of the touch rod (12), a first spring (13) is fixedly connected between the touch rod (12) and the U-shaped frame (11), the outer side walls of the two vertical rods (5) are positioned below the die frame mounting mechanism (7) and are fixedly connected with baffle rings (32), the one-way inflation mechanism (2) is communicated with the die placement mechanism (6) and the pneumatic telescopic mechanism (4), and the circulating inflation and deflation mechanism (3) is communicated with the die placement mechanism (6).

2. The assembling apparatus of a metal injection mold according to claim 1, wherein: the bottom of the workbench (1) is fixedly connected with a plurality of universal wheels (14).

3. The assembling apparatus of a metal injection mold according to claim 1, wherein: the unidirectional air charging mechanism (2) comprises an air charging box (201), a motor I (202), a shaft rod I (203), a cam I (204), an L-shaped piston plate (205), a slide bar (206), a sliding block (207), a wedge-shaped abutting block (208), a spring II (209), a concave connecting piece (210) and a rolling roller (211), wherein a through communication hole II (15) is formed above the left side of the air charging box (201), a through communication hole I (16) is formed in the bottom of the air charging box (201), the front surface of the air charging box (201) is fixedly connected with the motor I (202), the rear end of an output shaft of the motor I (202) is fixedly connected with the shaft rod I (203) in the air charging box (201), the outer side wall of the shaft rod I (203) is fixedly connected with the cam I (204), limit connecting grooves (17) are formed in the front surface and the rear surface of the cam I (204), the inner side of the air charging box (201) is positioned below the piston plate (204) and is in sliding connection with the L-shaped piston plate (205), the left side of the slide bar (18) is fixedly connected with the slide bar (18), the outer side wall of slide bar (206) is located the inboard sliding connection of spout (18) has slider (207), the top fixedly connected with of slider (207) wedge supports piece (208), wedge support piece (208) with jointly fixedly connected with between L shape piston board (205) a plurality of spring two (209), the upper surface of L shape piston board (205) is located the outside bottom fixedly connected with concave connection spare (210) of cam one (204), the inside front surface and the inside back surface of concave connection spare (210) are located the inboard of two spacing spread groove (17) all rotates through the pivot and is connected with roller (211).

4. A metal injection mold assembly device according to claim 3, wherein: the inside of L shape piston board (205) is located the below of concave connection spare (210) has seted up transfer chamber (19), the inside sliding connection of transfer chamber (19) has piston board one (20), piston board one (20) with fixedly connected with a plurality of three springs (21) between transfer chamber (19), L shape piston board (205) with fixedly connected with inflatable bladder (22) between wedge supporting piece (208), inflatable bladder (22) with fixedly connected with ventilation chamber (23) between transfer chamber (19), the inboard lower surface fixedly connected with extrusion gasbag (24) of concave connection spare (210), the bottom of extrusion gasbag (24) is located the inside fixedly connected with air cock (25) of transfer chamber (19).

5. A metal injection mold assembly device according to claim 3, wherein: circulation is filled gassing mechanism (3) including circulation case (301), motor two (302), axostylus axostyle two (303), cam two (304), piston board two (305) and four (306) of spring, circulation case (301) are located the right side of charging box (201), the fixed intercommunication in bottom of circulation case (301) has venthole (26), the communication hole three (27) that run through have been seted up at the top of circulation case (301), the front surface fixedly connected with of circulation case (301) motor two (302), the output shaft rear end of motor two (302) is located the inside fixedly connected with of circulation case (301) axostylus axostyle two (303), the lateral wall fixedly connected with of axostylus axostyle two (303), the inboard of circulation case (301) is located the below sliding connection of cam two (304) has piston board two (305), piston board two (305) with jointly fixedly connected with a plurality of four (306) of springs between circulation case (301).

6. A metal injection mold assembly device according to claim 3, wherein: pneumatic telescopic machanism (4) include pipe (401), round bar (402), piston block (403) and communicating pipe one (404), the inboard sliding connection of pipe (401) has round bar (402), the bottom of round bar (402) is located the inboard fixedly connected with of pipe (401) piston block (403), the bottom fixedly connected with of pipe (401) communicating pipe one (404), communicating pipe one (404) keep away from the one end of pipe (401) with the inboard fixedly connected of communicating hole one (16).

7. The assembling apparatus of a metal injection mold according to claim 5, wherein: the die placement mechanism (6) comprises a placement plate (601), an air pressure box (602), a piston plate III (603), a piston plate IV (604), a knocking column (605), a communicating pipe II (606) and a communicating pipe III (607), wherein an air suction cavity (28) is formed in the placement plate (601), the air suction cavity (28) is slidably connected with the piston plate III (603), a plurality of penetrating air suction holes (29) are formed in the inner upper surface of the air suction cavity (28), the air pressure box (602) is arranged at the bottom of the placement plate (601), the piston plate IV (604) is slidably connected with the inner side of the air pressure box (602), a plurality of knocking columns (605) are arranged on the upper surface of the piston plate IV (604), the communicating pipe II (606) is fixedly connected with the bottom of the air suction cavity (28), the bottom of the communicating pipe II (606) is fixedly connected with the inner side of the communicating hole II (15), the bottom of the air pressure box (602) is fixedly connected with the three (607), and the bottom of the communicating pipe III (27) is fixedly connected with the communicating pipe III.

8. The assembly device of a metal injection mold according to claim 7, wherein: the upper surface of piston board four (604) is fixed and is offered a plurality of screw holes (30), the bottom fixedly connected with screw thread head (31) of beating post (605).

9. The assembling apparatus of a metal injection mold according to claim 1, wherein: the die frame mounting mechanism (7) comprises an upper plate (701), a fixing plate (702), fastening bolts (703) and clamping plates (704), wherein the fixing plate (702) is symmetrically and fixedly connected to the lower surface of the upper plate (701), the fastening bolts (703) are connected to opposite sides of the fixing plate (702) in a threaded mode, and opposite ends of the fastening bolts (703) penetrate through two opposite sides of the fixing plate (702) respectively and are connected with the clamping plates (704) in a rotating mode.

10. A method of assembling a metal injection mold, comprising the apparatus for assembling a metal injection mold according to any one of claims 1 to 9, characterized by comprising the steps of:

s1, when in use, a mold frame is mounted on the lower surface of the mold frame mounting mechanism (7), and when in mounting, the mold frame is stably clamped by the two clamping plates (704) after the two clamping plates (704) below the upper plate (701) are driven to move by rotating the fastening bolts (703) which are in threaded connection with the fixing plates (702);

S2, placing an injection mold on the upper surface of the mold placing mechanism (6), then pulling the placing plate (601) upwards to enable the opening of the air pressure box (602) to leak, and then screwing a plurality of knocking columns (605) into corresponding threaded holes (30) through the threaded heads (31) according to the shape of the edge of the mold for installation;

s3, manually controlling the one-way inflation mechanism (2) to start through an external controller, wherein when the one-way inflation mechanism is started, the first motor (202), the first shaft lever (203), the concave connecting piece (210), the rolling roller (211) and the limiting connecting groove (17) are arranged to drive the first cam (204) to rotate in one direction, so that the first communicating pipe (404) is utilized to inflate the inside of the circular pipe (401), the piston block (403) pushes the circular rod (402) to ascend, then the die placement mechanism (6) is pushed to ascend rapidly, the die can be quickly clamped into a die frame to complete preliminary splicing, and the first communicating pipe (404) is utilized to pump air towards the inside of the air suction cavity (28) simultaneously, so that the third piston plate (603) is driven to descend, the air suction hole (29) is used to suck the die, and the die is easy to slide along with the ascending stability of the die placement mechanism (6) is ensured;

S4, after the die placement mechanism (6) drives the die to be primarily clamped into the die frame, the die frame installation mechanism (7) is pushed to ascend along the vertical rods (5) and approach to the top plate (8), then the switch button (9) is driven to be opened through the push rod (10), the U-shaped frame (11), the touch rod (12) and the spring I (13), so that the circulating inflation and deflation mechanism (3) is started, at the moment, the rotation of the cam I (204) is blocked by the slide rod (206), the slide block (207), the spring II (209), the wedge-shaped abutting block (208) and the slide groove (18), so that the rotation of the cam I (204) is slowed down, and the air inflation bag (22), the ventilation cavity (23), the transfer cavity (19), the piston plate I (20), the spring III (21), the extrusion air tap (24) and the air tap (25) which are matched are arranged are driven, so that the cam I (204) is pushed by the wedge-shaped abutting block (24) to further slow down the rotation of the cam I (204);

S5 circulation is filled gassing mechanism (3) through the constitution circulation case (301) motor two (302), axostylus axostyle two (303), cam two (304), piston plate two (305) and spring four (306), cooperation setting venthole (26) with communication hole three (27) can make piston plate two (305) follow circulation case (301) reciprocates, then through venthole (26) with communication hole three (27) is air-extracted and is given vent to the back and forth, because communication hole three (27) are passed through communicating pipe three (607) with atmospheric pressure box (602) are intercommunication each other, thereby make can promote piston plate four (604) of atmospheric pressure box (602) inside reciprocate up and down, then can drive strike post (605) and strike repeatedly place board (601), cooperation cam one (204) rotate and receive the speed limit this moment for strike post (605) one side, on one side mould is placed mechanism (6) and is promoted mould and is blocked up and is further closely blocked the mould after the preliminary mould is convenient for the mould is further closely blocked.