CN216885080U - But rapid cooling shaping injection mold - Google Patents

Abstract

The utility model discloses an injection mold capable of being rapidly cooled and formed, which comprises an upper mold base, wherein the upper mold base is arranged on the upper side of a support, a water cooling channel is formed in the inner wall of the upper mold base, a water inlet is formed in the lower side of the right end of the upper mold base and is communicated with the water cooling channel, a water outlet is formed in the upper side of the left end of the upper mold base and is communicated with the water cooling channel, an injection molding opening is formed in the upper side of the front end of the upper mold base, a conveying seat is arranged on the lower side of the support, a first motor is arranged on the lower side of the left end of the conveying seat, a second motor is arranged on the left side of the front end of the conveying seat, a sliding seat is movably arranged on the lower side of the inner part of the conveying seat, and a threaded shaft is arranged on the lower side of the inner part of the conveying seat. This but fashioned injection mold of rapid cooling is provided with the water-cooling structure, can cool down fast, and convenient rapid prototyping has increased machining efficiency, can carry out the unloading automatically simultaneously, but also can convey away the work piece automatically, has reduced the consumption of manpower.

Description

But rapid cooling shaping injection mold

Technical Field

The utility model relates to the technical field of injection molds, in particular to an injection mold capable of being rapidly cooled and formed.

Background

An injection mold is a molding device for injection and molding. The injection molding method has the advantages of high production speed, high efficiency, automation in operation, multiple designs and varieties, simple and complex shapes, small and precise product size, easy replacement of products, capability of forming workpieces with complex shapes, and suitability for the fields of mass production, products with complex shapes and the like.

For example, the injection mold with the publication number of CN207789608U can quickly manufacture a product with spiral rising stripes on the outer surface, and has high production efficiency and low rejection rate. When the spiral ribs with different shapes on the surface of the product are needed, the forming member can be replaced, but the device has certain defects;

1. the existing injection mold is slow in cooling molding, so that the overall processing efficiency is low, and rapid cooling cannot be performed.

2. The existing injection mold still needs manual work to carry out blanking in blanking, then carries away the workpiece, and is very troublesome in blanking.

Aiming at the problems, innovative design is urgently needed on the basis of the original injection mold.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an injection mold capable of being rapidly cooled and formed, and aims to solve the problems that the existing injection mold is slow in cooling and forming, so that the overall processing efficiency is low, rapid cooling cannot be performed, and the existing injection mold needs to be manually blanked during blanking, then a workpiece is transported away, and blanking is very troublesome in the background art.

In order to achieve the purpose, the utility model provides the following technical scheme: an injection mold capable of being rapidly cooled and formed, comprising:

the upper die base is arranged on the upper side of the support, a water cooling channel is formed in the inner wall of the upper die base, a water inlet is formed in the lower side of the right end of the upper die base and is communicated with the water cooling channel, a water outlet is formed in the upper side of the left end of the upper die base and is communicated with the water cooling channel, two groups of second hydraulic cylinders are arranged at the front end and the rear end of the upper die base, a first hydraulic cylinder is arranged at the upper end of the upper die base, and an injection molding port is formed in the upper side of the front end of the upper die base;

conveying seat, its downside at the support of installing, first motor is installed to conveying seat left end downside, the second motor is installed in conveying seat front end left side, the inside downside movable mounting of conveying seat has the slide, the threaded spindle is installed to the inside downside of conveying seat, and threaded spindle left side passes the conveying seat and is connected with first motor to install the slide in the middle of the threaded spindle, the slide passes through the threaded spindle simultaneously and forms sliding structure with the conveying seat.

Preferably, the second hydraulic cylinder is further provided with:

and the second telescopic rod is arranged on the lower side of the second hydraulic cylinder, a lower die holder is arranged at the lower end of the second telescopic rod, and the lower die holder forms a lifting structure with the upper die holder through the second telescopic rod.

Preferably, the upper die base is further provided with:

the first telescopic rod is arranged in the middle of the inner side of the upper die base, and the upper side of the first telescopic rod penetrates through the upper die base to be connected with the first hydraulic cylinder.

Preferably, the first telescopic rod is further provided with:

and the pushing block is arranged at the lower end of the first telescopic rod, and the pushing block and the upper die base form a lifting structure through the first telescopic rod.

Preferably, the transfer base is further provided with:

the positioning shafts are provided with three positioning shafts which are arranged at the inner side of the conveying seat, one positioning shaft is arranged at the left lower side of the conveying seat, and two positioning shafts are arranged at the right side of the conveying seat;

the front side of the positioning shaft penetrates through the conveying seat to be connected with the second motor.

Preferably, the transfer base is further provided with:

the sliding frame is movably arranged on the inner side of the conveying seat, a side frame is arranged on the right side of the lower end of the sliding frame, and a sliding seat is arranged at the lower end of the side frame.

Preferably, the carriage is further provided with:

the loose axle, it is equipped with two and installs the left and right sides at the carriage, just be connected with the conveyer belt between loose axle and the location axle to the conveyer belt passes through the loose axle and fixes a position the axle and forms revolution mechanic with the transfer seat.

Compared with the prior art, the utility model has the beneficial effects that: this but fashioned injection mold of rapid cooling is provided with the water-cooling structure, can cool down fast, and convenient rapid prototyping has increased machining efficiency, can carry out the unloading automatically simultaneously, but also can convey away the work piece automatically, has reduced the consumption of manpower.

1. A water cooling channel is formed in the inner wall of the upper die base, a water inlet is installed on the lower side of the right end of the upper die base and is communicated with the water cooling channel, a water outlet is installed on the upper side of the left end of the upper die base and is communicated with the water cooling channel, a water inlet pipe and a water drain pipe are respectively connected to the water inlet and the water outlet, cold water is injected into the water cooling channel from the water inlet through the water inlet pipe, the die is cooled by flowing of the cold water in the water cooling channel, the forming speed of a workpiece is accelerated, the temperature can be rapidly lowered, and rapid forming is facilitated.

2. Bulldoze the piece and form elevation structure through first telescopic link and last die holder, the slide passes through the screw spindle and forms sliding structure with the transfer seat, the side bearer is installed on carriage lower extreme right side, the slide is installed to the side bearer lower extreme, the loose axle is equipped with two and installs the left and right sides at the carriage, be connected with the conveyer belt between loose axle and the location axle, the conveyer belt passes through the loose axle and fixes a position the axle and form rotating-structure with the transfer seat, work piece machine-shaping die sinking back, the slide passes through screw axial left slip, it removes to drive the carriage left, make the conveyer belt extend left, bulldoze the piece and follow the last die holder with the work piece and come out through first telescopic link, make the work piece fall on the conveyer belt, convey away the work piece through the conveyer belt, the consumption of manpower has been reduced.

Drawings

FIG. 1 is a schematic front view of an upper die holder according to the present invention;

FIG. 2 is a schematic front view of the present invention;

FIG. 3 is a right side view of the present invention;

FIG. 4 is a schematic view of the left side of the transfer base according to the present invention;

FIG. 5 is a front cross-sectional structural view of the transfer base of the present invention.

In the figure: 1. a support; 2. an upper die holder; 3. a water-cooling channel; 4. a water inlet; 5. a water outlet; 6. injection molding a port; 7. a first hydraulic cylinder; 8. a first telescopic rod; 9. a push block; 10. a second hydraulic cylinder; 11. a second telescopic rod; 12. a lower die holder; 13. a first motor; 14. a transfer base; 15. a second motor; 16. positioning the shaft; 17. a conveyor belt; 18. a movable shaft; 19. a carriage; 20. a side frame; 21. a slide base; 22. a threaded shaft.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without making any creative effort based on the embodiments in the present invention, belong to the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: an injection mold capable of being rapidly cooled and formed, comprising: the device comprises a support 1, an upper die base 2, a water cooling channel 3, a water inlet 4, a water outlet 5, an injection molding opening 6, a first hydraulic cylinder 7, a first telescopic rod 8, a pushing block 9, a second hydraulic cylinder 10, a second telescopic rod 11, a lower die base 12, a first motor 13, a conveying base 14, a second motor 15, a positioning shaft 16, a conveying belt 17, a movable shaft 18, a sliding frame 19, a side frame 20, a sliding base 21 and a threaded shaft 22;

referring to fig. 1 and 2, an upper die base 2 is installed on an upper side of a support 1, a water cooling channel 3 is formed in an inner wall of the upper die base 2, a water inlet 4 is installed on a lower side of a right end of the upper die base 2, the water inlet 4 is communicated with the water cooling channel 3, a water outlet 5 is installed on an upper side of a left end of the upper die base 2, the water outlet 5 is communicated with the water cooling channel 3, two sets of second hydraulic cylinders 10 are installed on a front end and a rear end of the upper die base 2, a first hydraulic cylinder 7 is installed on an upper end of the upper die base 2, an injection port 6 is installed on an upper side of a front end of the upper die base 2, a second telescopic rod 11 is installed on a lower side of the second hydraulic cylinder 10, a lower die base 12 is installed on a lower end of the second telescopic rod 11, the lower die base 12 forms a lifting structure with the upper die base 2 through the second telescopic rod 11, the first telescopic rod 8 is installed in a middle of an inner side of the upper die base 2, and an upper side of the first telescopic rod 8 passes through the upper die base 2 to be connected with the first hydraulic cylinder 7, the pushing block 9 is installed at the lower end of the first telescopic rod 8, the pushing block 9 and the upper die holder 2 form a lifting structure through the first telescopic rod 8, a water inlet pipe is connected to the water inlet 4, a water outlet pipe is connected to the water outlet 5, materials are injected into the die cavity of the upper die holder 2 from the injection port 6, then cold water is injected into the water cooling channel 3 from the water inlet 4 through the water inlet pipe, the cooling speed of the die is accelerated through the flowing of the cold water in the water cooling channel 3, the materials are quickly formed in the die cavity of the upper die holder 2, after a workpiece is formed, the lower die holder 12 descends downwards through the second telescopic rod 11, the lower die holder 12 is separated from the upper die holder 2, and then the pushing block 9 pushes the workpiece downwards through the first telescopic rod 8, so that the workpiece falls down from the die cavity of the upper die holder 2;

referring to fig. 2, 3, 4 and 5, a transfer seat 14 is installed at the lower side of a support frame 1, a first motor 13 is installed at the lower side of the left end of the transfer seat 14, a second motor 15 is installed at the left side of the front end of the transfer seat 14, a slide carriage 21 is movably installed at the lower side of the interior of the transfer seat 14, a threaded shaft 22 is installed at the lower side of the interior of the transfer seat 14, the left side of the threaded shaft 22 penetrates through the transfer seat 14 to be connected with the first motor 13, a slide carriage 21 is installed at the middle of the threaded shaft 22, the slide carriage 21 and the transfer seat 14 form a sliding structure through the threaded shaft 22, a positioning shaft 16 is provided with three positioning shafts installed at the inner side of the transfer seat 14, a positioning shaft 16 is installed at the lower side of the transfer seat 14, two positioning shafts 16 are installed at the right side of the transfer seat 14, the front side of the positioning shaft 16 penetrates through the transfer seat 14 to be connected with the second motor 15, a sliding frame 19 is movably installed at the inner side of the sliding frame 19, and a side frame 20 is installed at the right side of the lower end of the sliding frame 19, and the lower end of the side frame 20 is provided with a sliding seat 21, a movable shaft 18 is provided with two movable shafts which are arranged on the left side and the right side of a sliding seat 19, a conveyor belt 17 is connected between the movable shaft 18 and a positioning shaft 16, the conveyor belt 17 and a conveying seat 14 form a rotating structure through the movable shaft 18 and the positioning shaft 16, after the lower die seat 12 is opened, a first motor 13 is started, the first motor 13 drives a threaded shaft 22 to rotate, the sliding seat 21 slides leftwards, the sliding seat 19 is driven to move leftwards, the conveyor belt 17 extends leftwards to the upper side of the lower die seat 12, a workpiece is pushed out from an upper die seat 2 by a pushing block 9, the workpiece falls on the conveyor belt 17, then a second motor 15 is started, the second motor 15 drives the positioning shaft 16 to rotate, the positioning shaft 16 drives the conveyor belt 17 to rotate, and the conveyor belt 17 rotates to convey the workpiece out.

The working principle is as follows: when the device is used, firstly, according to the structure shown in the figure 1-2, a water inlet pipe is connected to a water inlet 4, a water outlet pipe is connected to a water outlet 5, materials are injected into a die cavity of an upper die holder 2 from an injection port 6, then cold water is injected into a water cooling channel 3 from the water inlet 4 by the water inlet pipe, the cooling speed of the die is accelerated by the flowing of the cold water in the water cooling channel 3, the materials are quickly formed in the die cavity of the upper die holder 2, after a workpiece is formed, a lower die holder 12 descends downwards through a second telescopic rod 11 to separate the lower die holder 12 from the upper die holder 2, and then a pushing block 9 pushes the workpiece downwards through a first telescopic rod 8 to enable the workpiece to fall from the die cavity of the upper die holder 2;

according to fig. 2-5, after the lower die holder 12 is opened, the first motor 13 is started, the first motor 13 drives the threaded shaft 22 to rotate, the sliding seat 21 slides leftwards, the sliding frame 19 moves leftwards, the conveyor belt 17 extends leftwards to the upper side of the lower die holder 12, the pushing block 9 pushes the workpiece out of the upper die holder 2, the workpiece falls on the conveyor belt 17, then the second motor 15 is started, the second motor 15 drives the positioning shaft 16 to rotate, the positioning shaft 16 drives the conveyor belt 17 to rotate, and the conveyor belt 17 rotates to convey the workpiece out.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides a but fashioned injection mold of rapid cooling which characterized in that includes:

the upper die base is arranged on the upper side of the support, a water cooling channel is formed in the inner wall of the upper die base, a water inlet is formed in the lower side of the right end of the upper die base and is communicated with the water cooling channel, a water outlet is formed in the upper side of the left end of the upper die base and is communicated with the water cooling channel, two groups of second hydraulic cylinders are arranged at the front end and the rear end of the upper die base, a first hydraulic cylinder is arranged at the upper end of the upper die base, and an injection molding port is formed in the upper side of the front end of the upper die base;

the conveying seat is installed at the lower side of the support, the first motor is installed at the lower side of the left end of the conveying seat, the second motor is installed on the left side of the front end of the conveying seat, the sliding seat is movably installed at the inner lower side of the conveying seat, the threaded shaft is installed at the inner lower side of the conveying seat, the left side of the threaded shaft penetrates through the conveying seat to be connected with the first motor, the sliding seat is installed in the middle of the threaded shaft, and meanwhile the sliding seat and the conveying seat form a sliding structure through the threaded shaft.

2. The injection mold capable of being rapidly cooled and molded according to claim 1, wherein the second hydraulic cylinder is further provided with:

and the second telescopic rod is arranged on the lower side of the second hydraulic cylinder, a lower die holder is arranged at the lower end of the second telescopic rod, and the lower die holder forms a lifting structure with the upper die holder through the second telescopic rod.

3. The injection mold capable of being rapidly cooled and molded according to claim 1, wherein the upper mold base is further provided with:

the first telescopic rod is arranged in the middle of the inner side of the upper die base, and the upper side of the first telescopic rod penetrates through the upper die base to be connected with the first hydraulic cylinder.

4. The injection mold capable of being rapidly cooled and molded according to claim 3, wherein the first telescopic rod is further provided with:

and the pushing block is arranged at the lower end of the first telescopic rod, and the pushing block and the upper die base form a lifting structure through the first telescopic rod.

5. The injection mold capable of being rapidly cooled and molded according to claim 1, wherein the conveying seat is further provided with:

the positioning shafts are provided with three positioning shafts which are arranged at the inner side of the conveying seat, one positioning shaft is arranged at the left lower side of the conveying seat, and two positioning shafts are arranged at the right side of the conveying seat;

the front side of the positioning shaft penetrates through the conveying seat to be connected with the second motor.

6. The injection mold capable of being rapidly cooled and molded according to claim 1, wherein the conveying seat is further provided with:

the sliding frame is movably arranged on the inner side of the conveying seat, a side frame is arranged on the right side of the lower end of the sliding frame, and a sliding seat is arranged at the lower end of the side frame.

7. The rapidly cooling and forming injection mold according to claim 6, wherein the sliding frame is further provided with:

the loose axle, it is equipped with two and installs the left and right sides at the carriage, just be connected with the conveyer belt between loose axle and the location axle to the conveyer belt passes through the loose axle and fixes a position the axle and forms revolution mechanic with the transfer seat.

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