CN219256385U - Quick cooling device based on injection molding - Google Patents

Abstract

The utility model discloses a rapid cooling device based on injection molding, which comprises a cooling box, wherein a discharge hole is formed in the lower left side of the cooling box, an air cooler is arranged at the upper right side of the cooling box, an air outlet of the air cooler is connected with an air conveying pipe, and the other end of the air conveying pipe is communicated with the cooling box; further comprises: the bull stick rotates to be connected in the middle part of cooler bin, just the outside key-type connection of bull stick lower extreme has full gear, and the outside meshing of full gear is connected with half gear, the inboard key-type connection of half gear has the pivot. The quick cooling device based on injection molding is provided with the upper placing seat and the lower placing seat, the upper placing seat and the lower placing seat are driven to intermittently rotate by utilizing intermittent meshing connection of the half gear and the full gear, injection molding can be continuously placed on the upper placing seat for moving and cooling, timely batch cooling treatment is carried out on the injection molding, and the cooling processing speed is improved.

Description

Quick cooling device based on injection molding

Technical Field

The utility model relates to the technical field of injection molding cooling, in particular to a rapid cooling device based on injection molding.

Background

In the injection molding process, plastics are added into a mold, the plastics are uniformly distributed in a mold cavity under the action of gravity and heat, an injection molded product is obtained, and the injection molded product is cooled by a cooling device, so that plastic deformation caused by uneven heat on the surface and the inside is avoided.

Wherein the publication number is CN217862658U name is a quick cooling device for injection molding, including holding the frame, hold the inside of frame and seted up and hold the groove, the lateral wall fixedly connected with inlet tube of the bottom of holding the frame, hold one side fixedly connected with drain pipe of holding the frame and keeping away from the inlet tube, the inside that holds frame lateral wall top is equipped with locking mechanical system, the inside swing joint who holds the groove has the mounting bracket, the movable chamber has been seted up to the inside of mounting bracket, the bottom fixedly connected with fretwork board of mounting bracket, the inside of mounting bracket is equipped with the mechanism that turns, locking mechanical system includes the spout, the bottom fixedly connected with pressure switch of spout, place in the inside of holding the groove through the mounting bracket, the injection molding is placed in the inside of movable chamber, and the liquid is holding the inside of groove to reached and can be through the connection and the separation with holding the frame with holding the mounting bracket, realize injection molding and the more convenient effect of coolant liquid contact and separation.

The above prior art also has the following disadvantages: (1) The injection molding part is turned and cooled by the turning mechanism, but the structure can only turn and cool one product, the cooling efficiency of the injection molding part is low, and the injection molding part prepared later cannot be cooled in time; (2) To getting to put and all being in the upper portion position that holds the groove, after one of them injection molding cooling finishes, the manual injection molding that will cool off takes out, puts into the cooling with other injection molding again, can not realize injection molding continuous automatic material conveying, row's material, consequently we have put forward a quick cooling device based on injection molding and have solved the problem that above-mentioned proposes.

Disclosure of Invention

The utility model aims to provide a rapid cooling device based on injection molding processing, which aims to solve the problems that in the prior market, only one product can be turned and cooled, the cooling efficiency of injection molding pieces is low, the injection molding pieces prepared subsequently cannot be cooled in time, and continuous and automatic material conveying and discharging of the injection molding pieces cannot be realized.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the rapid cooling device based on injection molding comprises a cooling box, wherein a discharge hole is formed in the lower left side of the cooling box, an air cooler is arranged at the upper right side of the cooling box, an air outlet of the air cooler is connected with an air conveying pipe, and the other end of the air conveying pipe is communicated with the cooling box;

further comprises:

the rotating rod is rotationally connected to the middle of the cooling box, an outer key at the lower end of the rotating rod is connected with a full gear, the outer side of the full gear is connected with a half gear in a meshed mode, an inner key of the half gear is connected with a rotating shaft, and the lower end of the rotating shaft is connected with the output end of the motor;

the upper placing seat is arranged on the outer side above the rotating rod, and the lower placing seat is arranged on the outer side below the rotating rod;

the air jet is connected to the inner side wall of the cooling box;

the material guide plate is arranged on the right side wall of the inside of the cooling box, the material discharge plate is arranged at the lower left part of the inside of the cooling box, and the positions of the material discharge plate and the material discharge opening are mutually and correspondingly arranged;

go up the dead lever, connect the inside right side wall of cooling tank, just the inside left side wall of cooling tank is connected with down the dead lever, and go up the dead lever with the other end of dead lever is all installed magnet down.

Preferably, the side walls of the upper placing seat and the lower placing seat are elastically connected with a moving frame through springs, the end part above the moving frame is provided with the magnet, and the end part below the moving frame is provided with a push plate.

Preferably, the upper placing seat and the lower placing seat are of L-shaped structures, and the upper placing seat and the lower placing seat are distributed at equal angles relative to the longitudinal center line of the rotating rod, so that the injection molding piece can be placed and cooled continuously, and the injection molding piece can be cooled timely.

Preferably, the movable frame is of a side u-shaped structure, the movable frame penetrates through the upper placing seat and the lower placing seat, and the movable frame is in sliding connection with the upper placing seat and the lower placing seat.

Preferably, the lower placing seat and the upper placing seat are arranged in one-to-one correspondence, and the inclined distribution of the material guiding plates is arranged between the lower placing seat and the upper placing seat at the right position.

Preferably, the outer diameter of the half gear is the same as the outer diameter of the all gear, and the number of teeth of the half gear is one fourth of the number of teeth of the all gear, and the design can drive the all gear to rotate for 90 degrees once by utilizing the rotation of the half gear, so that the intermittent exchange of adjacent positions of the lower placing seat and the upper placing seat is controlled.

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

(1) The rapid cooling device based on injection molding processing is provided with an upper placing seat and a lower placing seat, and the upper placing seat and the lower placing seat are driven to intermittently rotate by utilizing intermittent meshing connection of a half gear and an all gear, so that injection molding parts can be continuously placed on the upper placing seat for moving cooling, and timely batch cooling treatment is carried out on the injection molding parts, and the cooling processing speed is improved;

(2) This quick cooling device based on processing of moulding plastics is provided with movable frame and push pedal, when upward place the seat and place the seat down and follow the bull stick and rotate, when magnet on the movable frame corresponds with magnet on the upper dead lever, utilize the attraction between the magnet, steerable push pedal promotes the injection molding, turn over the injection molding and continue to cool off to place down on the seat, do not influence the continuation of follow-up injection molding and put into, and when magnet on movable frame and the magnet on the dead lever down correspond, steerable push pedal promotes the injection molding, discharge the cooling tank with the injection molding, automatic realization injection molding's material conveying and unloading, the quick continuity of being convenient for cools off the injection molding.

Drawings

FIG. 1 is a schematic diagram of the overall structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic perspective view of a guide plate according to the present utility model;

FIG. 4 is a schematic perspective view of the upper seat of the present utility model;

FIG. 5 is a schematic perspective view of a movable frame according to the present utility model;

fig. 6 is a schematic diagram of the half-gear and full-gear connection of the present utility model.

In the figure: 1. a cooling box; 2. a discharge port; 3. a rotating rod; 4. an upper placement seat; 5. a spring; 6. a moving rack; 7. a magnet; 8. a push plate; 9. a lower placing seat; 10. an upper fixing rod; 11. a lower fixing rod; 12. all-gear; 13. a motor; 14. a rotating shaft; 15. a half gear; 16. an air jet; 17. an air cooler; 18. an air delivery pipe; 19. a material guide plate; 20. and a discharging plate.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1-6, the present utility model provides the following technical solutions: the rapid cooling device based on injection molding comprises a cooling box 1, wherein a discharge port 2 is formed in the lower left side of the cooling box 1, an air cooler 17 is arranged at the upper right side of the cooling box 1, an air outlet of the air cooler 17 is connected with an air conveying pipe 18, and the other end of the air conveying pipe 18 is communicated with the cooling box 1; the rotating rod 3 is rotatably connected to the middle part of the cooling box 1, the outer key at the lower end of the rotating rod 3 is connected with a full gear 12, the outer side of the full gear 12 is in meshed connection with a half gear 15, the inner key of the half gear 15 is connected with a rotating shaft 14, and the lower end of the rotating shaft 14 is connected with the output end of the motor 13; the upper placing seat 4 is arranged on the outer side above the rotating rod 3, and the lower placing seat 9 is arranged on the outer side below the rotating rod 3; an air nozzle 16 connected to the inner side wall of the cooling tank 1; the upper placing seat 4 and the lower placing seat 9 are of L-shaped structures, and the upper placing seat 4 and the lower placing seat 9 are distributed at equal angles relative to the longitudinal center line of the rotating rod 3. The outer diameter of the half gear 15 is the same as the outer diameter of the full gear 12, and the number of teeth of the half gear 15 is one-fourth of the number of teeth of the full gear 12.

The whole device shown in fig. 1 is horizontally placed in a working area, a motor 13 is connected with a power supply, a rotating shaft 14 connected with an output end is controlled to rotate, so that a half gear 15 connected with an outer side key is controlled to rotate clockwise, when the half gear 15 rotates to be connected with a full gear 12 in a meshed mode, the half gear 15 can be controlled to rotate anticlockwise, so that a rotating rod 3 is controlled to drive an upper placing seat 4 and a lower placing seat 9 to rotate anticlockwise, at the moment, the rotating rod 3 can be controlled to drive the upper placing seat 4 and the lower placing seat 9 to rotate by 90 degrees, positions of 2 adjacent upper placing seats 4 and 2 adjacent lower placing seats 9 are exchanged, when the half gear 15 and the full gear 12 are disengaged, the upper placing seat 4 and the lower placing seat 9 are stationary, an injection molding piece is placed on the upper placing seat 4 from a rear position, a cold air blower 17 is connected with the power supply, cold air is conveyed into an air conveying pipe 18, then enters a cooling box 1 with a hollow inner wall, and finally is sprayed out of a cold air spraying port 16, and the injection molding piece is cooled;

the material guide plate 19 is arranged on the right side wall of the inside of the cooling box 1, the material discharge plate 20 is arranged at the left lower part of the inside of the cooling box 1, and the positions of the material discharge plate 20 and the material discharge opening 2 are correspondingly arranged; an upper fixing rod 10 is connected to the right side wall inside the cooling box 1, and a lower fixing rod 11 is connected to the left side wall inside the cooling box 1, and magnets 7 are mounted to the other ends of the upper fixing rod 10 and the lower fixing rod 11. The side walls of the upper placing seat 4 and the lower placing seat 9 are elastically connected with a movable frame 6 through springs 5, a magnet 7 is arranged at the end part above the movable frame 6, and a push plate 8 is arranged at the end part below the movable frame 6. The movable frame 6 has a side u-shaped structure, the movable frame 6 penetrates through the upper placing seat 4 and the lower placing seat 9, and the movable frame 6 is in sliding connection with the upper placing seat 4 and the lower placing seat 9. The lower placing seat 9 and the upper placing seat 4 are arranged in one-to-one correspondence, and a material guiding plate 19 which is distributed in an inclined way is arranged between the lower placing seat 9 and the upper placing seat 4 at the right position.

When the upper placing seat 4 rotates to the position of the upper fixing rod 10, the magnet 7 arranged at the end part of the movable frame 6 on the upper placing seat 4 and the magnet 7 arranged at the end part of the upper fixing rod 10 are attracted to each other, the movable frame 6 is pulled to extrude the spring 5 to move, the movable frame 6 pushes the push plate 8 arranged at the end part to move, the injection molding piece on the upper placing seat 4 is pushed out, the injection molding piece falls onto the lower placing seat 9 along the material guiding plate 19 to turn over, when the lower placing seat 9 rotates to the position of the lower fixing rod 11, the magnet 7 arranged at the end part of the movable frame 6 on the lower placing seat 9 and the magnet 7 arranged at the end part of the lower fixing rod 11 are attracted to each other, the movable frame 6 is pulled to extrude the spring 5 to move, the push plate 8 arranged at the end part is pushed out, the injection molding piece on the lower placing seat 9 is pushed out along the material discharging plate 20, and then the injection molding piece is discharged from the material discharging hole 2.

Working principle: when the rapid cooling device based on injection molding processing is used, the motor 13 is powered on, the control rotating rod 3 drives the upper placing seat 4 and the lower placing seat 9 to rotate by 90 degrees, positions of the adjacent 2 upper placing seats 4 and the adjacent 2 lower placing seats 9 are exchanged, injection molding pieces are placed continuously, when the upper placing seat 4 rotates to the position of the upper fixing rod 10, the corresponding magnets 7 attract each other, the push plate 8 pushes the injection molding pieces on the upper placing seat 4 out, the injection molding pieces fall onto the lower placing seat 9 to turn over, when the lower placing seat 9 rotates to the position of the lower fixing rod 11, the corresponding magnets 7 attract each other, the push plate 8 pushes the injection molding pieces on the lower placing seat 9 out, and the injection molding pieces are discharged from the discharge hole 2, and the contents which are not described in detail in the specification belong to the prior art known to the person skilled in the art.

Although the present utility model has been described with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described, or equivalents may be substituted for elements thereof, and any modifications, equivalents, improvements and changes may be made without departing from the spirit and principles of the present utility model.

Claims (6)

1. The rapid cooling device based on injection molding comprises a cooling box (1), wherein a discharge hole (2) is formed in the lower left side of the cooling box (1), an air cooler (17) is arranged at the upper right side of the cooling box (1), an air outlet of the air cooler (17) is connected with an air conveying pipe (18), and the other end of the air conveying pipe (18) is communicated with the cooling box (1);

the method is characterized in that: further comprises:

the rotating rod (3) is rotationally connected to the middle of the cooling box (1), an outer key at the lower end of the rotating rod (3) is connected with a full gear (12), the outer side of the full gear (12) is connected with a half gear (15) in a meshed mode, an inner key of the half gear (15) is connected with a rotating shaft (14), and the lower end of the rotating shaft (14) is connected with the output end of the motor (13);

an upper placing seat (4) which is arranged on the outer side above the rotating rod (3), and a lower placing seat (9) is arranged on the outer side below the rotating rod (3);

the air jet (16) is connected to the inner side wall of the cooling box (1);

the material guide plate (19) is arranged on the right side wall in the cooling box (1), the material discharge plate (20) is arranged at the lower left part in the cooling box (1), and the positions of the material discharge plate (20) and the material discharge opening (2) are mutually corresponding;

go up dead lever (10), connect the inside right side wall of cooling tank (1), just the inside left side wall of cooling tank (1) is connected with down dead lever (11), and go up dead lever (10) with magnet (7) are all installed to the other end of lower dead lever (11).

2. The rapid cooling device based on injection molding according to claim 1, wherein: the side walls of the upper placing seat (4) and the lower placing seat (9) are elastically connected with a moving frame (6) through springs (5), the end part above the moving frame (6) is provided with a magnet (7), and the end part below the moving frame (6) is provided with a push plate (8).

3. The rapid cooling device based on injection molding according to claim 1, wherein: the upper placing seat (4) and the lower placing seat (9) are of L-shaped structures, and the upper placing seat (4) and the lower placing seat (9) are distributed at equal angles relative to the longitudinal center line of the rotating rod (3).

4. The rapid cooling device based on injection molding according to claim 2, wherein: the movable frame (6) is of a side U-shaped structure, the movable frame (6) penetrates through the upper placing seat (4) and the lower placing seat (9), and the movable frame (6) is in sliding connection with the upper placing seat (4) and the lower placing seat (9).

5. The rapid cooling device based on injection molding according to claim 1, wherein: the lower placing seats (9) and the upper placing seats (4) are arranged in one-to-one correspondence, and the obliquely distributed material guide plates (19) are arranged between the lower placing seats (9) and the upper placing seats (4) at the right position.

6. The rapid cooling device based on injection molding according to claim 1, wherein: the outer diameter of the half gear (15) is the same as the outer diameter of the full gear (12), and the number of teeth of the half gear (15) is one fourth of the number of teeth of the full gear (12).

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