CN210453636U - Cooling device for injection molding - Google Patents

Abstract

The utility model provides a cooling device for injection molding, which relates to the technical field of cooling devices and comprises an upper cooling cover and a lower cooling cover, wherein the lower cooling cover is symmetrically arranged below the upper cooling cover; the left surface and the right surface of the upper cooling cover are both provided with grooves, the center in the grooves is horizontally fixed with a support plate dividing the space into two parts, three partition plates which are horizontally and equidistantly distributed are fixed on the upper surface and the bottom surface of the grooves, the right surface of the inner wall of each groove is provided with four insertion holes positioned among the three partition plates, four cooling tanks respectively positioned among the three partition plates are embedded in the grooves, the left surface of each cooling tank is provided with a threaded hole communicated with the left surface of the cooling tank, the left end of each cooling tank is in threaded connection with a sealing cover, and the right surface of each sealing cover is fixed with a threaded shaft matched with the threaded hole in shape and size; the beneficial effects of the utility model reside in that: the cooling efficiency is improved/the cooling device is adjusted according to the size of the injection mold.

Description

Cooling device for injection molding

Technical Field

The utility model belongs to the technical field of cooling device technique and specifically relates to a cooling device for moulding plastics.

Background

Cooling devices are a type of heat exchange apparatus used to cool fluids. Water or air is typically used as a coolant to remove heat. They can be mainly classified into shell and tube coolers, plate coolers and air-cooled coolers. The cooler is a heat exchange device commonly adopted by the industrial departments of metallurgy, chemical industry, energy, traffic, light industry, food and the like.

The cooling device for injection molding is difficult to realize sufficient cooling of the injection mold in the cooling process, the cooling efficiency is low, and the conventional cooling device is difficult to adjust the size of the inner space according to the injection molds with different sizes, so that the injection mold with larger size is difficult to be completely cooled.

SUMMERY OF THE UTILITY MODEL

The to-be-solved technical problem of the utility model is: to the problem that prior art exists, provide a cooling device for moulding plastics, improve cooling efficiency to the realization is adjusted cooling device according to injection mold's size.

The to-be-solved technical problem of the utility model adopts following technical scheme to realize: a cooling device for injection molding comprises an upper cooling cover and a lower cooling cover, wherein the lower cooling cover is symmetrically arranged below the upper cooling cover;

the left side and the right side of the upper cooling cover are both provided with grooves, the center inside the groove is horizontally fixed with a support plate dividing the space of the upper cooling cover into two parts, the upper surface and the bottom surface of the support plate are both fixed with three partition plates which are horizontally and equidistantly distributed, the right side of the inner wall of the groove is provided with four jacks positioned among the three partition plates, four cooling tanks respectively positioned among the three partition plates are embedded in the grooves, the left side of each cooling tank is provided with a threaded hole communicated with the cooling tank, the left end of the cooling tank is in threaded connection with a sealing cover, the right side of the sealing cover is fixed with a threaded shaft matched with the threaded hole in shape and size, the right end of the cooling tank is inserted with a connecting pipe communicated with the cooling tank, the tail end of the connecting pipe is inserted with a spray communicated spray, the inner wall of the spray is embedded with a filter screen, and an;

the left side and the right side of the upper surface of the lower cooling cover are both provided with strip-shaped grooves, at least five vertical shafts which are vertically fixed are inserted into the two strip-shaped grooves, an inner shaft with the diameter smaller than that of each vertical shaft is embedded into each vertical shaft, sliding grooves are distributed on the surface of each inner shaft, the top of each vertical shaft is welded and fixed with the bottom surface of the upper cooling cover, and the upper cooling cover and the lower cooling cover are connected into a whole through the vertical shafts.

Preferably, the center of the lower surface of the upper cooling cover is provided with an upper semicircular groove, the inner wall of the upper semicircular groove is attached with two arc-shaped plates which are symmetrically arranged left and right, the surface of each arc-shaped plate is provided with two rows of through holes communicated with the jacks, and each row of through holes consists of four through holes.

Preferably, the connecting pipe and the spray pipe penetrate through the jacks and the through holes and are parallel to the inner walls of the two arc-shaped plates.

Preferably, the center of the upper surface of the lower cooling cover is provided with a lower semicircular groove, the upper parts of the left side and the right side of the lower semicircular groove are provided with slots, an arc-shaped supporting plate is embedded into the lower semicircular groove, the left side and the right side of the arc-shaped supporting plate are fixed with inserting blocks inserted into the slots, and the central position of the lower part in front of the arc-shaped supporting plate is welded with a handle.

Preferably, the upper semicircular groove and the lower semicircular groove are symmetrically arranged and are positioned on the same vertical horizontal line.

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

according to the cooling device for injection molding, the connecting pipe and the spray in the cooling tank penetrate through the jack and the through hole, the coolant in the cooling tank flows into the spray through the connecting pipe, the coolant can be uniformly sprayed out by means of spraying, so that the cooling effect is achieved, the eight cooling tanks in the two grooves can be used for cooling at the same time, and the eight cooling tanks are uniformly distributed on the inner wall of the arc-shaped plate by means of spraying, so that an injection mold can be fully cooled, and meanwhile, the cooling efficiency of the cooling device is improved;

through the cooperation of the inner shaft inside the vertical shaft and the sliding groove, a user can adjust the vertical shaft in a vertically telescopic manner, the adjusting process is simple and convenient, the application range of the cooling device is favorably expanded, the cooling device can be suitable for injection molds of different sizes, and the cooling quality of the injection mold is further improved.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the cooling tank of the present invention;

fig. 3 is a schematic view of the local enlarged structure of spraying a of the present invention.

The labels in the figure are: 1-upper cooling cover; 101-upper semicircular groove; 102-an arc-shaped plate; 103-a through hole; 104-a groove; 105-a plate; 106-a separator; 107-jacks; 2-lower cooling hood; 201-a strip groove; 202-vertical shaft; 203-inner shaft; 204-a chute; 205-lower semicircular groove; 206-slot; 3-arc supporting plate; 301-an insert block; 302-a handle; 4-cooling the tank; 401-a threaded hole; 402-a sealing cover; 403-a threaded shaft; 404-a viewing window; 405-connecting a pipe; 406-spraying; 407-filter screen.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention will be described in detail with reference to the accompanying drawings and specific embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

As shown in fig. 1-3, a cooling device for injection molding comprises an upper cooling cover 1 and a lower cooling cover 2, wherein the lower cooling cover 2 is symmetrically arranged below the upper cooling cover 1, and a user can horizontally place an injection mold to be cooled in the lower cooling cover 2 through the lower cooling cover 2 and perform cooling through the upper cooling cover 1;

in the embodiment of the utility model, the left and right sides of the upper cooling cover 1 are both provided with grooves 104, the center of the inner part of each groove 104 is horizontally fixed with a support plate 105 dividing the space into two parts, the upper surface of each support plate 105 and the bottom surface of each groove 104 are both fixed with three partition plates 106 distributed in a horizontal and equidistant way, the right side of the inner wall of each groove 104 is provided with four jacks 107 positioned between the three partition plates 106, the grooves 104 are embedded with four cooling tanks 4 respectively positioned between the three partition plates 106, the left side of each cooling tank 4 is provided with a threaded hole 401 communicated with the cooling tank 4, the left end of each cooling tank 4 is in threaded connection with a sealing cover 402, the right side of each sealing cover 402 is fixed with a threaded right end shaft 403 matched with the shape and the size of the threaded hole 401, the cooling tank 4 is inserted with a connecting pipe 405 communicated with the cooling tank 4, the tail end of the connecting pipe 405 is inserted with a spraying 406, the inner wall of the spraying 406 is embedded with a filter screen 407, two arc plates 102 which are symmetrically arranged left and right are attached to the inner wall of the upper semicircular groove 101, two rows of through holes 103 which are communicated with the insertion holes 107 are formed in the surface of each arc plate 102, each row of through holes 103 is formed by four through holes 103, the connecting pipe 405 and the spraying 406 both penetrate through the insertion holes 107 and the through holes 103 and are parallel to the inner walls of the two arc plates 102, a user firstly puts eight cooling tanks 4 into two grooves 104 respectively and is positioned between three partition plates 106 respectively, the connecting pipe 405 and the spraying 406 in each cooling tank 4 penetrate through the insertion holes 107 and the through holes 103, then the user can add coolant into the cooling tanks 4 through the threaded holes 401, then the sealing covers 402 are screwed into the threaded holes 401 through threaded shafts 403, so that the cooling tanks 4 are sealed, then the connecting pipe 405 is communicated with the cooling tanks 4, the coolant in the cooling tanks 4 flows into the spraying 406 through the connecting pipe 405, and the coolant can be uniformly sprayed out by the spraying 406, further, the cooling effect is achieved, the filter screen 407 in the spraying device 406 can play a role in filtering, impurities in the coolant are reduced, the eight cooling tanks 4 in the two grooves 104 can be used for cooling at the same time, and the spraying device 406 is uniformly distributed on the inner wall of the arc-shaped plate 102, so that the injection mold can be fully cooled, and meanwhile, the cooling efficiency of the cooling device is improved;

in the embodiment of the utility model, the left and right sides of the upper surface of the lower cooling cover 2 are both provided with strip-shaped grooves 201, at least five vertical shafts 202 which are vertically fixed are inserted into the two strip-shaped grooves 201, an inner shaft 203 with the diameter smaller than that of each vertical shaft 202 is embedded into the vertical shaft 202, the surface of the inner shaft 203 is distributed with a chute 204, the top of the vertical shaft 202 is welded and fixed with the bottom surface of the upper cooling cover 1, and the upper cooling cover 1 and the lower cooling cover 2 are connected into a whole through the vertical shaft 202, the user adjusts the distance between the upper cooling cover 1 and the lower cooling cover 2 according to the size of the injection mold to be cooled, by matching the inner shaft 203 and the sliding groove 204 in the vertical shaft 202, a user can adjust the vertical shaft 202 in a vertically telescopic manner, the adjusting process is simple and convenient, and the application range of the cooling device is favorably expanded, so that the cooling device can be suitable for injection molds of different sizes, and the cooling quality of the injection molds is further improved.

In this embodiment, lower cooling cover 2 upper surface center is opened has lower half slot 205, and slot 206 has all been opened to the top in the preceding left and right sides of lower half slot 205, the embedding has arc layer board 3 down, and the 3 left and right sides of arc layer board all is fixed with inserted block 301 that inserts in slot 206, the welding of the preceding below central point of arc layer board 3 has hand (hold) 302, last half slot 101 and lower half slot 205 symmetry are arranged and are in same vertical horizontal line, the user places refrigerated injection mold on the arc layer board 3 in cooling cover 2 down, the user holds hand (hold) 302 and stimulates arc layer board 3 and makes inserted block 301 slide in slot 206, alright in order to realize pulling whole arc layer board 3 around carrying out, so can conveniently take and put injection mold.

It should be understood that any modification, equivalent replacement, and improvement made within the spirit and principles of the present invention should be included within the scope of the present invention.

Claims (5)

1. A cooling device for injection molding, comprising an upper cooling cover (1) and a lower cooling cover (2), characterized in that: the lower cooling covers (2) are symmetrically arranged below the upper cooling cover (1);

grooves (104) are formed in the left side and the right side of the upper cooling cover (1), a support plate (105) for dividing the space of the upper cooling cover into two parts is horizontally fixed in the center of the inner portion of each groove (104), three partition plates (106) which are horizontally and equidistantly distributed are fixed on the upper surface of each support plate (105) and the bottom surface of each groove (104), four jacks (107) which are located among the three partition plates (106) are formed in the right side of the inner wall of each groove (104), four cooling tanks (4) which are respectively located among the three partition plates (106) are embedded into the grooves (104), threaded holes (401) communicated with the cooling tanks (4) are formed in the left side of the cooling tanks (4), sealing covers (402) are connected to the left end of the cooling tanks (4) in a threaded mode, threaded shafts (403) which are matched with the threaded holes (401) in shape and size are fixed on the right side of each sealing covers (402), and connecting pipes (405) communicated with the cooling tanks, a spray (406) communicated with the connecting pipe (405) is inserted into the tail end of the connecting pipe, a filter screen (407) is embedded into the inner wall of the spray (406), and an observation window (404) is embedded into the surface of the cooling tank (4);

the left side and the right side of the upper surface of the lower cooling cover (2) are respectively provided with a strip-shaped groove (201), at least five vertical shafts (202) which are vertically fixed are inserted into the two strip-shaped grooves (201), an inner shaft (203) with the diameter smaller than that of each vertical shaft (202) is embedded into each vertical shaft (202), sliding grooves (204) are distributed on the surface of each inner shaft (203), the top of each vertical shaft (202) is fixedly welded with the bottom surface of the upper cooling cover (1), and the upper cooling cover (1) and the lower cooling cover (2) are connected into a whole through the vertical shafts (202).

2. A cooling apparatus for injection molding according to claim 1, wherein: an upper semicircular groove (101) is formed in the center of the lower surface of the upper cooling cover (1), two arc plates (102) which are symmetrically arranged left and right are attached to the inner wall of the upper semicircular groove (101), two rows of through holes (103) communicated with the insertion holes (107) are formed in the surface of each arc plate (102), and each row of through holes (103) is formed by four through holes (103).

3. A cooling apparatus for injection molding according to claim 2, wherein: the connecting pipe (405) and the spraying pipe (406) both penetrate through the jack (107) and the through hole (103) and are parallel to the inner walls of the two arc-shaped plates (102).

4. A cooling apparatus for injection molding according to claim 3, wherein: lower cooling cover (2) upper surface center is opened has lower half slot (205), just slot (206) have all been opened to the top in the preceding left and right sides of lower half slot (205), half slot (205) imbeds down and has arc layer board (3), just arc layer board (3) left and right sides all is fixed with inserted block (301) that insert in slot (206), the welding of arc layer board (3) preceding below central point position has hand (302).

5. A cooling device for injection molding according to claim 4, wherein: the upper semicircular groove (101) and the lower semicircular groove (205) are symmetrically arranged and are positioned on the same vertical horizontal line.

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