CN216324980U - Energy-saving die cooling device for zinc ingot production - Google Patents

Abstract

The utility model discloses an energy-saving die cooling device for zinc ingot production, and relates to the technical field of zinc ingot processing related equipment. The utility model comprises an upper box body and a lower box body, wherein the upper box body is fixed at the upper side position of the lower box body, an inclined plate is arranged inside the lower box body, trapezoidal seats are fixed at the upper parts of the left side and the right side of the lower box body, supporting plates are fixed at the upper ends of the trapezoidal seats far away from the lower box body, a screw rod is arranged between the two supporting plates right above the upper box body, a ball seat is sleeved on the surface side wall of the screw rod, a movable ring is sleeved on the surface side wall of the ball seat, a placing plate is arranged in the middle part above the inclined plate, and the left part and the right part of the lower end of the placing plate are movably connected with a sliding roller. According to the utility model, the placing plate moves on the upper side of the inclined plate, so that cooling water can rapidly cool the die at the upper end of the placing plate, the use efficiency of the die is further improved, and meanwhile, the sliding roller ensures the placing plate to stably move on the inclined plate, and the stability of the taking and placing time of the die is ensured.

Description

Energy-saving die cooling device for zinc ingot production

Technical Field

The utility model belongs to the technical field of zinc ingot processing related equipment, and particularly relates to an energy-saving die cooling device for zinc ingot production.

Background

The zinc ingot is pure zinc, and of course, there are impurities, but the purity of the zinc ingot is at least 90%. The application of the zinc ingot is as follows: the zinc ingot production process is mainly used for die-casting alloys, battery industry, printing and dyeing industry, pharmaceutical industry, rubber industry, chemical industry and the like, zinc and other metal alloys are widely applied to the industries of electroplating, spraying and the like, and in the process of zinc ingot production, a used die is subjected to baking processing, so that after the die baking process is finished, the die needs to be cooled, and then a cooling device is used, but the zinc ingot production process still has the following defects in practical use:

1. the existing cooling device cannot rapidly cool the die, and mostly adopts cold air to cool the die, so that the die needs to be kept still for a long time, and the use efficiency of the die is reduced;

2. when the existing cooling device cools the die, the bottom of the existing cooling device does not have a sliding effect, so that collision is easy to occur, the cooling device cannot move accurately, and the efficiency of taking and placing the die is further influenced.

Therefore, the existing energy-saving mold cooling device for zinc ingot production cannot meet the requirements in practical use, so that an improved technology is urgently needed in the market to solve the problems.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an energy-saving die cooling device for zinc ingot production, which can ensure that cooling water can rapidly cool a die at the upper end of a placing plate by moving the placing plate on the upper side of an inclined plate, thereby improving the use efficiency of the die, and simultaneously ensure that the placing plate stably moves on the inclined plate by a sliding roller, thereby ensuring the stability of the taking and placing time of the die.

In order to solve the technical problems, the utility model is realized by the following technical scheme:

the utility model relates to an energy-saving die cooling device for zinc ingot production, which comprises an upper box body and a lower box body, wherein the upper box body is fixed at the upper side position of the lower box body, an inclined plate is arranged inside the lower box body, trapezoidal seats are fixed at the upper parts of the left side and the right side of the lower box body, supporting plates are fixed at the upper ends of the trapezoidal seats far away from the lower box body, a lead screw is arranged between the two supporting plates right above the upper box body, a ball seat is sleeved on the surface side wall of the lead screw, and a movable ring is sleeved on the surface side wall of the ball seat;

the middle part of the upper part of the inclined plate is provided with a placing plate, the left part and the right part of the lower end of the placing plate are both movably connected with sliding rollers, and the surface sides of the sliding rollers are connected with the upper side of the placing plate.

Further, the lower extreme of activity ring is fixed with the link, the downside of link is fixed with the bungee cord, the lower extreme of bungee cord with place the four corners department fixed connection of board upper end, through pulling of bungee cord to placing the board for the activity ring can drive the bungee cord and remove, and the longest length that the bungee cord was pulled equals the maximum distance between lead screw and the hang plate.

Further, the end all is fixed with square piece about the hang plate, square mouthful has all been seted up to the position department that the inboard position corresponds square piece of controlling of box down, square piece is arranged in corresponding square mouthful.

Furthermore, a water inlet pipeline is fixed at the upper left part of the front side of the lower box body, and a water outlet pipeline is fixed at the lower box body at the lower right part of the water inlet pipeline.

Furthermore, the left end and the right end of the lead screw penetrate through the corresponding supporting plates, the connecting part of the lead screw and the supporting plates is rotatably connected through a bearing, supporting rods are fixed between the supporting plates at the front and the rear of the lead screw, a motor is fixed on the left side wall of the supporting plate at the left side of the lower box body, and the left end of the lead screw is fixed on the rotating shaft end of the motor.

Furthermore, a ring opening is formed in the middle of the inner side of the movable ring, a rotating ring is fixed in the middle of the outer side wall of the ball seat, the rotating ring is arranged inside the ring opening, and the rotating ring is limited through the ring opening, so that the rotating ring can directly drive the movable ring to move.

Furthermore, the upper end of the upper box body is provided with a through hole corresponding to the position of the screw rod, the lower parts of the left side and the right side of the upper box body are provided with transverse holes corresponding to the positions of the through holes, the transverse holes are communicated with the through holes, the upper box body on the front side and the rear side of the screw rod are respectively fixed with a ventilating tube, and a fan is fixed inside the ventilating tube

The utility model has the following beneficial effects:

1. according to the utility model, the inclined plate and the placing plate are arranged, when the mold needs to be cooled, the placing plate is firstly moved to the position on the upper side of the trapezoidal seat, and then the mold is placed at the position on the upper end of the placing plate, so that the placing plate can directly pass through the lower box body after the movable ring drives the placing plate to move on the inclined plate due to the rotation of the screw rod, and the placing plate can drive the mold to pass through cooling water in the lower box body, and the rapid cooling effect is achieved in such a way.

2. According to the utility model, the sliding roller is arranged, when the placing plate moves above the inclined plate, the placing plate can drive the sliding roller to slide on the upper side wall of the inclined plate, and after the sliding roller slides to the diagonal position of the inclined plate, the sliding roller can directly slide through the diagonal position, so that the situation that the placing plate is blocked at the diagonal position of the inclined plate can be prevented, and the smooth movement of the placing plate on the upper side of the inclined plate is ensured.

Of course, it is not necessary for any product in which the utility model is practiced to achieve all of the above-described advantages at the same time.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

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

FIG. 2 is a connection diagram of the internal structure of the screw and the lower case of the present invention;

FIG. 3 is a schematic view of the internal structure of the lower case of the present invention;

FIG. 4 is a view showing a structure of a mounting plate according to the present invention;

FIG. 5 is a view showing the structure of a screw according to the present invention;

FIG. 6 is a schematic structural diagram of an upper case and a lower case of the present invention.

In the drawings, the components represented by the respective reference numerals are listed below:

1. an upper box body; 101. a funnel; 102. a fan; 103. a through opening; 104. a transverse port; 2. a lead screw; 201. a ball seat; 202. a rotating ring; 3. a lower box body; 301. a water inlet pipe; 302. a water outlet pipeline; 303. a trapezoidal base; 304. a support plate; 305. a square opening; 306. a bearing; 307. a strut; 4. a motor; 5. an inclined plate; 501. a square block; 6. placing the plate; 601. a sliding roller; 602. a bungee cord; 603. a movable ring; 604. hanging a ring; 605. and (4) looping.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1-6, the utility model is an energy-saving mold cooling device for zinc ingot production, comprising an upper case 1 and a lower case 3, wherein the upper case 1 is fixed at the upper side of the lower case 3, an inclined plate 5 is arranged inside the lower case 3, trapezoidal bases 303 are fixed at the upper parts of the left and right sides of the lower case 3, support plates 304 are fixed at the upper ends of the trapezoidal bases 303 far away from the lower case 3, a lead screw 2 is arranged between the two support plates 304 right above the upper case 1, a ball seat 201 is sleeved on the surface side wall of the lead screw 2, a movable ring 603 is sleeved on the surface side wall of the ball seat 201, a motor 4 is fixed on the left side wall of the support plate 304 right above the lower case 3, the left end of the lead screw 2 is fixed on the rotating shaft end of the motor 4, a tension rope 602 is fixed on the lower side of a hanging ring 604, the lead screw 2 is driven to rotate by the motor 4, so that the lead screw 2 directly drives the ball seat 201 to move, then the ball seat 201 can drive the movable ring 603 to move, at this time, the movable ring 603 drives the placing plate 6 to slide left and right on the upper end of the inclined plate 5 through the elastic rope 602, after the movable ring 603 moves to the position right above the trapezoidal seat 303, therefore, the movable ring 603 can directly drive the placing plate 6 to slide on the inclined plate 5 to the position of the upper end of the trapezoidal seat 303, at this time, the mold is placed at the position of the upper end of the placing plate 6, and slides on the inclined plate 5 through the placing plate 6, in this way, the mold penetrates through the bottom of the lower box body 3, and then the mold on the placing plate 6 can penetrate through the cooling water at the bottom side of the lower box body 3, and then the mold is cooled;

the middle part of the upper side of the inclined plate 5 is provided with a placing plate 6, the left part and the right part of the lower end of the placing plate 6 are movably connected with a sliding roller 601, the surface side of the sliding roller 601 is connected with the upper side of the placing plate 6, when the placing plate 6 moves above the inclined plate 5, the placing plate 6 can drive the sliding roller 601 to slide on the upper side wall of the inclined plate 5, after the sliding roller 601 slides to the diagonal position of the inclined plate 5, the sliding roller 601 can directly slide across the diagonal position, and further the situation that the 5 diagonal plate of the placing plate 6 on the inclined plate is blocked can be prevented.

As shown in fig. 1 and 3, a hanging ring 604 is fixed at the lower end of a movable ring 603, the lower end of an elastic rope 602 is fixedly connected with four corners of the upper end of a placing plate 6, square blocks 501 are fixed at the left end and the right end of an inclined plate 5, square openings 305 are formed in positions of the left side and the right side of the inner side of a lower box 3 corresponding to the square blocks 501, the square blocks 501 are arranged in the corresponding square openings 305, a water inlet pipeline 301 is fixed at the upper left part of the front side of the lower box 3, a water outlet pipeline 302 is fixed at the lower box 3 at the lower right part of the water inlet pipeline 301, cooling water is added into the lower box 3 by opening the water inlet pipeline 301, and in the process of adding cooling water, the cooling water is required to be guaranteed not to exceed the bottom position of the square openings 305, and after the water outlet pipeline 302 is opened, the cooling water inside the lower box 3 can be discharged.

As shown in fig. 1, 3, 4, and 6, the left and right ends of the screw rod 2 pass through the corresponding supporting plates 304, the joint of the screw rod 2 and the supporting plates 304 is rotatably connected through the bearings 306, the supporting rods 307 are fixed between the two supporting plates 304 at the front and rear of the screw rod 2, the middle part of the inner side of the movable ring 603 is provided with a ring opening 605, the middle part of the outer side wall of the ball seat 201 is fixed with a rotating ring 202, when the ball seat 201 rotates on the screw rod 2, the ball seat 201 can drive the rotating ring 202 to rotate inside the ring opening 605, so the rotating ring 202 drives the ball seat 201 to move, the rotating ring 202 is arranged inside the ring opening 605, the upper end of the upper box 1 is provided with a through opening 103 corresponding to the position of the screw rod 2, the lower part of the left and right sides of the upper box 1 is provided with a transverse opening 104 corresponding to the through opening 103, the bungee cord 602 can pass through the middle part of the upper box 1 through the through opening 103, and the transverse opening 104 is communicated with the through opening 103, through the transverse opening 104, the placing plate 6 can move to the upper side position of the trapezoidal seat 303 on the inclined plate 5, the ventilating ducts 101 are fixed on the upper box body 1 in the front and back of the screw rod 2, the fans 102 are fixed inside the ventilating ducts 101, and when the placing plate 6 moves on the inclined plate 5, the fans 102 are controlled to work, so that the cooling water on the placing plate 6 can be blown off by the fans 102.

The above are only preferred embodiments of the present invention, and the present invention is not limited thereto, and any modification, equivalent replacement, and improvement made to the technical solutions described in the above embodiments, and to some of the technical features thereof, are included in the scope of the present invention.

Claims (7)

1. The utility model provides a zinc ingot production is with energy-conserving type die cooling device, includes last box (1) and lower box (3), go up the upside position that box (1) is fixed at lower box (3), its characterized in that: an inclined plate (5) is arranged in the lower box body (3), trapezoidal seats (303) are fixed to the upper portions of the left side and the right side of the lower box body (3), supporting plates (304) are fixed to the portions, far away from the lower box body (3), of the upper ends of the trapezoidal seats (303), a lead screw (2) is arranged between the two supporting plates (304) right above the upper box body (1), a ball seat (201) is sleeved on the surface side wall of the lead screw (2), and a movable ring (603) is sleeved on the surface side wall of the ball seat (201);

a placing plate (6) is arranged in the middle above the inclined plate (5), the left and right parts of the lower end of the placing plate (6) are movably connected with sliding rollers (601), and the surface sides of the sliding rollers (601) are connected with the upper side of the placing plate (6).

2. The energy-saving die cooling device for zinc ingot production according to claim 1, wherein a hanging ring (604) is fixed at the lower end of the movable ring (603), an elastic rope (602) is fixed at the lower side of the hanging ring (604), and the lower end of the elastic rope (602) is fixedly connected with the four corners of the upper end of the placing plate (6).

3. The energy-saving die cooling device for zinc ingot production according to claim 1, wherein the left end and the right end of the inclined plate (5) are both fixed with square blocks (501), the positions of the left part and the right part of the inner side of the lower box body (3) corresponding to the square blocks (501) are both provided with square openings (305), and the square blocks (501) are arranged in the corresponding square openings (305).

4. The energy-saving die cooling device for zinc ingot production according to claim 1, wherein a water inlet pipeline (301) is fixed at the left upper part of the front side of the lower box body (3), and a water outlet pipeline (302) is fixed at the lower box body (3) at the right lower part of the water inlet pipeline (301).

5. The energy-saving die cooling device for zinc ingot production according to claim 1, wherein the left end and the right end of the lead screw (2) penetrate through the corresponding support plates (304), the joint of the lead screw (2) and the support plates (304) is rotatably connected through a bearing (306), a support rod (307) is fixed between the two support plates (304) at the front and the rear of the lead screw (2), the motor (4) is fixed on the left side wall of the support plate (304) at the left of the lower box body (3), and the left end of the lead screw (2) is fixed on the rotating shaft end of the motor (4).

6. The energy-saving die cooling device for zinc ingot production according to claim 1, wherein a ring opening (605) is formed in the middle of the inner side of the movable ring (603), a rotating ring (202) is fixed in the middle of the outer side wall of the ball seat (201), and the rotating ring (202) is arranged inside the ring opening (605).

7. The energy-saving die cooling device for zinc ingot production according to claim 1, wherein a through hole (103) is formed in the upper end of the upper box body (1) corresponding to the position of the lead screw (2), a transverse hole (104) is formed in the lower portion of the left side and the right side of the upper box body (1) corresponding to the position of the through hole (103), the transverse hole (104) is communicated with the through hole (103), the ventilation barrels (101) are fixed to the upper box body (1) in the front and the rear of the lead screw (2), and the fans (102) are fixed to the inside of the ventilation barrels (101).

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