CN210586990U - Vibration boiling cooler - Google Patents

Abstract

The utility model discloses a vibration boiling cooler, including the protective housing, the left and right sides symmetry of protective housing is provided with the division board, the welding has the connecting block between the lateral wall of division board and protective housing, first end cap and second end cap have been welded respectively in the inner wall left side of protective housing, fixedly connected with passage on the right side wall of first end cap and second end cap, the inside of passage is provided with condensate pipe, left side be provided with inlet tube and outlet pipe on the division board respectively. According to the vibration boiling cooler, water in the water tank is conveniently conveyed into the condensed water pipe through the water pump on the water inlet pipe and then flows back into the water tank through the water outlet pipe, so that the effect that the surface temperature of resin sand is adsorbed by water flowing in the condensed water pipe is achieved; and then the air blower inputs air into the material guide pipe through the air inlet pipe, so that the resin sand in the material guide pipe is discharged from the material discharge pipe, and the heat dissipation effect is improved.

Description

Vibration boiling cooler

Technical Field

The utility model belongs to the technical field of the boiling cooler, concretely relates to vibration boiling cooler.

Background

At present, a complete set of sand treatment equipment is usually required to be used in the process of producing casting clay sand, resin sand and sodium silicate sand, and the vibration boiling cooler plays an important role in the sand treatment process, can effectively help the clay sand, the resin sand and the sodium silicate sand after production to dissipate heat, and improves the production efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a vibration boiling cooler to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a vibration boiling cooler comprises a protective box, wherein isolation plates are symmetrically arranged on the left side and the right side of the protective box, connecting blocks are welded between the isolation plates and the outer side wall of the protective box, a first plug and a second plug are respectively welded on the left side of the inner wall of the protective box, guide pipes are fixedly connected to the right side walls of the first plug and the second plug, condensate pipes are arranged inside the guide pipes, a water inlet pipe and a water outlet pipe are respectively arranged on the left side of the isolation plates, one end of the water inlet pipe sequentially penetrates through the protective box and the first plug and is connected with one end of the condensate pipe, one end of the water outlet pipe sequentially penetrates through the protective box and the second plug and is connected with the other end of the condensate pipe, an air inlet pipe is connected to the top end of each guide pipe, an air blower is arranged at the top end of the protective box and is connected with the air blower, and a, the feeding pipe runs through the protection box and extends to the top end of the protection box to be connected with the feeding hopper, the bottom end of the feeding pipe is connected with the discharging pipe, and the discharging pipe extends to the bottom end of the protection box.

The device is used for conveniently conveying water in the water tank into the condensed water pipe through the water pump on the water inlet pipe and then reflowing into the water tank through the water outlet pipe, so that the effect that the surface temperature of the resin sand is adsorbed by the water flowing in the condensed water pipe is achieved; and then the air blower inputs air into the material guide pipe through the air inlet pipe, so that the resin sand in the material guide pipe is discharged from the material discharge pipe, and the heat dissipation effect is improved.

Preferably, the bottom of guard box is provided with the metal frame, the fixed surface of metal frame is connected with metal mesh, the bottom symmetry of metal frame is provided with two vibrating motor.

This setting is used for under vibrating motor's effect, drives the metal frame vibration, makes the resin sand that falls into on the metal mesh screen reach the purpose of vibration filtration.

Preferably, the lateral wall symmetric welding of metal frame has two movable rods, the movable rod runs through the division board, and the tip and the stopper welding of movable rod, the outside cover of movable rod has the spring, and the both sides of division board all are equipped with the spring.

This setting is used for using through the cooperation of movable rod with the spring, and the effectual metal frame that has improved is rocking the effect, has improved the filtration efficiency of resin sand.

Preferably, the air inlet pipe is the vertical setting of droop with the discharging pipe, the bottom opening part of discharging pipe is for cooperating the metal mesh screen use.

Preferably, the material guide pipe and the condensate pipe are both S-shaped, and the condensate pipe is an aluminum alloy pipe.

Preferably, the left ends of the water inlet pipe and the water outlet pipe are connected with a water tank, and a water pump is arranged on the water inlet pipe.

The utility model discloses a technological effect and advantage: the vibration boiling cooler is provided with a plurality of cooling holes,

1. the water in the water tank is conveniently conveyed into the condensate water pipe through the water pump on the water inlet pipe and then flows back into the water tank through the water outlet pipe, so that the effect that the surface temperature of the resin sand is adsorbed by the water flowing in the condensate water pipe is achieved; and then the air blower inputs air into the material guide pipe through the air inlet pipe, so that the resin sand in the material guide pipe is discharged from the material discharge pipe, and the heat dissipation effect is improved.

2. Under vibrating motor's effect, drive the metal frame vibration, make the resin sand that falls into on the metal mesh screen reach vibration filter's purpose, use through the cooperation of movable rod with the spring, the effectual metal frame that has improved is rocking the effect, has improved the filtration efficiency of resin sand.

Drawings

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

FIG. 2 is a bottom schematic view of the metal frame of the present invention;

fig. 3 is an enlarged view of a portion a of fig. 1 according to the present invention.

In the figure: 1. a protective box; 2. a separator plate; 3. connecting blocks; 4. a first plug; 5. a second plug; 6. a material guide pipe; 7. a condensate pipe; 8. a water inlet pipe; 9. a water outlet pipe; 10. an air inlet pipe; 11. a blower; 12. a feeding pipe; 13. feeding into a hopper; 14. a metal frame; 141. a metal screen; 142. a vibration motor; 15. a movable rod; 16. a limiting block; 17. a spring; 18. a discharge pipe; 19. a water tank; 20. and (4) a water pump.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

The utility model provides a vibration boiling cooler as shown in figures 1-3, which comprises a protective box 1, wherein the left side and the right side of the protective box 1 are symmetrically provided with isolation plates 2, a connecting block 3 is welded between the isolation plates 2 and the outer side wall of the protective box 1, the left side of the inner wall of the protective box 1 is respectively welded with a first plug 4 and a second plug 5, the right side walls of the first plug 4 and the second plug 5 are fixedly connected with a material guide pipe 6, the interior of the material guide pipe 6 is provided with a condensate pipe 7, the left side of the protective box 2 is respectively provided with a water inlet pipe 8 and a water outlet pipe 9, one end of the water inlet pipe 8 sequentially penetrates through the protective box 1 and the first plug 4 and is connected with one end of the condensate pipe 7, one end of the water outlet pipe 9 sequentially penetrates through the protective box 1 and the second plug 5 and is connected with the other end of the condensate pipe 7, the top end of the material guide, the top of protective housing 1 is provided with air-blower 11, air-supply line 10 is connected with air-blower 11, the top of passage 6 is connected with pan feeding pipe 12, pan feeding pipe 12 runs through protective housing 1, and extends to the top of protective housing 1 and is connected with into hopper 13, the bottom of passage 6 is connected with discharging pipe 18, and discharging pipe 18 extends to the bottom of protective housing 1.

Specifically, the bottom end of the protection box 1 is provided with a metal frame 14, the surface of the metal frame 14 is fixedly connected with a metal screen 141, and the bottom end of the metal frame 14 is symmetrically provided with two vibrating motors 142.

Specifically, the outer side wall symmetrical welding of metal frame 14 has two movable rods 15, movable rod 15 runs through division board 2, and the tip and the stopper 16 welding of movable rod 15, the outside cover of movable rod 15 has spring 17, and the both sides of division board 2 all are equipped with spring 17.

Specifically, the air inlet pipe 10 and the discharge pipe 18 are vertically arranged, and an opening at the bottom end of the discharge pipe 18 is matched with a metal screen 141.

Specifically, the material guide pipe 6 and the condensate pipe 7 are both S-shaped, and the condensate pipe 7 is an aluminum alloy pipe.

Specifically, the left ends of the water inlet pipe 8 and the water outlet pipe 9 are connected with a water tank 19, and a water pump 20 is arranged on the water inlet pipe 8.

When the vibration boiling cooler is used, resin sand is poured into a feeding hopper 13 and then enters a material guide pipe 6 through a feeding pipe 12; the water in the water tank 19 is conveniently conveyed into the condensate pipe 7 through the water inlet pipe 8 by the water pump 20 on the water inlet pipe 8 and then flows back into the water tank 19 through the water outlet pipe 9, so that the effect that the surface temperature of the resin sand is adsorbed by the water flowing in the condensate pipe 7 is achieved; then, air is input into the material guiding pipe 6 through the air inlet pipe 10 by the blower 11, so that the resin sand in the material guiding pipe 6 is discharged from the material discharging pipe 18; under the action of the vibrating motor 142, the metal frame 14 is driven to vibrate, so that the resin sand falling onto the metal screen 141 achieves the purpose of vibration filtration; through the cooperation use of movable rod 15 and spring 17, effectual metal frame 14 that has improved is rocking the effect, has improved the filtration efficiency of resin sand.

Finally, it should be noted that: although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications and variations can be made in the embodiments or in part of the technical features of the embodiments without departing from the spirit and the scope of the invention.

Claims (6)

1. A vibrating boiling cooler comprising a protective box (1), characterized in that: the protection box comprises a protection box body (1), wherein isolation plates (2) are symmetrically arranged on the left side and the right side of the protection box body (1), connecting blocks (3) are welded between the isolation plates (2) and the outer side wall of the protection box body (1), a first plug (4) and a second plug (5) are respectively welded on the left side of the inner wall of the protection box body (1), a material guide pipe (6) is fixedly connected onto the right side wall of the first plug (4) and the right side wall of the second plug (5), a condensate pipe (7) is arranged inside the material guide pipe (6), a water inlet pipe (8) and a water outlet pipe (9) are respectively arranged on the left side of the isolation plate body (2), one end of the water inlet pipe (8) sequentially penetrates through the protection box body (1) and the first plug (4) and is connected with one end of the condensate pipe (7), one end of the water outlet pipe (9) sequentially penetrates through the protection box body (, the top of passage (6) is connected with air-supply line (10), the top of protective housing (1) is provided with air-blower (11), air-supply line (10) are connected with air-blower (11), the top of passage (6) is connected with pan feeding pipe (12), pan feeding pipe (12) run through protective housing (1), and extend to the top of protective housing (1) and be connected with into hopper (13), the bottom of passage (6) is connected with discharging pipe (18), and discharging pipe (18) extend to the bottom of protective housing (1).

2. A vibratory boiling cooler as set forth in claim 1 wherein: the bottom of guard box (1) is provided with metal frame (14), the fixed surface of metal frame (14) is connected with metal mesh (141), the bottom symmetry of metal frame (14) is provided with two vibrating motor (142).

3. A vibratory boiling cooler as set forth in claim 2 wherein: the outer wall symmetrical welding of metal frame (14) has two movable rods (15), division board (2) is run through in movable rod (15), and the tip and stopper (16) welding of movable rod (15), the outside cover of movable rod (15) has spring (17), and the both sides of division board (2) all are equipped with spring (17).

4. A vibratory boiling cooler as set forth in claim 1 wherein: the air inlet pipe (10) and the discharge pipe (18) are vertically arranged, and an opening at the bottom end of the discharge pipe (18) is matched with a metal screen (141) for use.

5. A vibratory boiling cooler as set forth in claim 1 wherein: the material guide pipe (6) and the condensate pipe (7) are both S-shaped, and the condensate pipe (7) is an aluminum alloy pipe.

6. A vibratory boiling cooler as set forth in claim 1 wherein: the left ends of the water inlet pipe (8) and the water outlet pipe (9) are connected with a water tank (19), and a water pump (20) is arranged on the water inlet pipe (8).

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