CN216297940U - Cooling device is used in production of valve tap accessory - Google Patents

Abstract

The utility model discloses a cooling device for producing valve faucet accessories, which comprises a device main body, wherein the device main body comprises a main body shell, a tank body installation groove, a liquid nitrogen storage tank, a working groove, a placing table, a slag discharging inclined plane, a slag discharging hole and a conveying bottom groove, a conveying structure is arranged at the bottom side of the device main body and comprises a conveying base, a splash-proof fence, a crack blocking inclined plane and a conveying belt, the working structure is arranged in the device main body and comprises a lifting column, an ultra-frequency vibration motor, a liquid nitrogen pressure pump, a nitrogen through pipe and a cooling vibration transmission head, the tank body installation groove is formed in the main body shell, and the liquid nitrogen storage tank is arranged in the tank body installation groove. The cooling device for producing the valve faucet accessories can instantly reduce the temperature of the casting body, achieves the effect similar to quenching, improves the strength of the casting body while cooling rapidly, and performs demoulding operation while cooling.

Description

Cooling device is used in production of valve tap accessory

Technical Field

The utility model relates to the field of cooling devices, in particular to a cooling device for producing valve faucet accessories.

Background

Production such as valve tap accessory generally goes on with the mode of casting, and between the casting, need make supporting mould according to the actual design condition of valve tap accessory, and can not reuse, among the current production technology, wait for continuous mode casting body natural cooling or through other cooling device cooling backs most, carry out the foundry goods drawing of patterns again, influenced the production speed of whole production line, production efficiency remains to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a cooling device for producing valve faucet accessories, which can effectively solve the problems in the background technology.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides a cooling device is used in production of valve tap accessory, includes the device main part, the device main part includes main body cover, jar body mounting groove, liquid nitrogen holding vessel, work groove, places the platform, slag tap inclined plane, slag notch and conveying kerve, the conveying structure is installed to device main part bottom side, the conveying structure includes conveying base, splashproof breast board, seam blocking inclined plane and conveyer belt, device main part internally mounted has work structure, work structure includes lift post, super-frequency shock dynamo, liquid nitrogen force (forcing) pump, nitrogen gas siphunculus and cooling transmission vibration head.

Preferably, a tank body installation groove is formed in the main body shell, a liquid nitrogen storage tank is installed in the tank body installation groove, a working groove is formed in the front side of the main body shell, and a placing table is fixedly welded to the bottom side of the working groove.

Preferably, the bottom side of the working groove is provided with a slag discharging inclined plane, the lower edge of the notch of the working groove is fixedly welded with a slag discharging hole, and the bottom side of the main body shell is provided with a conveying bottom groove.

Preferably, conveying base upper surface one end fixed welding installs the splashproof breast board, conveying base one end fixed welding installs the seam inclined plane that hinders, conveying base internally mounted has the conveyer belt.

Preferably, lift post lower extreme fixed welding installs super-frequency vibration motor, super-frequency vibration motor lower extreme fixed welding installs the liquid nitrogen force (forcing) pump, super-frequency vibration motor connects on one side and installs the nitrogen gas siphunculus, super-frequency vibration motor lower extreme fixed welding installs the cooling and passes the shake head.

Preferably, the conveying base is fixedly clamped in the conveying bottom groove, and the lifting column is installed above the working groove.

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

in the utility model, a liquid nitrogen storage tank in a full tank state is arranged in a tank body installation groove in advance through a handle, a connecting pipe of the liquid nitrogen storage tank is connected with an interface at the groove wall of the tank body installation groove, a continuous die casting body which is at a high temperature and is placed for a period of time is placed on the upper surface of a placing table in a working groove, an ultra-frequency vibration motor, a liquid nitrogen pressure pump and a cooling vibration transmission head are lowered by a lifting column, the lower end of the cooling vibration transmission head is embedded into a casting opening of the continuous die casting body, the liquid nitrogen pressure pump is started, liquid nitrogen is extracted from the liquid nitrogen storage tank through a nitrogen pipe, vaporized liquid nitrogen is introduced into a cavity in the continuous die casting body through a ventilation pipeline in the cooling vibration transmission head, the temperature of the casting body is instantly lowered, the effect similar to quenching is achieved, the strength of the casting body is improved while rapid cooling is carried out, after the cooling work is finished, the ultra-frequency vibration motor is started, and the ultra-frequency vibration is transmitted to the continuous die casting body by the cooling vibration transmission head, the mold with the brittle surface of the casting body is broken and crushed to separate from the casting body, and the crushed slag of the mold falls into the conveying belt through the slag outlet at the bottom of the slag outlet inclined plane and is conveyed to other parts to be cleaned conveniently.

Drawings

FIG. 1 is a schematic view showing the overall structure of a cooling apparatus for manufacturing a valve faucet fitting according to the present invention;

FIG. 2 is a schematic diagram of a conveying structure of a cooling device for manufacturing a valve faucet fitting according to the present invention;

FIG. 3 is a sectional view of the main body of a cooling apparatus for manufacturing a valve faucet fitting according to the present invention;

FIG. 4 is a schematic diagram of the operation of the cooling device for manufacturing valve and faucet fittings of the present invention.

In the figure: 1. a device main body; 101. a main body housing; 102. a tank body mounting groove; 103. a liquid nitrogen storage tank; 104. a working groove; 105. a placing table; 106. a slag discharging inclined plane; 107. a slag outlet; 108. a transfer bottom trough; 2. a transfer structure; 201. a transport base; 202. a splash guard; 203. a seam blocking inclined plane; 204. a conveyor belt; 3. a working structure; 301. a lifting column; 302. an over-frequency vibration motor; 303. a liquid nitrogen pressure pump; 304. a nitrogen gas through pipe; 305. and cooling the vibration transmission head.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

The first embodiment is as follows:

as shown in fig. 1-4, a cooling device for producing valve faucet fittings comprises a device body 1, wherein the device body 1 comprises a body shell 101, a tank body installation groove 102, a liquid nitrogen storage tank 103, a working groove 104, a placement platform 105, a slag discharging inclined plane 106, a slag discharging port 107 and a conveying bottom groove 108, a conveying structure 2 is installed at the bottom side of the device body 1, the conveying structure 2 comprises a conveying base 201, a splash-proof baffle 202, a seam blocking inclined plane 203 and a conveying belt 204, a working structure 3 is installed inside the device body 1, and the working structure 3 comprises a lifting column 301, an over-frequency vibration motor 302, a liquid nitrogen pressure pump 303, a nitrogen through pipe 304 and a cooling vibration transmission head 305;

a tank body installation groove 102 is formed in the main body shell 101, a liquid nitrogen storage tank 103 is installed in the tank body installation groove 102, a working groove 104 is formed in the front side of the main body shell 101, a placing table 105 is fixedly welded and installed on the bottom side of the working groove 104, the liquid nitrogen storage tank 103 in a full tank state is installed in the tank body installation groove 102 through a handle in advance, and a connecting pipe of the liquid nitrogen storage tank 103 is connected with an interface at the groove wall of the tank body installation groove 102; a slag discharging inclined plane 106 is arranged at the bottom side of the working groove 104, a slag discharging hole 107 is fixedly welded at the lower edge of the notch of the working groove 104, and a conveying bottom groove 108 is arranged at the bottom side of the main body shell 101; an anti-splash baffle 202 is fixedly welded at one end of the upper surface of the conveying base 201, a seam blocking inclined plane 203 is fixedly welded at one end of the conveying base 201, and a conveying belt 204 is arranged in the conveying base 201; the lower end of the lifting column 301 is fixedly welded with an ultra-frequency vibration motor 302, the lower end of the ultra-frequency vibration motor 302 is fixedly welded with a liquid nitrogen pressure pump 303, one side of the ultra-frequency vibration motor 302 is connected with a nitrogen gas through pipe 304, and the lower end of the ultra-frequency vibration motor 302 is fixedly welded with a cooling vibration transmission head 305; lowering the ultra-frequency vibration motor 302, the liquid nitrogen pressure pump 303 and the cooling vibration transmission head 305 by using the lifting column 301, embedding the lower end of the cooling vibration transmission head 305 into a casting opening of the continuous die casting body, starting the liquid nitrogen pressure pump 303, extracting liquid nitrogen from the liquid nitrogen storage tank 103 through a nitrogen gas through pipe 304, introducing vaporized liquid nitrogen into a cavity in the continuous die casting body through a ventilation pipeline in the cooling vibration transmission head 305, instantly reducing the temperature of the casting body, starting the ultra-frequency vibration motor 302 after cooling, and transmitting ultra-frequency vibration to the continuous die casting body by using the cooling vibration transmission head 305 to break and crush a die with a brittle surface of the casting body and separate the die casting body; the conveying base 201 is fixedly clamped in the conveying bottom groove 108, and the lifting column 301 is installed above the working groove 104.

Example two:

it should be noted that, the utility model is a cooling device for producing valve faucet fittings, when in use, the liquid nitrogen storage tank 103 in full tank state is put into the tank body installation groove 102 through the handle in advance, the connection pipe of the liquid nitrogen storage tank 103 is connected with the interface at the groove wall of the tank body installation groove 102, the continuous die casting body with high temperature and placed for a period of time is put on the upper surface of the placing table 105 in the working groove 104, the super-frequency vibration motor 302, the liquid nitrogen pressure pump 303 and the cooling transmission head 305 are lowered by the lifting column 301, the lower end of the cooling transmission head 305 is embedded into the casting mouth of the continuous die casting body, the liquid nitrogen pressure pump 303 is started, the liquid nitrogen is extracted from the liquid nitrogen storage tank 103 through the nitrogen gas pipe 304, the vaporized liquid nitrogen is introduced into the cavity in the continuous die casting body through the gas pipe in the cooling transmission head 305, the temperature of the casting body is instantly lowered, the effect similar to quenching is achieved, and the rapid cooling is realized, the intensity of the casting body is improved, after cooling work is finished, the ultra-frequency vibration motor 302 is started, ultra-frequency vibration is transmitted to the continuous-die casting body through the cooling vibration transmission head 305, the die with the brittle surface of the casting body is broken and crushed to be separated from the casting body, crushed slag of the die after crushing falls into the conveying belt 204 through the slag outlet 107 at the bottom of the slag outlet inclined plane 106, and the crushed slag falls into other parts to be conveniently cleaned.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The utility model provides a cooling device is used in production of valve tap accessory which characterized in that: including device main part (1), device main part (1) includes main body cover (101), jar body mounting groove (102), liquid nitrogen holding vessel (103), work groove (104), places platform (105), slag tap inclined plane (106), slag notch (107) and conveying kerve (108), transport structure (2) are installed to device main part (1) bottom side, transport structure (2) are including conveying base (201), splashproof breast board (202), hinder and sew up inclined plane (203) and conveyer belt (204), device main part (1) internally mounted has work structure (3), work structure (3) are including lift post (301), super-frequency vibration motor (302), liquid nitrogen force (303), nitrogen gas siphunculus (304) and cooling transmission vibration head (305).

2. The valve faucet assembly production cooling device of claim 1, wherein: the tank body installation groove (102) is formed in the main body shell (101), the liquid nitrogen storage tank (103) is installed in the tank body installation groove (102), the working groove (104) is formed in the front side of the main body shell (101), and the placing table (105) is fixedly welded to the bottom side of the working groove (104).

3. The valve faucet assembly production cooling device of claim 2, wherein: the slag discharging inclined plane (106) is formed in the bottom side of the working groove (104), a slag discharging hole (107) is fixedly welded and installed at the lower edge of the notch of the working groove (104), and the conveying bottom groove (108) is formed in the bottom side of the main body shell (101).

4. The valve faucet assembly production cooling device of claim 3, wherein: conveying base (201) upper surface one end fixed welding installs splashproof breast board (202), conveying base (201) one end fixed welding installs and hinders seam inclined plane (203), conveying base (201) internally mounted has conveyer belt (204).

5. The valve faucet assembly production cooling device of claim 4, wherein: lift post (301) lower extreme fixed welding installs super-frequency shock dynamo (302), super-frequency shock dynamo (302) lower extreme fixed welding installs liquid nitrogen force (forcing) pump (303), super-frequency shock dynamo (302) one side is connected and is installed nitrogen gas siphunculus (304), super-frequency shock dynamo (302) lower extreme fixed welding installs cooling and passes vibration head (305).

6. The valve faucet assembly production cooling device of claim 5, wherein: the conveying base (201) is fixedly clamped in the conveying bottom groove (108), and the lifting column (301) is installed above the working groove (104).

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