CN216204547U - Refrigerating device for in-situ pool - Google Patents

Abstract

The utility model discloses a refrigerating device for an in-situ pond, which comprises a refrigerating cylinder, wherein at least one first hole is formed in the cylinder wall of the refrigerating cylinder, the first hole is connected with a first pipe body, a second pipe body is arranged in the first pipe body, a gap is formed between the second pipe body and the first pipe body, one end of the second pipe body extends out of the first pipe body, the other end of the second pipe body extends into the refrigerating cylinder, the second hole formed in the cylinder wall of the refrigerating cylinder penetrates through the second hole in a sealing mode and then extends out of the refrigerating cylinder, and then the second pipe body is connected with a third hole formed in the bottom of the refrigerating cylinder. The refrigerating device for the in-situ pool is beneficial to adding the refrigerating fluid, providing the refrigerating fluid for the equipment needing to be cooled, returning the refrigerant of the vapor to the refrigerating cylinder to realize circulation and being convenient to use.

Description

Refrigerating device for in-situ pool

Technical Field

The utility model relates to the technical field of experimental analysis equipment, in particular to a refrigerating device for an in-situ pool.

Background

When the existing in-situ reaction system is used for in-situ reaction, a cold source is sometimes required to be provided for the in-situ reaction tank, the in-situ reaction tank is cooled, and a cooling environment for the in-situ reaction is provided.

However, the existing refrigerating apparatus of the in-situ tank is inconvenient to use, and thus, needs to be improved.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a refrigerating device for an in-situ pool, aiming at the technical defects in the prior art.

The technical scheme adopted for realizing the purpose of the utility model is as follows:

the refrigerating device for the in-situ pond comprises a refrigerating cylinder, wherein at least one first hole is formed in the cylinder wall of the refrigerating cylinder and connected with a first pipe body, a second pipe body is arranged in the first pipe body, a gap is formed between the second pipe body and the first pipe body, one end of the second pipe body extends out of the first pipe body, the other end of the second pipe body extends into the refrigerating cylinder, the second hole formed in the cylinder wall of the refrigerating cylinder penetrates through the second hole in a sealing mode and then extends out of the refrigerating cylinder, and then the second hole is connected with a third hole formed in the bottom of the refrigerating cylinder.

Preferably, the number of the first holes is two, and the first holes are arranged at intervals in a radial direction of the first holes.

Preferably, the number of the second holes is two, and the second holes are arranged on the wall of the refrigerating cylinder at intervals along the radial direction of the second holes.

Preferably, the number of the third holes is two, and the cooling cylinder is arranged on the bottom end face of the cooling cylinder at intervals along the radial direction of the third holes.

Preferably, a refrigerant liquid filling hole is formed in the side wall of the refrigerating cylinder.

Preferably, the refrigeration cylinder comprises a first cylinder body, a second cylinder body and a third cylinder body, and the cylinder diameters of the first cylinder body, the second cylinder body and the third cylinder body are sequentially increased and concentrically arranged.

Preferably, the first hole is arranged on the wall of the first barrel, and the refrigerant liquid filling hole is arranged on the wall of the third barrel.

The refrigerating device for the in-situ pool is beneficial to adding the refrigerating fluid, providing the refrigerating fluid for the equipment needing cooling, returning the refrigerant to the refrigerating cylinder to realize circulation and being convenient to use.

Drawings

Fig. 1 is a schematic view of the overall construction of a refrigerating apparatus for an in-situ tank of the present invention.

Detailed Description

The utility model is described in further detail below with reference to the figures and specific examples. It should be understood that the specific embodiments described herein are merely illustrative of the utility model and are not intended to limit the utility model.

As shown in fig. 1, a refrigeration device for an in-situ pond according to an embodiment of the present invention includes a refrigeration cylinder, at least one first hole 11 is formed on a cylinder wall of the refrigeration cylinder, the hole is connected to a first pipe 3 in a welding and sealing manner, a second pipe 9 is disposed in the first pipe, a gap 5 is formed between the second pipe and the first pipe, one end 4 of the second pipe 9 extends out of the first pipe 3, the other end 10 extends into the refrigeration cylinder, and the second hole 12 formed on the cylinder wall of the refrigeration cylinder penetrates through the second hole and is sealed and extends out of the refrigeration cylinder, and then is connected to a third hole 13 formed at a bottom 8 of the refrigeration cylinder in a sealing manner, and the second pipe, the second hole and the third hole are all connected in a welding manner.

Optionally, the number of the first holes 11 is two, and the first holes are spaced apart from each other in a radial direction of the first holes 11.

Optionally, the number of the second holes 12 is two, and the two second holes are arranged on the wall of the refrigerating cylinder at intervals along the radial direction of the second holes 12.

Optionally, the number of the third holes 13 is two, and the bottom end face of the refrigeration cylinder is arranged at a distance along the radial direction of the third holes 13.

Optionally, a fourth hole 14 is formed in the side wall of the refrigeration cylinder, and the fourth hole 14 is connected with a refrigerant liquid filling hole 2, so that refrigerant liquid, such as liquid nitrogen, can be added conveniently.

Optionally, the refrigeration cylinder includes a first cylinder 6, a second cylinder 7 and a third cylinder 1, and the cylinder diameters of the first cylinder, the second cylinder and the third cylinder are sequentially increased and concentrically arranged.

Preferably, the first hole 11 is arranged on the wall of the first cylinder 6, and the refrigerant fluid filling hole 2 is arranged on the wall of the third cylinder.

Wherein, a circulating pump (not shown) can be arranged on the first pipe body.

The utility model can provide the refrigerating fluid to the equipment 15 needing cooling through the second tube body, and can realize the backflow of the refrigerating fluid through the gap between the first tube body and the second tube body, thereby forming a circulating system of the refrigerating fluid.

The refrigerating device for the in-situ pool is beneficial to adding the refrigerating fluid, providing the refrigerating fluid for the equipment needing to be cooled, returning the refrigerant of the vapor to the refrigerating cylinder to realize circulation and being convenient to use.

The foregoing is only a preferred embodiment of the present invention, and it should be noted that, for those skilled in the art, various modifications and decorations can be made without departing from the principle of the present invention, and these modifications and decorations should also be regarded as the protection scope of the present invention.

Claims (7)

1. The refrigerating device for the in-situ pond is characterized by comprising a refrigerating cylinder, wherein at least one first hole is formed in the cylinder wall of the refrigerating cylinder and connected with a first pipe body, a second pipe body is arranged in the first pipe body, a gap is formed between the second pipe body and the first pipe body, one end of the second pipe body extends out of the first pipe body, the other end of the second pipe body extends into the refrigerating cylinder, the second hole formed in the cylinder wall of the refrigerating cylinder penetrates through the second hole in a sealing mode and then extends out of the refrigerating cylinder, and then the second pipe body is connected with a third hole formed in the bottom of the refrigerating cylinder.

2. The refrigerating apparatus for an in-situ tank as recited in claim 1, wherein said first holes are two and spaced apart in a radial direction of said first holes.

3. The refrigerating device for an in-situ pond according to claim 2, wherein the number of the second holes is two, and the two second holes are arranged on the wall of the refrigerating cylinder at intervals along the radial direction of the second holes.

4. A refrigerating apparatus for an in-situ pond according to claim 3, wherein said third holes are two, and said refrigerating cylinder is disposed at a bottom end surface thereof in a radial direction of said third holes at a spacing.

5. The refrigerating device for an in-situ pond according to claim 4, wherein a refrigerant liquid filling hole is formed in a side wall of the refrigerating cylinder.

6. The refrigerating device for the in-situ pond according to claim 5, wherein the refrigerating cylinder comprises a first cylinder, a second cylinder and a third cylinder, and the cylinder diameters of the first cylinder, the second cylinder and the third cylinder are sequentially increased and are concentrically arranged.

7. The refrigerating device for an in-situ pond according to claim 6, wherein the first hole is arranged on the wall of the first cylinder, and the hole for filling the refrigerant liquid is arranged on the wall of the third cylinder.

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