CN213396129U - Rotation type liquid cooling structure - Google Patents

Abstract

The utility model belongs to the technical field of the coating equipment technique and specifically relates to indicate a rotation type liquid cooling structure, it includes liquid cooling microscope carrier, rotatory liquid guide plate, and liquid cooling microscope carrier inside is equipped with the liquid cooling cavity, and rotatory liquid guide plate includes drain flat board and a plurality of page or leaf, and a plurality of page or leaf are the annular array along the dull and stereotyped the central axis of drain, and the rotation of drain flat board is installed in the liquid cooling cavity, and the leading-in coolant liquid of liquid cooling cavity, rotatory liquid guide plate are used for mixxing the inside coolant liquid of liquid cooling cavity. The leading-in mobile coolant liquid of liquid cooling cavity of this liquid cooling structure, rotatory drain dish lasts the rotation, stir the inside coolant liquid of liquid cooling cavity uniformly, the leaf is the sheet structure, the panel height of leaf and the high phase-match of liquid cooling cavity, make the leaf can fully drive the coolant liquid and flow, rotatory drain dish can be effective, even, realize the cooling to the liquid cooling microscope carrier fast, make the liquid cooling microscope carrier can be in work under the high temperature environment for a long time, avoid the liquid cooling microscope carrier to burn out, the service life is prolonged, and production cost is reduced.

Description

Rotation type liquid cooling structure

Technical Field

The utility model belongs to the technical field of coating equipment technique and specifically relates to indicate a rotation type liquid cooling structure.

Background

The Hot wire CVD (HFCVD) method has the advantages of low cost, simple equipment, stable process and suitability for complex shape and large-area deposition, and is a method most suitable for the industrial production of diamond film coated cutters, and HFCVD diamond film coated drill bits and milling cutters with complex shapes are currently in the industrial process at home and abroad; when the diamond film deposition is carried out on the blade part of a drill bit or a milling cutter by using the HFCVD method, the surface temperature value, the temperature field and the distribution uniformity of the reactive group density field of the deposition region (blade region, substrate) have great influence on the film quality and uniformity. Suitable substrate temperatures for deposition of HFCVD diamond films are in the range of about 500-1000 deg.C, with an optimum range of about 700-900 deg.C.

Traditional coating apparatus's loading attachment is under the high temperature state usually, is burnt easily, and life is short, is burnt in order to prevent that loading attachment from being burnt, can carry out water-cooling to it usually, but coating apparatus loading attachment structural design among the prior art is unreasonable, and the cooling effect is poor, can not reach the standard of production, causes very big puzzlement to people.

Disclosure of Invention

The to-be-solved technical problem of the utility model is to provide a rotation type liquid cooling structure, can be effectively, realize the cooling to the liquid cooling microscope carrier fast for the liquid cooling microscope carrier can be in work under the high temperature environment for a long time, avoids the liquid cooling microscope carrier to burn out increase of service life.

In order to solve the technical problem, the utility model discloses a following technical scheme:

the utility model provides a rotation type liquid cooling structure, its includes liquid cooling microscope carrier, the liquid dish is led to the rotation, the inside liquid cooling cavity that is equipped with of liquid cooling microscope carrier, the liquid dish is led including leading the liquid flat board and set up in a plurality of blades of leading the liquid flat board, a plurality of blades are annular array along the central axis of leading the liquid flat board, lead the liquid flat board and rotate and install in the liquid cooling cavity, the leading-in coolant liquid of liquid cooling cavity, the liquid dish is used for mixxing the inside coolant liquid of liquid cooling cavity to the rotation.

Furthermore, the liquid guide flat plate is provided with a liquid guide central hole and an assembling convex ring body, and the assembling convex ring body and the liquid guide central hole are coaxially arranged.

Further, the liquid cooling structure still includes the feed liquor hollow tube, goes out liquid hollow stay tube and rotary driving piece, and the feed liquor hollow tube sets up in going out liquid hollow stay tube inside, and rotary driving piece's output is connected with the lower extreme of feed liquor hollow tube, and the upper end of feed liquor hollow tube stretches to in the liquid cooling cavity and with assembly bulge loop body joint, feed liquor hollow tube and drain centre bore intercommunication, go out liquid hollow stay tube and liquid cooling cavity intercommunication, and rotary driving piece is used for ordering about feed liquor hollow tube and rotatory drain dish and rotates.

Furthermore, the rotary driving piece is provided with a liquid inlet cavity and a liquid outlet cavity, the liquid inlet cavity is communicated with the liquid inlet hollow tube, the liquid outlet cavity is communicated with the liquid outlet hollow supporting tube, and cooling liquid sequentially flows through the liquid inlet cavity, the liquid inlet hollow tube, the liquid guide central hole, the liquid cooling cavity, the liquid outlet hollow supporting tube and the liquid outlet cavity.

Further, a sealing ring is arranged between the liquid outlet hollow supporting tube and the liquid cooling platform deck.

Further, the liquid cooling stage comprises a liquid cooling stage body and a bearing upper cover arranged on the liquid cooling stage body, and a sealing ring is arranged between the bearing upper cover and the liquid cooling stage body.

The utility model has the advantages that: the leading-in mobile coolant liquid of liquid cooling cavity of this liquid cooling structure, rotatory drain dish lasts the rotation, stir the inside coolant liquid of liquid cooling cavity uniformly, the leaf is the sheet structure, the panel height of leaf and the high phase-match of liquid cooling cavity, make the leaf can fully drive the coolant liquid and flow, rotatory drain dish can be effective, even, realize the cooling to the liquid cooling microscope carrier fast, make the liquid cooling microscope carrier can be in work under the high temperature environment for a long time, avoid the liquid cooling microscope carrier to burn out, the service life is prolonged, and production cost is reduced.

Drawings

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

Fig. 2 is a schematic structural view of the rotary liquid guiding plate of the present invention.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention.

As shown in fig. 1 to 2, the utility model provides a pair of rotation type liquid cooling structure, it includes liquid cooling microscope carrier 50, rotatory drain pan 51, the inside liquid cooling cavity 52 that is equipped with of liquid cooling microscope carrier 50, rotatory drain pan 51 includes drain flat plate 53 and sets up in a plurality of leaves 54 of drain flat plate 53, a plurality of leaves 54 are the annular array along the central axis of drain flat plate 53, drain flat plate 53 rotates and installs in liquid cooling cavity 52, the leading-in coolant liquid of liquid cooling cavity 52, rotatory drain pan 51 is used for mixxing the inside coolant liquid of liquid cooling cavity 52.

In practical application, during cutter deposition heating, the cutter is placed on the liquid cooling platform 50, flowing cooling liquid is introduced into the liquid cooling cavity 52, the rotary liquid guiding plate 51 continuously rotates, the cooling liquid inside the liquid cooling cavity 52 is uniformly stirred, the sheet 54 is of a sheet structure, the panel height of the sheet 54 is matched with the height of the liquid cooling cavity 52, the sheet 54 can fully drive the cooling liquid to flow, the liquid cooling platform 50 is uniform and can be cooled quickly, the rotary liquid guiding plate 51 can be effectively and quickly designed to cool the liquid cooling platform 50, the liquid cooling platform 50 can work in a high-temperature environment for a long time, the burning loss of the liquid cooling platform is avoided, the service life is prolonged, and the production cost is reduced.

In this embodiment, the liquid guiding flat plate 53 is provided with a liquid guiding central hole 55 and an assembling convex ring body 56, and the assembling convex ring body 56 and the liquid guiding central hole 55 are coaxially arranged. Specifically, the rotary liquid guiding disc 51 may be an integrally formed structure; the liquid guiding center hole 55 is used for guiding the flowing cooling liquid.

In this embodiment, the liquid cooling structure further includes a liquid inlet hollow tube 57, a liquid outlet hollow support tube 58 and a rotary driving member 59, the liquid inlet hollow tube 57 is disposed inside the liquid outlet hollow support tube 58, an output end of the rotary driving member 59 is connected with a lower end of the liquid inlet hollow tube 57, an upper end of the liquid inlet hollow tube 57 protrudes into the liquid cooling cavity 52 and is clamped with the assembling convex ring body 56, the liquid inlet hollow tube 57 is communicated with the liquid guiding central hole 55, the liquid outlet hollow support tube 58 is communicated with the liquid cooling cavity 52, and the rotary driving member 59 is used for driving the liquid inlet hollow tube 57 and the rotary liquid guiding. Specifically, when feed liquor hollow tube 57 is used for leading-in coolant liquid, still be used for driving about rotatory liquid guide plate 51 and continuously rotate, feed liquor hollow tube 57 is connected with the drive of liquid guide plate 53 via assembly bulge loop body 56, and structural design is reasonable, and rotatory liquid guide plate 51 can be effectively, evenly, realize the cooling to liquid cooling microscope carrier 50 fast for liquid cooling microscope carrier 50 can be in work under the high temperature environment for a long time, avoids liquid cooling microscope carrier 50 to burn out, increase of service life, reduction in production cost.

In this embodiment, the rotary driving member 59 is provided with a liquid inlet cavity 60 and a liquid outlet cavity 61, the liquid inlet cavity 60 is communicated with the liquid inlet hollow tube 57, the liquid outlet cavity 61 is communicated with the liquid outlet hollow support tube 58, and the cooling liquid sequentially flows through the liquid inlet cavity 60, the liquid inlet hollow tube 57, the liquid guiding central hole 55, the liquid cooling cavity 52, the liquid outlet hollow support tube 58 and the liquid outlet cavity 61. Specifically, because the coolant through liquid cooling cavity 52 has absorbed the heat, consequently the coolant temperature of going out liquid chamber 61 is higher than the coolant temperature of going into liquid chamber 60, goes into liquid chamber 60 and goes out the hot interval setting of liquid chamber 61, guarantees the cooling effect of the coolant of going into liquid chamber 60, can effectively, evenly, realize the cooling to the liquid cooling microscope carrier fast.

In this embodiment, a sealing ring 25 is disposed between the hollow liquid outlet support tube 58 and the liquid cooling stage 50, the liquid cooling stage 50 includes a liquid cooling stage body 63 and a bearing upper cover 64 mounted on the liquid cooling stage body 62, and the sealing ring 25 is disposed between the bearing upper cover 64 and the liquid cooling stage body 63. Specifically, the seal ring 25 can prevent the coolant in the liquid cooling cavity 52 from overflowing, enhance the sealing performance of the liquid cooling stage 50, and prevent the coolant from being wasted.

All the technical features in the embodiment can be freely combined according to actual needs.

The above-mentioned embodiment is the utility model discloses the implementation scheme of preferred, in addition, the utility model discloses can also realize by other modes, any obvious replacement is all within the protection scope of the utility model under the prerequisite that does not deviate from this technical scheme design.

Claims (6)

1. The utility model provides a rotation type liquid cooling structure, includes liquid cooling microscope carrier, its characterized in that: still include the rotatory liquid guide plate, the inside liquid cooling cavity that is equipped with of liquid cooling microscope carrier, rotatory liquid guide plate is including leading the liquid flat board and set up in a plurality of blades of leading the liquid flat board, and a plurality of blades are annular array along the central axis of leading the liquid flat board, and the rotation of leading the liquid flat board is installed in the liquid cooling cavity, and the leading coolant liquid of liquid cooling cavity, rotatory liquid guide plate are used for mixxing the inside coolant liquid of liquid cooling cavity.

2. The rotary liquid cooled structure of claim 1, wherein: the liquid guide flat plate is provided with a liquid guide central hole and an assembling convex ring body, and the assembling convex ring body and the liquid guide central hole are coaxially arranged.

3. The rotary liquid cooled structure of claim 2, wherein: the liquid cooling structure further comprises a liquid inlet hollow pipe, a liquid outlet hollow supporting pipe and a rotary driving piece, the liquid inlet hollow pipe is arranged inside the liquid outlet hollow supporting pipe, the output end of the rotary driving piece is connected with the lower end of the liquid inlet hollow pipe, the upper end of the liquid inlet hollow pipe extends into the liquid cooling cavity and is clamped with the assembling convex ring body, the liquid inlet hollow pipe is communicated with the liquid guiding central hole, the liquid outlet hollow supporting pipe is communicated with the liquid cooling cavity, and the rotary driving piece is used for driving the liquid inlet hollow pipe and the rotary.

4. A rotary liquid cooled structure according to claim 3, wherein: the rotary driving piece is provided with a liquid inlet cavity and a liquid outlet cavity, the liquid inlet cavity is communicated with the liquid inlet hollow tube, the liquid outlet cavity is communicated with the liquid outlet hollow supporting tube, and cooling liquid sequentially flows through the liquid inlet cavity, the liquid inlet hollow tube, the liquid guide central hole, the liquid cooling cavity, the liquid outlet hollow supporting tube and the liquid outlet cavity.

5. A rotary liquid cooled structure according to claim 3, wherein: and a sealing ring is arranged between the liquid outlet hollow supporting tube and the liquid cooling platform deck.

6. The rotary liquid cooled structure of claim 1, wherein: the liquid cooling microscope carrier comprises a liquid cooling microscope carrier body and a bearing upper cover arranged on the liquid cooling microscope carrier body, and a sealing ring is arranged between the bearing upper cover and the liquid cooling microscope carrier body.

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