CN216241313U - High-efficiency energy-saving screw air compressor - Google Patents

Abstract

The utility model discloses a high-efficiency energy-saving screw air compressor, which comprises a compressor body, wherein supporting plates are arranged at the lower side of the compressor body close to two ends of the compressor body and are fixedly arranged on a bottom plate through a damping mechanism, a plurality of radiating fins which are uniformly arranged are arranged at the middle part of the outer side of the compressor body, a cooling shell is covered on the outer side of each radiating fin, cold water which continuously flows is arranged between the inner side of the cooling shell and each radiating fin, a large amount of heat can be generated when the compressor body works, at the moment, the heat is conducted out through the arranged radiating fins, meanwhile, the cold water flowing in the cooling shell is cooled in time and taken away, so that the compressor body is rapidly cooled, and the high cooling effect is achieved.

Description

High-efficiency energy-saving screw air compressor

Technical Field

The utility model relates to the technical field of screw type air compressors, in particular to a high-efficiency energy-saving screw type air compressor.

Background

The double-screw air compressor overcomes the defects of unbalance of the single-screw air compressor and easy damage of the bearing, and has the advantages of long service life, low noise, more energy conservation and the like, so that the double-screw air compressor is widely applied to production.

The applicant of the utility model finds that the existing screw air compressor generates a large amount of heat during working, needs to be radiated in time or otherwise affects the service life of the screw air compressor, but the existing screw air compressor has poor radiating effect during working and cannot be radiated and cooled well.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide an efficient energy-saving screw air compressor, aiming at solving the problems that the existing screw air compressor is poor in heat dissipation effect and cannot be well cooled during working.

The utility model is realized by the following steps:

the utility model provides an energy-efficient screw air compressor, including the compressor body, the downside of compressor body is close to both ends and all is provided with the backup pad, and the backup pad passes through damper and installs and fix on the bottom plate, the outside middle part of compressor body is provided with a plurality of align to grid's fin, and the outside cover that is located the fin is equipped with cooling shell, there is the cold water of continuous flow between cooling shell's inboard and the fin, can produce a large amount of heats when the compressor body carries out the during operation, conduct away the heat through the fin that sets up this moment, thereby carry out timely cooling through the cold water of flow in the cooling shell simultaneously and take away the heat and realize the quick cooling to the compressor body, thereby better cooling effect has.

Further, both sides all are provided with the water receiving pipe that is used for going out water and intaking respectively around the cooling shell, and the inboard of cooling shell all is provided with the chamber that catchments in both sides position around being located the fin, intake and send into the chamber that catchments through the water receiving pipe of one end, rivers in the chamber that catchments of one side take away the heat and flow to the intracavity that catchments of opposite side through the fin, discharge through the water receiving pipe of the other end at last, take away the heat that the fin was discharged through the flow of the water of the intracavity that catchments and realize the cooling.

Furthermore, the end of the water receiving pipe is provided with a plug, a check ring is arranged at the position, close to the plug, of the water receiving pipe, a sealing gasket is sleeved at the position, close to the check ring, of the plug, the water receiving pipe is connected with the connecting pipe through the plug, and sealing is achieved when the connecting pipe is connected through the sealing gasket.

Furthermore, the end of the water receiving pipe is connected with a connecting pipe, one end of the connecting pipe is provided with a connecting sleeve sleeved on the plug, the end of the connecting sleeve is provided with two clamping strips matched with the retainer ring, the clamping strips are provided with clamping platforms clamped on the retainer ring near the end positions, the connecting pipe is connected on the plug through the connecting sleeve, and the clamping strips and the clamping platforms are clamped and fixed on the retainer ring.

Furthermore, the lower extreme of backup pad is provided with the mounting panel, and is provided with the installation opening of U type on the mounting panel, and the backup pad passes through the installation opening realization on the mounting panel and cooperates with damper's installation.

Further, damper is including fixing the clamping screw on the bottom plate, and the clamping screw upper end is passed the fixed nut of twisting soon of installation opening, and clamping screw is located the position between nut and the mounting panel and is provided with the spring, and the position that clamping screw is located between mounting panel and the bottom plate is provided with the same spring, is connected mounting panel and bottom plate through clamping screw to realize better shock attenuation through the spring that sets up.

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

according to the utility model, a large amount of heat is generated when the compressor body works, the heat is conducted out through the arranged radiating fins, and meanwhile, the cold water flowing in the cooling shell is used for cooling and taking away the heat in time, so that the compressor body is cooled rapidly, and a better cooling effect is achieved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings that are required to be used in the embodiments will be briefly described below, it should be understood that the following drawings only illustrate some embodiments of the present invention and therefore should not be considered as limiting the scope, and for those skilled in the art, other related drawings can be obtained according to the drawings without inventive efforts.

FIG. 1 is a perspective view of an efficient and energy-saving screw air compressor of the present invention;

FIG. 2 is a schematic view of a support plate of the screw air compressor of the present invention;

FIG. 3 is a schematic view of a heat sink of the screw air compressor of the present invention;

FIG. 4 is a schematic view of a connecting pipe of the screw air compressor of the present invention;

fig. 5 is a schematic view of a damping mechanism of the high-efficiency energy-saving screw air compressor disclosed by the utility model.

In the figure: 1. a base plate; 2. a support plate; 21. an installation opening; 22. mounting a plate; 3. a compressor body; 31. a heat sink; 4. cooling the housing; 41. a water receiving pipe; 411. a retainer ring; 412. a gasket; 413. a plug; 42. a water collection cavity; 5. a connecting pipe; 51. clamping the strip; 52. connecting sleeves; 53. clamping a platform; 6. a damping mechanism; 61. fixing the screw rod; 62. a nut; 63. a spring.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention more apparent, the technical solutions of the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings of the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, are within the scope of the present invention. Thus, the following detailed description of the embodiments of the present invention, presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model.

Embodiment 1, specifically refer to fig. 1, 2 and 3, a high efficiency energy saving screw air compressor includes a compressor body 3, support plates 2 are disposed at both ends of the lower side of the compressor body 3, the support plates 2 are mounted and fixed on a bottom plate 1 through a damping mechanism 6, a mounting plate 22 is disposed at the lower end of the support plates 2, a U-shaped mounting opening 21 is disposed on the mounting plate 22, the support plates 2 are mounted and matched with the damping mechanism 6 through the mounting openings 21 on the mounting plate 22, a plurality of uniformly arranged cooling fins 31 are disposed at the middle part of the outer side of the compressor body 3, a cooling housing 4 is covered on the outer side of the cooling fins 31, cold water continuously flows between the inner side of the cooling housing 4 and the cooling fins 31, a large amount of heat is generated when the compressor body 3 is operated, and at this time, the heat is conducted out through the disposed cooling fins 31, meanwhile, the cold water flowing in the cooling shell 4 is cooled in time and takes away the heat, so that the compressor body 3 is quickly cooled, and a good cooling effect is achieved.

Referring to fig. 2, 3 and 4 in detail, water receiving pipes 41 for water outlet and water inlet are respectively disposed on the front and back sides of the cooling housing 4, a plug 413 is disposed at an end of the water receiving pipe 41, a retaining ring 411 is disposed at a position of the water receiving pipe 41 close to the plug 413, a sealing gasket 412 is sleeved at a position of the plug 413 close to the retaining ring 411, the water receiving pipe 41 is connected to the connecting pipe 5 through the plug 413 and is sealed when connected through the sealing gasket 412, the connecting pipe 5 is connected to the end of the water receiving pipe 41, a connecting sleeve 52 sleeved on the plug 413 is disposed at one end of the connecting pipe 5, two clamping strips 51 matched with the retaining ring 411 are disposed at an end of the connecting sleeve 52, a clamping table 53 clamped on the retaining ring 411 is disposed at a position of the clamping strip 51 close to the end, the connecting pipe 5 is sleeved on the plug 413 through the connecting sleeve 52 and is clamped and fixed on the retaining ring 411 through the clamping strips 51 and the clamping table 53, and the inside of the cooling shell 4 is located in the front and back both sides of the heat sink 31 and is provided with a water collecting cavity 42, water is fed into the water collecting cavity 42 through the water receiving pipe 41 at one end, water in the water collecting cavity 42 at one end takes away heat through the heat sink 31 and flows to the water collecting cavity 42 at the other end, and finally the water is discharged through the water receiving pipe 41 at the other end, and the heat dissipated by the heat sink 31 is taken away through the flow of the water in the water collecting cavity 42 to realize cooling.

Specifically, referring to fig. 5, the damping mechanism 6 includes a fixing screw 61 fixed on the bottom plate 1, a nut 62 is fixedly screwed on the upper end of the fixing screw 61 through the mounting opening 21, a spring 63 is disposed at a position of the fixing screw 61 between the nut 62 and the mounting plate 22, the same spring 63 is disposed at a position of the fixing screw 61 between the mounting plate 22 and the bottom plate 1, the mounting plate 22 and the bottom plate 1 are connected through the fixing screw 61, and the damping is achieved through the disposed spring 63.

The working principle is that heat generated when the compressor body 3 works is radiated through the radiating fins 31, at the moment, the water pump sends cold water into the water collecting cavity 42 on one side through the connecting pipe 5, the cold water in the water collecting cavity 42 on one side flows through the radiating fins 31 to absorb the heat and sends the heat to the water collecting cavity 42 on the other side, and hot water is discharged through the water receiving pipe 41.

The device obtained through the design can basically meet the requirements of the existing screw air compressor that the heat dissipation effect is good during working, and the heat dissipation and cooling can be well performed.

The above description is only a preferred embodiment of the present invention and is not intended to limit the present invention, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. The utility model provides an energy-efficient screw air compressor machine, includes compressor body (3), its characterized in that: the compressor is characterized in that supporting plates (2) are arranged on the lower side of the compressor body (3) close to two ends, the supporting plates (2) are fixedly mounted on the bottom plate (1) through damping mechanisms (6), a plurality of uniformly arranged radiating fins (31) are arranged in the middle of the outer side of the compressor body (3), a cooling shell (4) is arranged on the outer side of each radiating fin (31) in a covering mode, and cold water flowing constantly is arranged between the inner side of the cooling shell (4) and the corresponding radiating fins (31).

2. The screw air compressor of claim 1, wherein the cooling casing (4) is provided with water receiving pipes (41) for water outlet and water inlet, respectively, at the front and rear sides thereof, and water collecting cavities (42) are provided at the positions of the inner side of the cooling casing (4) at the front and rear sides of the cooling fins (31).

3. The screw air compressor with high efficiency and energy saving as claimed in claim 2, wherein a plug (413) is disposed at an end of the water receiving pipe (41), a retaining ring (411) is disposed at a position of the water receiving pipe (41) close to the plug (413), and a sealing gasket (412) is sleeved at a position of the plug (413) close to the retaining ring (411).

4. The high-efficiency energy-saving screw air compressor as claimed in claim 2, wherein the end of the water receiving pipe (41) is connected with a connecting pipe (5), one end of the connecting pipe (5) is provided with a connecting sleeve (52) sleeved on the plug (413), the end of the connecting sleeve (52) is provided with two clamping strips (51) matched with the retainer ring (411), and the clamping strips (51) are provided with clamping platforms (53) clamped on the retainer ring (411) near the end.

5. The screw air compressor with high efficiency and energy saving as claimed in claim 1, is characterized in that the lower end of the supporting plate (2) is provided with a mounting plate (22), and the mounting plate (22) is provided with a U-shaped mounting opening (21).

6. The screw air compressor with high efficiency and energy saving as claimed in claim 1, wherein the damping mechanism (6) comprises a fixing screw (61) fixed on the bottom plate (1), the upper end of the fixing screw (61) is fixedly screwed with a nut (62) through the mounting opening (21), a spring (63) is arranged at the position of the fixing screw (61) between the nut (62) and the mounting plate (22), and the same spring (63) is arranged at the position of the fixing screw (61) between the mounting plate (22) and the bottom plate (1).

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