阅读说明：本技术 一种具有高散热效率的压缩机及其散热方法 (Compressor with high heat dissipation efficiency and heat dissipation method thereof ) 是由 陈路路 章明友 邢滕 王京 李德生 孙厚永 司丽丽 杨飞 张自仕 王晓 张运 于 2021-08-20 设计创作，主要内容包括：本发明公开了一种具有高散热效率的压缩机,对于本发明设计的压缩机冷却散热装置,通过设置的吸风口、圆形挡板、清灰板和连接组件、调控机构之间的配合作用,在冷却散热工作时,通过对圆形挡板的调控定位控制吸风口的开口大小,并且能够根据实际散热需求来调控圆形挡板的倾斜角度,通过一种具有高散热效率的压缩机的散热方法,进而控制空气进入到机体内部的方向,进而实现冷却散热工作的最优化,并且没有噪音污染,在压缩机不工作时,还可以将吸风口进行封堵,防止外部杂质飞入压缩机内,而造成压缩机损坏,进而保证其工作的正常运转,避免造成经济损失。(The invention discloses a compressor with high heat radiation efficiency, for the compressor cooling heat radiation device designed by the invention, through the matching action among the arranged air suction opening, the circular baffle, the ash cleaning plate, the connecting component and the regulating and controlling mechanism, when the cooling and radiating work is carried out, the opening size of the air suction opening is controlled by regulating and controlling the positioning of the circular baffle, and the inclination angle of the circular baffle can be adjusted and controlled according to the actual heat dissipation requirement, through the heat dissipation method of the compressor with high heat dissipation efficiency, thereby controlling the direction of the air entering the machine body, further realizing the optimization of cooling and heat dissipation work, having no noise pollution, when the compressor does not work, the air suction opening can be blocked to prevent external impurities from flying into the compressor, and the compressor is damaged, so that the normal operation of the compressor is ensured, and the economic loss is avoided.)

1. A compressor with high heat dissipation efficiency is characterized in that: comprises a machine body (1), an air suction opening (2), a circular baffle (5), an ash cleaning plate (6), a connecting assembly (11) and a regulating mechanism (12);

an air suction opening (2) is formed in one side of the machine body (1), a circular pipe (3) is fixedly connected to the inner side wall of the air suction opening (2), one end of the circular pipe (3) extends to the outer side of the machine body (1), the other end of the circular pipe extends into the inner cavity of the machine body (1), and air dispersing openings (4) are formed in the circular pipe (3) located in the inner cavity of the machine body (1) in the circumferential direction at equal intervals;

the movable splicing of organism (1) is provided with connecting axle (7), the fixed circular baffle (5) that is provided with of one end of connecting axle (7), circular baffle (5) activity setting are in inlet scoop (2) to the bilateral symmetry of circular baffle (5) is provided with recess (8), fixed supporting spring (9) that are provided with in recess (8), supporting spring (9) other end integrated into one piece are provided with backup pad (10), the both sides of circular baffle (5) are provided with deashing board (6) through coupling assembling (11) fixed connection, the other end connection of connecting axle (7) is provided with adjustment and control mechanism (12).

2. A compressor with high heat radiation efficiency according to claim 1, wherein: the connecting assembly (11) comprises a bump (1101), movable clamping blocks (1102), extrusion chutes (1103), concave extrusion blocks (1104), clamping grooves (1105) and positioning grooves (1106), wherein the bump (1101) is integrally formed and symmetrically arranged at two sides of the circular baffle (5), the movable clamping blocks (1102) are symmetrically and movably arranged in the circular baffle (5), one end of each movable clamping block (1102) is integrally formed and provided with a first return spring, the other end of each first return spring is fixedly arranged in the bump (1101), the other end of each bump (1101) is provided with a slope, one side of each bump (1101) is provided with the extrusion chutes (1103), the concave extrusion blocks (1104) are movably arranged in the bumps (1101), the concave extrusion blocks (1104) are integrally formed and symmetrically provided with second return springs, and the other ends of the second return springs are fixedly arranged in the bumps (1101), the clamping groove (1105) is arranged on the dust removing plate (6), the clamping groove (1105) is in adaptive clamping connection with the projection (1101), and positioning grooves (1106) are symmetrically arranged on the inner side of the clamping groove (1105).

3. A compressor with high heat radiation efficiency according to claim 2, wherein: the positioning groove (1106) corresponds to the movable clamping block (1102) in arrangement position and is provided with the same number of groups, and the positioning groove (1106) and the movable clamping block (1102) are in adaptive clamping connection.

4. A compressor with high heat radiation efficiency according to claim 1, wherein: the adjusting mechanism (12) comprises a handle (1201), a cylinder (1202), a first locking clamping groove (1203), a fixed body (1204), a movable column (1205), a knob (1206), an arc extrusion chute (1207), a second locking clamping groove (1208), a connecting strip (1209), a locking clamping sheet (1210), a locking clamping column (1211) and a pull ring (1212), wherein the handle (1201) is fixedly arranged at one end of the connecting shaft (7), the cylinder (1202) is fixedly sleeved on the connecting shaft (7), the outer side wall of the cylinder (1202) is equidistantly provided with the first locking clamping grooves (1203), the fixed body (1204) is fixedly arranged on the machine body (1) and is arranged at the side position of the cylinder (1202), the movable column (1205) is movably arranged in the fixed body (1204), the knob (1206) is fixedly arranged at one end of the movable column (1205), the side of the movable column (1205) is provided with the arc extrusion chute (1207) and the second locking clamping groove (1208), the one end activity of connecting strip (1209) sets up in arc extrusion chute (1207), and the other end is fixed to be provided with locking card (1210), locking card (1210) is being connected end integrated into one piece with connecting strip (1209) and is being provided with third reset spring, and the third reset spring other end is fixed to be set up in fixed body (1204), locking card post (1211) activity sets up in fixed body (1204) to the setting is in the avris position of activity post (1205), and the fixed pull ring (1212) that is provided with of one end of locking card post (1211), one side integrated into one piece of locking card post (1211) is provided with the lug, and integrated into one piece is provided with fourth reset spring on the lug, and the fixed setting of fourth reset spring other end is in fixed body (1204).

5. A compressor with high heat radiation efficiency according to claim 4, wherein: the locking clamp column (1211) and the second locking clamp groove (1208) are arranged at corresponding positions and have the same number of groups, and the diameters of the locking clamp column and the second locking clamp groove are equal.

6. A compressor with high heat radiation efficiency according to claim 4, wherein: the locking card (1210) corresponds to the setting position of the first locking card slot (1203), and the locking card slot and the first locking card slot are matched and clamped.

7. A heat dissipating method of a compressor having high heat dissipating efficiency as claimed in any one of claims 1 to 6, comprising the steps of:

s1: when cooling and heat dissipation work is carried out, the position of the circular baffle (5) is adjusted through the regulating mechanism (12), the air suction opening (2) is further opened, and the position of the circular baffle (5) can be adjusted and positioned according to actual heat dissipation work requirements, so that the optimal ventilation and heat dissipation effect is achieved;

s2: the dust cleaning plates (6) on two sides of the circular baffle (5) can be quickly disassembled and assembled through the arranged connecting assembly (11), so that dust impurities adhered to the dust cleaning plates (6) can be cleaned, the dust cleaning plates are prevented from entering the machine body (1) during heat dissipation work, and the normal operation of the heat dissipation work is guaranteed;

s3: after the heat dissipation work is finished, the circular baffle (5) is adjusted to the initial position through the control mechanism (12), and the air suction opening (2) is blocked.

Technical Field

The invention relates to the technical field of compressor heat dissipation, in particular to a compressor with high heat dissipation efficiency and a heat dissipation method thereof.

Background

A compressor (compressor), which is a driven fluid machine that raises low-pressure gas into high-pressure gas, is a heart of a refrigeration system; the refrigerating cycle is powered by sucking low-temperature and low-pressure refrigerant gas from the air suction pipe, driving the piston to compress the refrigerant gas through the operation of the motor, and discharging high-temperature and high-pressure refrigerant gas to the exhaust pipe.

The existing compressor generally utilizes a fan to increase the heat dissipation efficiency, but the heat dissipation effect of the fan is poor and can generate large noise, a filter screen is arranged at an air suction opening of the compressor, the existence of the filter screen can influence the air suction volume and the heat dissipation efficiency of the compressor, and when the suction fan is not used, external impurities can possibly enter the compressor, cause pollution damage to internal components of the compressor and influence the normal operation of the work of the compressor.

Therefore, the present invention provides a compressor with high heat dissipation efficiency and a heat dissipation method thereof to solve the above problems.

Disclosure of Invention

The present invention is directed to a compressor with high heat dissipation efficiency and a heat dissipation method thereof, so as to solve the problems of the related art.

In order to achieve the purpose, the invention provides the following technical scheme: a compressor with high heat dissipation efficiency comprises a compressor body, an air suction opening, a circular baffle, an ash removing plate, a connecting assembly and a regulating mechanism;

an air suction opening is formed in one side of the machine body, a circular pipe is fixedly connected to the inner side wall of the air suction opening, one end of the circular pipe extends to the outer side of the machine body, the other end of the circular pipe extends into the inner cavity of the machine body, and air dissipation openings are formed in the circular pipe located in the inner cavity of the machine body at equal intervals in the circumferential direction;

the connecting shaft is movably inserted in the machine body, a circular baffle is fixedly arranged at one end of the connecting shaft, the circular baffle is movably arranged in the air suction opening, grooves are symmetrically formed in two sides of the circular baffle, a supporting spring is fixedly arranged in each groove, a supporting plate is integrally formed at the other end of the supporting spring, two sides of the circular baffle are fixedly connected with ash removing plates through connecting components, and a regulating mechanism is connected to the other end of the connecting shaft.

Preferably, coupling assembling includes lug, activity fixture block, extrusion chute, concave type extrusion piece, draw-in groove, constant head tank, lug integrated into one piece symmetry sets up the both sides at circular baffle to the symmetry activity is provided with movable fixture block in the circular baffle, and the one end integrated into one piece of activity fixture block is provided with first reset spring, and first reset spring other end is fixed to be set up in the lug to the other end of lug is provided with the slope, and one side of lug is provided with the extrusion chute, concave type extrusion piece activity sets up in the lug to the integrated into one piece symmetry is provided with second reset spring on the concave type extrusion piece, and the second reset spring other end is fixed to be set up in the lug, the draw-in groove sets up on the deashing board to draw-in groove and lug adaptation joint, the inboard symmetry of draw-in groove is provided with the constant head tank.

Preferably, the positioning grooves correspond to the movable clamping blocks in arrangement positions and are arranged in the same number, and the positioning grooves and the movable clamping blocks are in adaptive clamping connection.

Preferably, the adjusting mechanism comprises a handle, a cylinder, a first locking slot, a fixed body, a movable column, a knob, an arc extrusion chute, a second locking slot, a connecting strip, a locking card column and a pull ring, wherein the handle is fixedly arranged at one end of the connecting shaft, the cylinder is fixedly sleeved on the connecting shaft, the first locking slot is equidistantly arranged on the outer side wall of the cylinder, the fixed body is fixedly arranged on the machine body and is arranged at the side position of the cylinder, the movable column is movably arranged in the fixed body, the knob is fixedly arranged at one end of the movable column, the arc extrusion chute and the second locking slot are arranged at the side of the movable column, one end of the connecting strip is movably arranged on the arc extrusion chute, the locking card is fixedly arranged at the other end of the connecting strip, and the locking card is integrally formed with the connecting end of the connecting strip and provided with a third reset spring, the other end of the third reset spring is fixedly arranged in the fixed body, the locking clamping column is movably arranged in the fixed body and is arranged at the side position of the movable column, a pull ring is fixedly arranged at one end of the locking clamping column, a convex block is integrally formed on one side of the locking clamping column, a fourth reset spring is integrally formed on the convex block, and the other end of the fourth reset spring is fixedly arranged in the fixed body.

Preferably, the locking clamping columns and the second locking clamping grooves are arranged at corresponding positions and are arranged in the same number, and the diameters of the locking clamping columns and the second locking clamping grooves are equal.

Preferably, the locking clamping piece corresponds to the first locking clamping groove in arrangement position, and the locking clamping piece and the first locking clamping groove are matched and clamped.

A heat dissipation method of a compressor with high heat dissipation efficiency includes the following steps:

s1: when cooling and radiating work is carried out, the position of the circular baffle is adjusted through the regulating and controlling mechanism, the air suction opening is further opened, and the position of the circular baffle can be adjusted and positioned according to actual radiating work requirements, so that the optimal ventilating and radiating effect is achieved;

s2: the dust cleaning plates on the two sides of the circular baffle can be quickly disassembled and assembled through the arranged connecting assembly, so that dust and impurities adhered to the dust cleaning plates can be cleaned, the dust cleaning plates are prevented from entering a machine body during heat dissipation work, and the normal operation of the heat dissipation work is ensured;

s3: after the heat dissipation work is finished, the circular baffle is adjusted to the initial position through the control mechanism, and the air suction opening is plugged.

Compared with the prior art, the invention has the beneficial effects that:

for the cooling and heat dissipating device of the compressor, through the matching effect among the arranged air suction opening, the circular baffle, the ash cleaning plate, the connecting assembly and the regulating mechanism, when the cooling and heat dissipating work is performed, the opening size of the air suction opening is controlled through regulating and positioning the circular baffle, the inclination angle of the circular baffle can be regulated and controlled according to the actual heat dissipating requirement, the direction of air entering the interior of the machine body is further controlled, the optimization of the cooling and heat dissipating work is further realized, no noise pollution exists, when the compressor does not work, the air suction opening can be blocked, external impurities are prevented from flying into the compressor, the compressor is prevented from being damaged, the normal operation of the work of the compressor is further ensured, and the economic loss is avoided.

Drawings

FIG. 1 is a right side schematic view of a structural connection according to the present invention;

FIG. 2 is an enlarged partial view of the structural joint of FIG. 1 according to the present invention;

FIG. 3 is a schematic view of the left side of the structural connection of the present invention;

FIG. 4 is an enlarged partial view of the structural joint of FIG. 3 according to the present invention;

FIG. 5 is a bottom view of the circular baffle, the deashing board, the connecting assembly and the regulating mechanism of the present invention;

FIG. 6 is an enlarged partial view of the structural joint of FIG. 5 according to the present invention;

FIG. 7 is a top view of the circular baffle, the deashing plate, the connecting assembly and the regulating mechanism of the present invention;

FIG. 8 is an enlarged partial view of the structural joint of FIG. 7 according to the present invention;

FIG. 9 is a top view of the internal structure of the fixing body in the adjustment mechanism of the present invention;

FIG. 10 is a bottom view of the internal structure of the fixing body of the adjustment mechanism of the present invention.

In the figure: the dust cleaning device comprises a machine body 1, an air suction inlet 2, a circular tube 3, an air dispersing port 4, a circular baffle 5, an ash cleaning plate 6, a connecting shaft 7, a groove 8, a supporting spring 9, a supporting plate 10, a connecting assembly 11, a bump 1101, a movable clamping block 1102, an extrusion chute 1103, a concave extrusion block 1104, a clamping groove 1105, a positioning groove 1106, a regulating mechanism 12, a handle 1201, a column 1202, a first locking clamping groove 1203, a fixed body 1204, a movable column 1205, a knob 1206, an arc extrusion chute 1207, a second locking clamping groove 1208, a connecting bar 1209, a locking clamping piece 1210, a locking clamping column 1211 and a pull ring 1212.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below. The embodiments of the present invention, and all other embodiments obtained by a person of ordinary skill in the art without any inventive work, belong to the scope of protection of the present invention.

Referring to fig. 1 to 10, the present invention provides a technical solution: the invention relates to a compressor with high heat dissipation efficiency, which comprises a compressor body 1, an air suction opening 2, a circular baffle 5, an ash cleaning plate 6, a connecting assembly 11 and a regulating mechanism 12;

one side of organism 1 is provided with inlet scoop 2 to the inside wall fixed connection of inlet scoop 2 is provided with pipe 3, and the one end of pipe 3 extends in the outside of organism 1, the other end extends to in the inner chamber of organism 1, and be in pipe 3 of organism 1 inner chamber on the circumference equidistance be provided with scattered wind gap 4, here scattered wind gap 4 the effect time with external inspiratory air can be faster to organism 1 diffusion all around, have fine auxiliary action to realizing quick cooling heat dissipation work.

The movable splicing of organism 1 is provided with connecting axle 7, the fixed circular baffle 5 that is provided with of one end of connecting axle 7, the activity of circular baffle 5 sets up in inlet scoop 2 to the bilateral symmetry of circular baffle 5 is provided with recess 8, the fixed supporting spring 9 that is provided with in the recess 8, supporting spring 9 other end integrated into one piece is provided with backup pad 10, the both sides of circular baffle 5 are provided with deashing board 6 through coupling assembling 11 fixed connection, the other end connection of connecting axle 7 is provided with regulation and control mechanism 12.

The connecting assembly 11 herein comprises a projection 1101, a movable fixture block 1102, an extrusion chute 1103, a concave extrusion block 1104, a slot 1105 and a positioning slot 1106, the projection 1101 is integrally formed and symmetrically arranged on two sides of the circular baffle 5, the movable fixture block 1102 is symmetrically and movably arranged in the circular baffle 5, one end of the movable fixture block 1102 is integrally formed and provided with a first return spring, the other end of the first return spring is fixedly arranged in the projection 1101, the other end of the projection 1101 is provided with a slope, one side of the projection 1101 is provided with the extrusion chute 1103, the concave extrusion block 1104 is movably arranged in the projection 1101, a second return spring is integrally formed and symmetrically arranged on the concave extrusion block 1104, the other end of the second return spring is fixedly arranged in the projection 1101, the slot 1105 is arranged on the dust cleaning plate 6, the slot 1105 is in adaptive clamping connection with the projection 1101, the positioning slot 1106 is symmetrically arranged on the inner side of the slot 1105, here, the positioning slots 1106 correspond to the movable latch 1102 in the same number of sets, and the two are adapted to be engaged.

The adjusting mechanism 12 herein comprises a handle 1201, a column 1202, a first locking groove 1203, a fixed body 1204, a movable post 1205, a knob 1206, an arc-shaped extrusion chute 1207, a second locking groove 1208, a connecting strip 1209, a locking clip 1210, a locking clip 1211, and a pull ring 1212, wherein the handle 1201 is fixedly arranged at one end of the connecting shaft 7, the column 1202 is fixedly sleeved on the connecting shaft 7, the first locking groove 1203 is equidistantly arranged on the outer side wall of the column 1202, the fixed body 1204 is fixedly arranged on the machine body 1 and is arranged at the side position of the column 1202, the movable post 1205 is movably arranged in the fixed body 1204, one end of the movable post 1205 is fixedly provided with the knob 1206, the side of the movable post 1205 is provided with the arc-shaped extrusion chute 1207 and the second locking groove 1208, one end of the connecting strip 1209 is movably arranged on the arc-shaped extrusion chute 1207, the other end is fixedly provided with the locking clip 1210, and the locking clip 1210 corresponds to the first locking groove 1203, the locking card 1210 is connected with the connecting strip 1209 in an integrated manner and provided with a third reset spring, the other end of the third reset spring is fixedly arranged in the fixed body 1204, the locking card 1211 is movably arranged in the fixed body 1204 and arranged at the side position of the movable column 1205, the locking card 1211 and the second locking card slot 1208 are correspondingly arranged and have the same number of sets, the diameters of the locking card 1211 and the second locking card slot 1208 are equal, one end of the locking card 1211 is fixedly provided with a pull ring 1212, one side of the locking card 1211 is integrally provided with a convex block, the convex block is integrally provided with a fourth reset spring, and the other end of the fourth reset spring is fixedly arranged in the fixed body 1204.

The actual operation process is as follows:

when cooling and heat dissipation work is carried out, firstly, the position of the circular baffle 5 is adjusted through the regulating mechanism 12, and then the air suction opening 2 is opened, and the position of the circular baffle 5 can be adjusted and positioned through actual heat dissipation work requirements, so that the best ventilation and heat dissipation effects are achieved, the process is characterized in that the handle 1201 is rotated to drive the circular baffle 5 to rotate, so that the blockage of the air suction opening 2 is removed, outside air is sucked into the machine body 1 from the air suction opening 2, after the proper position is reached, the knob 1206 is rotated, the knob 1206 drives the movable column 1205 to rotate, in the process, on one hand, the arc extrusion chute 1207 on the movable column 1205 extrudes the connecting bar 1209, the connecting bar 1209 pushes the locking card 1210, so that the other end of the locking card 1210 is clamped into the first locking card 1203 groove on the corresponding position of the column 1202, and meanwhile, the second locking card groove 1208 arranged on the side of the movable column 1205 reaches the locking card 1211 position, the locking clamp column 1211 is clamped into the second locking clamp groove 1208 under the action of a fourth return spring, so that the movable column 1205 is locked, and finally the locking work of the handle 1201 and the circular baffle plate 5 is realized, under the working condition of time, more dust and impurities can be adhered to the dust cleaning plate 6, the dust cleaning plates 6 on two sides of the circular baffle plate 5 can be quickly disassembled and assembled through the arranged connecting assembly 11, so that the dust and impurities adhered to the dust cleaning plates 6 can be cleaned, the dust and impurities are prevented from entering the machine body 1 during the heat dissipation work, and the normal operation of the heat dissipation work is ensured; the process is specifically operated in that the concave extrusion block 1104 is directly pressed, so that two ends of the concave extrusion block 1104 enter the extrusion chutes 1103 on the movable fixture block 1102, the movable fixture block 1102 is extruded, the movable fixture block 1102 is separated from the positioning groove 1106, meanwhile, the circular baffle 5 is ejected out under the action of the supporting spring 9 and the supporting plate 10 and is separated from the circular baffle 5, after the cleaning work of the dust cleaning plate 6 is completed, the installation and fixation work is performed on the dust cleaning plate 6, the clamping groove 1105 on the dust cleaning plate 6 is aligned with the projection 1101 on the circular baffle 5, the dust cleaning plate 6 is pressed on the circular baffle 5 until the positioning groove 1106 arranged at the inner side of the clamping groove 1105 reaches the position of the movable fixture block 1102, the movable fixture block 1102 is clamped in the positioning groove 1106, the position fixation can be rapidly realized, the operation is simple, after the heat dissipation work is completed, the circular baffle 5 is adjusted to the initial position by the control mechanism 12, the air suction opening 2 is plugged.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.