CN112217341B

CN112217341B - Motor cooling assembly with temperature detection device

Info

Publication number: CN112217341B
Application number: CN202011036343.5A
Authority: CN
Inventors: 张晓卫
Original assignee: Zhaodong Huazhou Petroleum Machinery Equipment Co ltd
Current assignee: Zhaodong Huazhou Petroleum Machinery Equipment Co.,Ltd.
Priority date: 2020-09-28
Filing date: 2020-09-28
Publication date: 2021-10-12
Anticipated expiration: 2040-09-28
Also published as: CN112217341A

Abstract

The invention provides a motor cooling assembly with a temperature detection device, relates to the technical field of motor cooling, and solves the problems that the conventional equipment and a motor are integrated into a whole, so that the ordinary maintenance cost is overhigh, the maintenance is complex when the equipment is damaged, the maintenance cost is higher, the equipment can only be used for a single-model motor, and the application range is lower. A motor cooling assembly with a temperature detection device comprises a main machine body; the main machine body comprises a protective cover, a filter plate and a reinforcing rod, the protective cover is connected to the front end of the main machine body through a bolt, the filter plate is connected to the front end of the main machine body in a clamping mode, and the reinforcing rod penetrates through the filter plate; the left side and the right side of the main machine body are respectively connected with a side machine body in a sliding way. The temperature control probe embedded on the support column monitors the temperature of the motor in real time, when the temperature of the motor rises, the signal is transmitted to the console through the wire pipe welded on the support column, and the console controls the motor A and the motor B to rotate in an accelerating mode, so that the purpose of rapid heat dissipation is achieved.

Description

Motor cooling assembly with temperature detection device

Technical Field

The invention belongs to the technical field of motor heat dissipation, and particularly relates to a motor cooling assembly with a temperature detection device.

Background

An electric motor is a device that converts electrical energy into mechanical energy. The electromagnetic power generating device utilizes an electrified coil to generate a rotating magnetic field and acts on a rotor to form magnetoelectric power rotating torque. The motors are classified into dc motors and ac motors according to the power sources used, and most of the motors in the power system are ac motors, which may be synchronous motors or asynchronous motors. The motor mainly comprises a stator and a rotor, and the direction of the forced movement of the electrified conducting wire in the magnetic field is related to the current direction and the magnetic induction line direction. The working principle of the motor is that the magnetic field exerts force on current to rotate the motor.

For example, application No.: CN 201710976086.5. A circulating water-cooling assembly for an asynchronous motor comprises a motor shaft, a motor rotor, a motor stator, a motor front end cover, a motor rear end cover, a motor shell and motor shell cooling fins, wherein the front section and the rear section of the motor shaft are respectively fixed on the motor front end cover and the motor rear end cover; the motor rotor surrounds the motor stator to form a certain gap, and is fixed on the motor shaft; the motor front end cover is connected with the motor shell into a whole, and the motor rear end cover is detachably connected with the motor shell; the motor shell radiating fins are fixed around the motor shell; the motor also comprises a circulating water-cooling assembly, wherein the circulating water-cooling assembly comprises a water-cooling pipe, a water inlet pipe and a water outlet pipe, the water-cooling pipe extends into the front end cover of the motor and extends out of the rear end cover of the motor, the water inlet pipe is connected with one end of the water-cooling pipe, and the water outlet pipe is connected with the other end of the water-cooling pipe; a water inlet sealing cover is arranged at the position of the water inlet pipe, and a water outlet sealing cover is arranged at the position of the water outlet pipe; the water inlet pipe is provided with an electric turbine.

Based on the retrieval of above-mentioned patent to and combine the equipment discovery among the prior art, above-mentioned equipment is when using, and although convenient operation cooling is fast, equipment and motor are as an organic whole, cause ordinary maintenance cost too high, and it is comparatively complicated to maintain when equipment damages, and cost of maintenance is higher, can only be used for single model motor, and application scope is lower.

Disclosure of Invention

In order to solve the technical problems, the invention provides a motor cooling assembly with a temperature detection device, which aims to solve the problems that the conventional equipment and a motor are integrated into a whole, so that the ordinary maintenance cost is overhigh, the maintenance is complex when the equipment is damaged, the cost is higher, the conventional equipment can only be used for a single-type motor, and the application range is lower.

The invention relates to a purpose and an effect of a motor cooling component with a temperature detection device, which are achieved by the following specific technical means:

a motor cooling assembly with a temperature detection device comprises a main machine body; the main machine body comprises a protective cover, a filter plate and a reinforcing rod, the protective cover is connected to the front end of the main machine body through a bolt, the filter plate is clamped at the front end of the main machine body, and the reinforcing rod penetrates through the filter plate; the left side and the right side of the main machine body are respectively connected with a side machine body in a sliding mode.

The main machine body further comprises a support frame A, a motor A, an impeller and a control console, wherein the support frame A is welded in the main machine body, the motor A is connected to the middle of the support frame A through a bolt, the front end of the motor A is connected with the rear half-open impeller through a key, the control console is arranged at the top end of the main machine body, the motor A and the control console are electrically connected, and when the motor A is started, the impeller is in a suction state;

furthermore, the main machine body also comprises an arc-shaped bulge, a support frame B, support columns and a cone, the arc-shaped bulge in an annular structure is arranged in the main machine body, the support frame B which is uniformly and annularly distributed is welded at the rear end of the main machine body, the support column is welded in the middle of the support frame B, and the cone is arranged at the rear end of the support column;

furthermore, the main body also comprises a temperature control probe and a wire pipe, the temperature control probe is embedded on the supporting column, the wire pipe is welded on the supporting column, and the temperature control probe is electrically connected with the console through the wire pipe;

furthermore, the main machine body further comprises a magnet A, an arc-shaped groove, a lead column A, a stop block A, a switch, a sliding block, a groove A, a spring A and a magnet B, the three magnets A distributed in an annular mode are inlaid at the rear end of the main machine body, the arc-shaped groove is formed in the rear end of the main machine body, the two lead columns A distributed symmetrically are arranged on the arc-shaped groove, the stop block A is welded in the arc-shaped groove, the switch is arranged on the stop block A and is electrically connected with the control console, the sliding block is connected to the lead column A in a sliding mode through the springs A at the left end and the right end, the groove A is formed in the sliding block, the groove A and the stop block A are in a sliding connection mode, the front end of the sliding block is bonded with the magnet B, and the magnet B is recessed in the surface of the rear end of the main machine body;

furthermore, the main body further comprises an air diffuser, an air guide fence A and an air guide fence B, the air diffuser is rotatably connected to the support column, the air guide fence A is welded in the air diffuser and distributed in a # -shape, the air guide fence B is also welded on the air diffuser and distributed in an annular shape, and when air flows pass through the air guide fence A and the air guide fence B, the air diffuser rotates;

the main machine body further comprises a guide groove A, a stop block B, a lead column B, a spring B, a connecting frame, a groove B, a groove C and a spring C, wherein the left side and the right side of the main machine body are respectively provided with the two guide grooves A, the stop block B is welded in the guide groove A, the lead column B is welded in the stop block B, the spring B is sleeved on the lead column B, the tail end of the spring B is clamped on the stop block B, the connecting frame is of an L-shaped structure, the head end of the connecting frame is slidably connected in the guide groove A, the connecting frame is provided with the groove B, the stop block B and the lead column B are slidably connected in the groove B, the head end of the spring B is clamped on the groove B, the connecting frame is further provided with the groove C, and the spring C is clamped in the groove C; the side machine body comprises a guide groove B, a stop block C and a lead column C, two guide grooves B are formed in the right side of the side machine body, the stop block C is welded in the guide groove B, the lead column C is welded on the stop block C, the tail end of the connecting frame is connected in the guide groove B in a sliding mode, the stop block C and the lead column C are connected in the groove C in a sliding mode, and the head end of the spring C is clamped on the stop block C;

the side machine body further comprises guide grooves C, elastic parts and heat conducting plates, wherein the guide grooves C are uniformly distributed in an array mode and are arranged on the left side and the right side of the inner portion of the side machine body;

further, the side organism still includes through-hole, support frame C, motor B and flabellum, two through-holes have been seted up to side organism rear end, and all weld on every through-hole has a support frame C to bolted connection has a motor B in the middle of the support frame C, motor B head end key-type connection has a flabellum, and motor B is electric connection with the control cabinet.

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

the internal structure of the main machine body is improved, the equipment can have a better heat dissipation effect through improvement, and safety protection can be provided, and the method is as follows: the main body can be adsorbed on the heat dissipation cover at the rear end of the motor through the three magnets A which are embedded at the rear end of the main body, the magnet B which is connected in the arc-shaped groove in a sliding way is attracted to slide forwards and adsorbed on the heat dissipation cover, the sliding block which is adhered with the magnet B is driven to move forwards, the switch on the stop block A is pressed, the switch is electrically connected with the console at the top end of the main body, the console receives signals and starts up, thereby realizing the safety protection effect on the main body, after the console starts up, the motor A is controlled to start up, the motor A drives the impeller to rotate, air is sucked into the main body, the sucked air flows through the filter plate which is clamped at the front end of the main body to be filtered, the damage to the motor caused by impurities in the air is reduced, the air is blocked at the arc-shaped bulge part and converged towards the middle after passing through the impeller, the pressurization of the air is realized, the flow speed is increased after the air flows out of the arc-shaped bulge, through rotating the fan housing of connecting on the support column, can make the air current carry out diffusion slightly through air guide fence A and the air guide fence B of welding on the fan housing, it is more even to make the air of insufflating the motor inside, inlay the control by temperature change probe real-time supervision motor temperature on the support column, when motor temperature risees, on with signal transmission to the control cabinet through the spool of welding on the support column, control cabinet control motor A and motor B are rotatory with higher speed to realize quick radiating effect.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic diagram of a full-section structure of the main body of the present invention.

Fig. 3 is a partially enlarged view of a portion a of fig. 2 according to the present invention.

Fig. 4 is a schematic view of the present invention at a part B of fig. 2.

Fig. 5 is a schematic view of the main body of the present invention in an exploded perspective view.

Fig. 6 is a partially enlarged view of fig. 5C according to the present invention.

Fig. 7 is a disassembled sectional structural schematic view of the side frame body of the present invention.

Fig. 8 is an axial view of the side body of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a main body; 101. a protective cover; 102. a filter plate; 103. a reinforcing bar; 104. a support frame A; 105. a motor A; 106. an impeller; 107. an arc-shaped bulge; 108. a support frame B; 109. a support pillar; 110. a cone; 111. a temperature control probe; 112. a conduit; 113. a console; 114. a magnet A; 115. an arc-shaped slot; 116. a lead column A; 117. a block A; 118. a switch; 119. a slider; 120. a groove A; 121. a spring A; 122. a magnet B; 123. an air diffuser cover; 124. an air guide fence A; 125. an air guide fence B; 126. a guide groove A; 127. a stop block B; 128. a lead column B; 129. a spring B; 130. a connecting frame; 131. a groove B; 132. a groove C; 133. a spring C; 2. a side body; 201. a guide groove B; 202. a stopper C; 203. a lead column C; 204. a guide groove C; 205. an elastic member; 206. a heat conducting plate; 207. a through hole; 208. a support frame C; 209. a motor B; 210. a fan blade.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

As shown in figures 1 to 8:

the invention provides a motor cooling assembly with a temperature detection device, which comprises a main machine body 1; the main machine body 1 comprises a protective cover 101, a filter plate 102 and a reinforcing rod 103, the protective cover 101 is connected to the front end of the main machine body 1 through a bolt, the filter plate 102 is connected to the front end of the main machine body 1 in a clamping mode, and the reinforcing rod 103 penetrates through the filter plate 102; the left side and the right side of the main body 1 are respectively connected with a side body 2 in a sliding way.

Referring to fig. 1 and 2, the main body 1 further includes a support frame a104, a motor a105, an impeller 106 and a console 113, the support frame a104 is welded inside the main body 1, the motor a105 is bolted in the middle of the support frame a104, the front end of the motor a105 is keyed with the rear half-open impeller 106, the console 113 is disposed at the top end of the main body 1, the motor a105 is electrically connected with the console 113, when the motor a105 is started, the impeller 106 is in an air suction state, so that the effect of controlling the motor a105 to suck filtered air into the main body 1 through the console 113 is achieved.

Referring to fig. 2 and 5, the main body 1 further includes an arc protrusion 107, a support frame B108, a support column 109 and a cone 110, the arc protrusion 107 in an annular structure is disposed inside the main body 1, the support frame B108 is welded at the rear end of the main body 1 and is uniformly distributed annularly, the support column 109 is welded in the middle of the support frame B108, and the cone 110 is disposed at the rear end of the support column 109, so that the air is compressed and accelerated through the arc protrusion 107.

Referring to fig. 2 and 5, the main body 1 further includes a temperature control probe 111 and a conduit 112, the temperature control probe 111 is embedded in the supporting column 109, the conduit 112 is welded on the supporting column 109, and the temperature control probe 111 is electrically connected to the console 113 through the conduit 112, so as to transmit information detected by the temperature control probe 111 to the console 113.

Referring to fig. 3, 5 and 6, the main body 1 further includes a magnet a114, an arc-shaped groove 115, a lead column a116, a stopper a117, a switch 118, a slider 119, a groove a120, a spring a121 and a magnet B122, the three magnets a114 are embedded at the rear end of the main body 1, the arc-shaped groove 115 is formed at the rear end of the main body 1, the two lead columns a116 are symmetrically arranged in the arc-shaped groove 115, the stopper a117 is welded in the arc-shaped groove 115, the stopper a117 is provided with the switch 118, the switch 118 is electrically connected with the console 113, the slider 119 is slidably connected with the lead column a116 through the springs a121 at the left and right ends, the slider 119 is provided with a groove a120, the groove a120 is slidably connected with the stopper a117, the front end of the slider 119 is bonded with the magnet B122, and the magnet B122 is recessed in the rear end surface of the main body 1, so as to realize the attraction of the magnet B122, controlling the action of switch 118.

Referring to fig. 5, the main body 1 further includes an air diffuser 123, an air guide rail a124 and an air guide rail B125, the support column 109 is rotatably connected with the air diffuser 123, the air guide rails a124 distributed in a groined shape are welded in the air diffuser 123, and the air guide rails B125 distributed in an annular shape are welded on the air diffuser 123, when the air flow passes through the air guide rails a124 and the air guide rails B125, the air diffuser 123 is in a rotating state, so that the compressed and accelerated air is diffused.

Referring to fig. 1, 4, 5 and 7, the main body 1 further includes a guide groove a126, a stopper B127, a lead column B128, a spring B129, a connecting frame 130, a groove B131, a groove C132 and a spring C133, two guide grooves a126 are respectively formed on the left and right sides of the main body 1, a stopper B127 is welded in the guide groove a126, a lead column B128 is welded in the stopper B127, a spring B129 is sleeved on the lead column B128, the tail end of the spring B129 is clamped on the stopper B127, the connecting frame 130 is in an "L" shape, the head end of the connecting frame 130 is slidably connected in the guide groove a126, a groove B131 is formed in the connecting frame 130, the stopper B127 and the lead column B128 are slidably connected in the groove B131, the head end of the spring B129 is clamped on the groove B131, a groove C132 is further formed in the connecting frame 130, and a spring C133 is clamped in the groove C132; side organism 2 includes guide slot B201, dog C202 and lead post C203, two guide slot B201 have been seted up on side organism 2 right side, and welded a dog C202 in the guide slot B201, and the welding has a lead post C203 on the dog C202, link 130 tail end sliding connection is in guide slot B201, and dog C202 and lead post C203 sliding connection are in recess C132, and the joint of spring C133 head end is on dog C202, thereby realize the tensile effect of extension of main organism 1 and side organism 2.

Referring to fig. 7, the side body 2 further includes guide grooves C204, elastic members 205 and heat conducting plates 206, the guide grooves C204 are uniformly arranged in an array on the left and right sides inside the side body 2, and an elastic member 205 is clamped in each guide groove C204, and a heat conducting plate 206 is slidably connected in each guide groove C204, when the side body 2 is attached to the surface of the motor, the heat conducting plates 206 and the elastic members 205 are in a compressed state, so as to achieve a better effect of attaching to the surface of the motor.

Referring to fig. 8, the side body 2 further includes a through hole 207, a support frame C208, a motor B209 and fan blades 210, two through holes 207 are formed at the rear end of the side body 2, and one support frame C208 is welded on each through hole 207, and the middle of the support frame C208 is bolted with the motor B209, the head end of the motor B209 is connected with one fan blade 210 in a key manner, and the motor B209 is electrically connected with the console 113, so that the heat conducting plate 206 is cooled.

When in use: firstly, pulling the side bodies 2 at the left and right sides of the main body 1 to the two sides, expanding the side bodies 2 to the two sides through the connecting frames 130 connected with the left and right sides of the main body 1 in a sliding way, placing the side bodies 2 at the radiating fins at the left and right sides of the motor, leading the spring B129 sleeved on the lead column B128 to rebound under the force of the spring, leading the side bodies 2 at the left and right sides to fold inwards and contact with the outer wall of the motor, leading the elastic part 205 and the heat conducting plate 206 connected with the side bodies 2 in a sliding way to be extruded to be mutually attached with the radiating fins at the left and right sides of the motor, leading the main body 1 to be absorbed on the radiating cover at the rear end of the motor through the three magnets A114 embedded at the rear end of the main body 1, leading the magnet B122 connected in an arc groove 115 in a sliding way and absorbed on the radiating cover, driving the sliding block 119 bonded with the magnet B122 to move forwards, leading the switch 118 on the block A117 to be pressed, leading the switch 118 to be electrically connected with the control console 113 at the top end of the main body 1, the console 113 receives a signal and starts the console, so that the safety protection effect on the main body 1 is realized, the console 113 controls the motor a105 to start after starting, the motor a105 drives the impeller 106 to start rotating, air is sucked into the main body 1, the sucked air is filtered after passing through the filter plate 102 clamped at the front end of the main body 1, the damage to the motor caused by impurities in the air is reduced, the air is blocked at the arc-shaped bulge 107 and converged towards the middle after passing through the impeller 106, the air pressurization is realized, the flow rate is increased after the air flows out of the arc-shaped bulge 107, the air flow can be slightly diffused through the air diffuser 123 connected to the supporting column 109 by rotating the air diffuser 123 and the air guide fence a124 and the air guide fence B125 welded on the air diffuser 123, so that the air blown into the motor is more uniform, the temperature control probe 111 embedded on the supporting column 109 monitors the temperature of the motor in real time, when the temperature of the motor rises, the signal is transmitted to the console 113 through the conduit 112 welded on the supporting column 109, and the console 113 controls the motor a105 and the motor B209 to rotate in an accelerated manner, so as to achieve the purpose of rapid heat dissipation.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides a motor cooling subassembly for having temperature-detecting device which characterized in that: comprises a main body (1); the main machine body (1) comprises a protective cover (101), a filter plate (102) and a reinforcing rod (103), the protective cover (101) is connected to the front end of the main machine body (1) through a bolt, the filter plate (102) is connected to the front end of the main machine body (1) in a clamping mode, and the reinforcing rod (103) penetrates through the filter plate (102); the left side and the right side of the main machine body (1) are respectively connected with a side machine body (2) in a sliding manner;

the main machine body (1) further comprises an arc-shaped bulge (107), a support frame B (108), a support column (109) and a cone (110), the arc-shaped bulge (107) in an annular structure is arranged inside the main machine body (1), the support frame B (108) which is uniformly and annularly distributed is welded at the rear end of the main machine body (1), the support column (109) is welded in the middle of the support frame B (108), and the cone (110) is arranged at the rear end of the support column (109);

the main machine body (1) further comprises a temperature control probe (111) and a line pipe (112), the temperature control probe (111) is embedded on the supporting column (109), the line pipe (112) is welded on the supporting column (109), and the temperature control probe (111) is electrically connected with the console (113) through the line pipe (112);

the host machine body (1) further comprises a magnet A (114), an arc-shaped groove (115), a lead column A (116), a stop block A (117), a switch (118), a sliding block (119), a groove A (120), a spring A (121) and a magnet B (122), the three magnet A (114) distributed in an annular mode are inlaid at the rear end of the host machine body (1), the arc-shaped groove (115) is formed in the rear end of the host machine body (1), the two lead columns A (116) distributed symmetrically are arranged on the arc-shaped groove (115), the stop block A (117) is welded in the arc-shaped groove (115), the switch (118) is arranged on the stop block A (117), the switch (118) is electrically connected with the control console (113), the sliding block (119) is connected to the lead column A (116) in a sliding mode through the springs A (121) at the left end and the right end, the groove A (120) is formed in the sliding block (119), the groove A (120) and the stop block A (117) are in a sliding connection state, a magnet B (122) is bonded at the front end of the sliding block (119), and the magnet B (122) is sunken on the surface of the rear end of the main machine body (1);

the main machine body (1) further comprises an air diffuser (123), an air guide rail A (124) and an air guide rail B (125), the support column (109) is rotatably connected with the air diffuser (123), the air guide rail A (124) which is distributed in a groined shape is welded in the air diffuser (123), the air guide rail B (125) which is distributed in an annular shape is also welded on the air diffuser (123), and when air flow passes through the air guide rail A (124) and the air guide rail B (125), the air diffuser (123) is in a rotating state;

the main machine body (1) further comprises a guide groove A (126), a stop block B (127), a lead column B (128), a spring B (129), a connecting frame (130), a groove B (131), a groove C (132) and a spring C (133), the left side and the right side of the main machine body (1) are respectively provided with two guide grooves A (126), the guide groove A (126) is internally welded with the stop block B (127), the stop block B (127) is internally welded with the lead column B (128), the lead column B (128) is sleeved with the spring B (129), the tail end of the spring B (129) is clamped on the stop block B (127), the connecting frame (130) is of an L-shaped structure, the head end of the connecting frame (130) is slidably connected in the guide groove A (126), the connecting frame (130) is provided with the groove B (131), the stop block B (127) and the lead column B (128) are slidably connected in the groove B (131), the head end of the spring B (129) is clamped on the groove B (131), the connecting frame (130) is also provided with a groove C (132), and the groove C (132) is internally clamped with a spring C (133); the side machine body (2) comprises a guide groove B (201), a stop block C (202) and a lead column C (203), two guide grooves B (201) are formed in the right side of the side machine body (2), the stop block C (202) is welded in the guide groove B (201), the lead column C (203) is welded on the stop block C (202), the tail end of the connecting frame (130) is connected in the guide groove B (201) in a sliding mode, the stop block C (202) and the lead column C (203) are connected in the groove C (132) in a sliding mode, and the head end of the spring C (133) is clamped on the stop block C (202);

the side organism (2) still includes guide slot C (204), elastic component (205) and heat-conducting plate (206), guide slot C (204) that are even array distribution are seted up to the inside left and right sides of side organism (2), and all the joint has an elastic component (205) in every guide slot C (204), and all sliding connection has a heat-conducting plate (206) in every guide slot C (204), when side organism (2) laminating motor surface, heat-conducting plate (206) are by the compression state with elastic component (205).

2. A motor temperature reduction assembly for use with a temperature sensing device, as defined in claim 1, wherein: host computer body (1) still includes support frame A (104), motor A (105), impeller (106) and control cabinet (113), host computer body (1) internal weld has one support frame A (104), and bolted connection has a motor A (105) in the middle of support frame A (104) to motor A (105) front end key connection has a latter half open impeller (106), host computer body (1) top is equipped with one control cabinet (113), and motor A (105) are the electric connection relation with control cabinet (113), and when motor A (105) started, impeller (106) were the state of breathing in.

3. A motor temperature reduction assembly for use with a temperature sensing device, as defined in claim 1, wherein: side organism (2) still include through-hole (207), support frame C (208), motor B (209) and flabellum (210), two through-hole (207) have been seted up to side organism (2) rear end, and all weld on every through-hole (207) and have one support frame C (208) to bolted connection has one motor B (209) in the middle of support frame C (208), motor B (209) head end key-type connection has one flabellum (210), and motor B (209) is electric connection with control cabinet (113).