CN114123624A - Motor installation casing for enhancing heat dissipation and shock absorption of motor - Google Patents

Abstract

The invention discloses a motor installation casing for enhancing heat dissipation and shock absorption of a motor, which comprises a casing structure, wherein a heat conduction structure is sleeved on the outer side of the casing structure, a shock absorption structure is arranged at the bottom end of the casing structure, a cleaning structure is arranged on one side of the casing structure, and a cooling structure is arranged at the top end of the heat conduction structure. The vibration damping structure can quickly buffer and offset vibration generated when the motor operates, and prevent the motor from being damaged due to large vibration amplitude for a long time, so that the service life of the motor is shortened.

Description

Motor installation casing for enhancing heat dissipation and shock absorption of motor

Technical Field

The invention relates to the technical field of motor production, in particular to a motor installation casing for enhancing heat dissipation and shock absorption of a motor.

Background

The motor is a device for converting electric energy into mechanical energy, and is characterized by that it utilizes the electrified coil to produce rotating magnetic field and make it act on rotor to form magnetoelectric power rotating torque, and is mainly formed from stator and rotor.

The motor casing is one of the component parts of the motor, the motor casing usually comprises a cylindrical casing, a front end cover and a rear end cover, and the front end cover and the rear end cover of the motor casing are usually fixedly connected with the cylindrical casing through bolts at present.

The notice number is: CN 111917223A's a withstand voltage radiating motor casing possesses comparatively convenient and fast and installs front end housing and rear end cap on the cylinder shell to can improve the packaging efficiency, and radiating effect and withstand voltage better function of effect.

However, the adhered dust generated after the motor normally runs on the motor shell cannot be quickly cleaned, which greatly affects the service life of the motor, and therefore, a motor shell with a better cleaning function is lacked.

An effective solution to the problems in the related art has not been proposed yet.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides the motor installation casing for enhancing the heat dissipation and shock absorption of the motor, which has better cleaning function and heat dissipation function, and further solves the problems in the prior art.

In order to realize the better cleaning function and the heat dissipation function, the invention adopts the following specific technical scheme:

the utility model provides a be used for reinforcing motor heat dissipation and absorbing motor installation casing, includes the casing structure, heat conduction structure has been cup jointed in the outside of casing structure, the bottom of casing structure is equipped with shock-absorbing structure, one side of casing structure is equipped with the clearance structure, the clearance structure includes the gas groove, the outside in gas groove is connected with the pipe connection, the surface in gas groove is equipped with rotatory nozzle, the week side in gas groove is equipped with the connecting rod, the connecting rod is keeping away from one side in gas groove is equipped with the ring channel, the gas groove is keeping away from one side that the pipe connects is equipped with the second telescopic link, the second telescopic link is keeping away from one side in gas groove is equipped with the sliding tray, week side in ring channel is equipped with jet-propelled structure, the top of heat conduction structure is equipped with cooling structure.

Preferably, the casing structure is the primary structure of a motor casing, the casing structure comprises the motor casing, cooling fins are arranged on the surface of the motor casing, a junction box is arranged at the top end of the motor casing, a transmission rod is arranged on one side of the motor casing, and a supporting seat is arranged at the bottom end of the motor casing.

Preferably, the heat conducting structure can be cooled by heat conduction, the heat conducting structure comprises heat conducting blocks which are arranged in an annular mode, one side, facing the annular center, of each heat conducting block is provided with a fitting block, two ends, far away from the fitting block, of each heat conducting block are respectively provided with a liquid guide port, the outer side of each liquid guide port is connected with a liquid guide pipe, the two ends, outside the heat conducting blocks, of each liquid guide pipe are enclosed into two annular structures, the heat conducting blocks are wrapped in the liquid guide pipes, a support rod is arranged at the top end of each liquid guide pipe located at the top of each annular structure, and an introduction port is arranged at the upper portion of each support rod.

Preferably, shock-absorbing structure can shake the conduction, shock-absorbing structure is total a plurality of, and is the matrix and arranges in the heat conduction structure bottom, and shock-absorbing structure includes the fixed block, the top of fixed block is equipped with a plurality of first telescopic links, the top of first telescopic link is equipped with the connecting block, the inside of a plurality of first telescopic links is equipped with the spring of connection between fixed block and connecting block, the connecting rod has been cup jointed to the inside of spring, the connecting rod cross-under is crossed the fixed block, the bottom of connecting rod is connected with the depression bar, the top of depression bar is located the connecting rod below and installs the installation piece, the bottom four corners department of installation piece respectively is equipped with an regulation and supports, the bottom of depression bar is equipped with buffer structure.

Preferably, the cooling structure can carry out the rapid cooling of coolant liquid, be equipped with water inlet pump, cooler, reservoir, the delivery pump that connects gradually through the pipeline in the cooling structure.

Preferably, buffer structure cooperation shock-absorbing structure can shake the buffering and offset, buffer structure includes the conduction pole, the bottom of conduction pole is equipped with the pressure chamber, the bottom of pressure chamber is equipped with the air duct, the distal end of air duct is connected with pressure adjustment tank, one side of pressure adjustment tank is equipped with the pressure spout, the pressure adjustment tank is keeping away from one side of pressure spout is equipped with the regulation mouth that admits air, the air duct is the stereoplasm pipeline.

Preferably, the jet-propelled structure cooperation clearance structure carries out jet-propelled clearance, the jet-propelled structure includes the disk connector, the top of disk connector is equipped with swivelling joint seat, and one side of the disk connector of telling is equipped with the regulation shower nozzle, the disk connector is in it is equipped with the regulation pole to adjust the adjacent one side of shower nozzle, it is keeping away from to adjust the pole one side of disk connector is equipped with articulated seat, disk connector side face is equipped with transmission structure, adjust the pole with pass through between the second telescopic link articulated seat carries out swivelling joint.

Preferably, conduction structure makes the jet-propelled effect of jet-propelled structure better, transmission structure includes the regulating block, the mounting groove has been seted up to the inside of regulating block, the spout has been seted up at the both ends of mounting groove, the spout matches and is equipped with the slider, one side of slider is connected with the support, be equipped with the pivot on the support, adjust the pole with the support passes through the pivot carries out swivelling joint.

Compared with the prior art, the invention provides the motor installation casing for enhancing the heat dissipation and shock absorption of the motor, and the motor installation casing has the following beneficial effects:

(1) the heat conduction structure and the cooling structure are detachably designed, so that the motor can be automatically detached without heat dissipation.

(2) The shock absorption structure can quickly absorb and offset shock generated when the motor operates, and prevent the motor from being damaged due to large long-time shock amplitude, so that the service life of the motor is shortened.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic structural view of a main body of a motor installation cabinet for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention;

FIG. 2 is a schematic diagram of a motor mounting cabinet for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention;

FIG. 3 is a schematic diagram of a heat conducting structure of a motor mounting case for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention;

FIG. 4 is a schematic view of a shock absorbing structure of a motor mounting case for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of a cleaning structure of a motor mounting cabinet for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention;

FIG. 6 is a schematic diagram of a cleaning structure of a motor mounting cabinet for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention;

FIG. 7 is a schematic view of a cooling structure of a motor mounting case for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention;

FIG. 8 is a schematic view of a buffer structure of a motor mounting cabinet for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention;

FIG. 9 is a schematic view of a jet structure of a motor mounting cabinet for enhancing heat dissipation and vibration damping of a motor according to an embodiment of the present invention;

fig. 10 is a schematic view of a transmission structure of a motor installation cabinet for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention.

In the figure:

1. a housing structure; 101. a motor housing; 102. a heat sink; 103. a junction box; 104. a transmission rod; 105. a supporting seat; 2. a heat conducting structure; 201. a heat conducting block; 202. fitting blocks; 203. a liquid guide port; 204. a catheter; 205. a support bar; 206. an inlet port; 3. a shock-absorbing structure; 301. a fixed block; 302. a first telescopic rod; 303. connecting blocks; 304. a spring; 305. a connecting rod; 306. a pressure lever; 307. mounting blocks; 308. adjusting and supporting; 4. cleaning the structure; 401. an air tank; 402. a gas pipe joint; 403. rotating the spray head; 404. a connecting rod; 405. an annular groove; 406. a second telescopic rod; 407. a sliding groove; 5. a cooling structure; 501. a water inlet pump; 502. a pipeline; 503. a cooler; 504. a liquid storage tank; 505. discharging the water pump; 6. a buffer structure; 601. a conductive rod; 602. a pressure chamber; 603. an air duct; 604. a pressure regulating tank; 605. a pressure nozzle; 606. an air intake regulating port; 7. a gas injection structure; 701. a round block connector; 702. a rotating connecting seat; 703. adjusting the spray head; 704. adjusting a rod; 705. a hinged seat; 8. a transmission structure; 801. an adjusting block; 802. a chute; 803. mounting grooves; 804. a slider; 805. a support; 806. a rotating shaft.

Detailed Description

For further explanation of the various embodiments, the drawings which form a part of the disclosure and which are incorporated in and constitute a part of this specification, illustrate embodiments and, together with the description, serve to explain the principles of operation of the embodiments, and to enable others of ordinary skill in the art to understand the various embodiments and advantages of the invention, and, by reference to these figures, reference is made to the accompanying drawings, which are not to scale and wherein like reference numerals generally refer to like elements.

According to an embodiment of the present invention, there is provided a motor mounting case for enhancing heat dissipation and shock absorption of a motor.

Referring to the drawings and the detailed description, as shown in fig. 1-10, the motor mounting enclosure for enhancing heat dissipation and shock absorption of a motor according to an embodiment of the present invention includes a motor mounting enclosure for enhancing heat dissipation and shock absorption of a motor, and is characterized by including an enclosure structure 1, a heat conducting structure 2 is sleeved on an outer side of the enclosure structure 1, a shock absorbing structure 3 is disposed at a bottom end of the enclosure structure 1, a cleaning structure 4 is disposed on one side of the enclosure structure 1, the cleaning structure 4 includes an air tank 401, an air pipe connector 402 is connected to an outer side of the air tank 401, a rotating nozzle 403 is disposed on a surface of the air tank 401, a connecting rod 404 is disposed on a peripheral side of the air tank 401, an annular groove 405 is disposed on a side of the connecting rod 404 away from the air tank 401, a second telescopic rod 406 is disposed on a side of the air tank 401 away from the air pipe connector 402, a sliding groove 407 is disposed on a side of the second telescopic rod 406 away from the air tank 401, the circumferential side surface of the annular groove 405 is provided with an air injection structure 7, and the top end of the heat conduction structure 2 is provided with a cooling structure 5.

Through the technical scheme, casing structure 1 is the primary structure of casing, heat conduction structure 2 carries out the heat exchange through a large amount of heats that cooperation cooling structure 5 produced casing structure 1 and handles, prevent that the motor from being overheated, 3 cooperation buffer structure 6 of shock-absorbing structure can subduct the vibrations reduction that the motor produced by a wide margin, prevent that the motor from causing the inside spare part of motor to damage because of transition vibration, clearance structure 4 cooperation jet-propelled structure 7 and transmission structure 8 carry out the jet-propelled processing to whole equipment, can carry out automatic clearance to equipment surface effectively, prevent the deposition, possess certain heat dissipation function simultaneously.

As shown in fig. 1-10, the housing structure 1 includes a motor housing 101, a heat sink 102 is disposed on a surface of the motor housing 101, a terminal box 103 is disposed on a top end of the motor housing 101, a transmission rod 104 is disposed on one side of the motor housing 101, and a support base 105 is disposed on a bottom end of the motor housing 101.

The heat conduction structure 2 comprises heat conduction blocks 201 which are arranged in an annular mode, a conjunction block 202 is arranged on one side, facing the annular center, of each heat conduction block 201, liquid guide ports 203 are formed in two ends, far away from the conjunction block 202, of each heat conduction block 201, liquid guide pipes 204 are connected to the outer sides of the liquid guide ports 203, the liquid guide pipes 204 enclose two annular structures at two outer ends of the heat conduction blocks 201, the heat conduction blocks 201 are wrapped in the liquid guide pipes, supporting rods 205 are arranged at the top ends of the liquid guide pipes 204 located at the tops of the annular structures, and introducing ports 206 are formed in the upper portions of the supporting rods 205.

Shock-absorbing structure 3 is total a plurality of, and be the matrix and arrange in heat conduction structure 2 bottom, shock-absorbing structure 3 includes fixed block 301, the top of fixed block 301 is equipped with a plurality of first telescopic links 302, the top of first telescopic link 302 is equipped with connecting block 303, the inside of a plurality of first telescopic links 302 is equipped with the spring 304 of connection between fixed block 301 and connecting block 303, connecting rod 305 has been cup jointed to the inside of spring 304, fixed block 301 has been worn to connect to connecting rod 305, the bottom of connecting rod 305 is connected with depression bar 306, the top of depression bar 306 is located connecting rod 305 below and installs installation piece 307, the bottom four corners department of installation piece 307 respectively is equipped with one and adjusts support 308, the bottom of depression bar 306 is equipped with buffer structure 6.

The cooling structure 5 is provided with an inlet pump 501, a cooler 503, a reservoir 504, and an outlet pump 505, which are connected in sequence via a pipe 502.

The buffer structure 6 comprises a conducting rod 601, a pressure chamber 602 is arranged at the bottom end of the conducting rod 601, an air duct 603 is arranged at the bottom end of the pressure chamber 602, a pressure adjusting groove 604 is connected to the far end of the air duct 603, a pressure nozzle 605 is arranged on one side of the pressure adjusting groove 604, an air inlet adjusting port 606 is arranged on one side of the pressure adjusting groove 604 far away from the pressure nozzle 605, and the air duct 603 is a hard pipeline.

The air injection structure 7 comprises a round block connecting port 701, a rotary connecting seat 702 is arranged at the top end of the round block connecting port 701, an adjusting spray head 703 is arranged on one side of the round block connecting port 701, an adjusting rod 704 is arranged on one side, adjacent to the adjusting spray head 703, of the round block connecting port 701, an articulated seat 705 is arranged on one side, far away from the round block connecting port 701, a transmission structure 8 is arranged on the side face of the round block connecting port 701, and the adjusting rod 704 is rotatably connected with the second telescopic rod 406 through the articulated seat 705.

The transmission structure 8 comprises a regulating block 801, a mounting groove 803 is formed in the regulating block 801, sliding grooves 802 are formed in two ends of the mounting groove 803, a sliding block 804 is arranged at the two ends of the sliding groove 802 in a matching mode, a support 805 is connected to one side of the sliding block 804, a rotating shaft 806 is arranged on the support 805, and the regulating rod 704 is rotatably connected with the support 805 through the rotating shaft 806.

In order to facilitate understanding of the above-described technical aspects of the present invention, embodiments of the present invention in practice will be described in detail below.

The first embodiment is as follows: the heat conducting block 201 of the heat conducting structure 2 is provided with an empty slot inside, the liquid guiding port 203 is connected with the empty slot, the matching block 202 is connected and matched with the heat radiating fin 102, because the matching block 202 and the heat conducting block 201 are good heat conductors, the heat generated by the motor is guided into the matching block 202 through the heat radiating fin 102, the heat is guided into the cooling liquid of the empty slot through the heat conducting block 201, the cooling liquid and the heat of the heat conducting block 201 are conducted and cooled through heat exchange, the cooling liquid is guided into the liquid guiding pipe 204 through the liquid guiding port 203, the heated cooling liquid is guided into the pipeline 502 through the water inlet pump 501 through the liquid guiding pipe 204 and the liquid guiding pipe 206, the cooling liquid is guided into the cooler 503 through transmission pressure, the cooling liquid is subjected to effective and rapid cooling treatment through the cooler 503, the cooling liquid temperature is reduced, meanwhile, the cooling liquid is conducted to the liquid storage tank 504, and the cooling liquid of the liquid storage tank 504 is transmitted to the liquid guiding pipe 204 at the other side through the water outlet pump 505, the cooled coolant enters the empty groove of the heat conduction block 201 again to absorb and exchange heat.

Example two: after the fixed block 301 of the damping structure 3 is vibrated by the motor of the supporting seat 105, the first telescopic rod 302 vibrates, the connecting block 303 vibrates up and down, the connecting rod 305 vibrates up and down, the pressing rod 306 vibrates up and down when the connecting rod 305 vibrates up and down, the pressing rod 306 directly acts on the conducting rod 601, the conducting rod 601 vibrates up and down to enable the compressed gas in the pressure cavity 602 to fluctuate, the pressure cavity 602 is communicated with the pressure adjusting groove 604 through the air guide pipe 603, and the pressure switch at the pressure nozzle 605 is opened to exhaust after the gas pressure in the pressure adjusting groove 604 exceeds a specific value, so that the internal pressure is kept stable, but when the vibration of the conducting rod 601 is recovered, the pressure in the pressure adjusting groove 604 is reduced, at the moment, the high-pressure gas tank is connected at the air inlet adjusting port 606, the pressure switch is arranged at the air inlet adjusting port 606, and when the pressure at the side of the pressure adjusting groove is reduced, the pressure switch is opened to enable the high-pressure gas tank to adjust through air inlet The port 606 performs pressure compensation on the pressure adjustment groove 604, thereby stabilizing the internal pressure, and thus performs shock buffering by adjustment of the gas pressure, thereby achieving a shock absorbing effect.

Example three: the air pipe connector 402 of the cleaning structure 4 is connected with compressed air, and the air injection direction of the rotary spray head 403 is radial injection of the air tank 401, so that the air tank 401 can rotate through a sliding groove 407 connected with the second telescopic rod 406, and the second telescopic rod 406 is a small electric telescopic rod, the fixed end of the second telescopic rod 406 is connected with the transmission structure 8 through a hinge base 705 and an adjusting rod 704, the transmission structure 8 can enable the sliding block 804 to slide in the sliding groove 802 when the telescopic rod extends and retracts, simultaneously enable the rotary round block connecting port 701 to adjust the angle of the spray head 703 through the rotary connecting base 702, the connecting rod 404 is hollow, the compressed air in the air tank 401 can be transmitted to the annular groove 405, the annular groove 405 and the round block connecting port 701 are connected in a sliding sealing manner, and an air transmission port is arranged at the connecting part of the round block connecting port 701 and the annular groove 405, so that the compressed air can be transmitted to the adjusting spray head 703 for air injection, the adjustment shower 703 can perform gas spraying with an appropriate angle adjustment, and thus the gas tank 401 rotates, whereby efficient cleaning can be further performed.

In summary, according to the above technical solution of the present invention, the housing structure 1 is a main structure of the housing, the heat conducting structure 2 performs heat exchange processing on a large amount of heat generated by the housing structure 1 by matching with the cooling structure 5, the heat conducting block 201 of the heat conducting structure 2 is provided with a hollow groove, the liquid guiding port 203 is connected with the hollow groove, the matching block 202 is connected with the heat radiating fin 102, the matching block 202 is matched with the heat radiating fin 102, since the matching block 202 and the heat conducting block 201 are good heat conductors, heat generated by the motor is guided into the matching block 202 through the heat radiating fin 102, heat is guided into the cooling liquid in the hollow groove through the heat conducting block 201, heat is conducted to cool the cooling liquid and the heat of the heat conducting block 201 due to heat exchange, the cooling liquid is guided into the liquid guiding pipe 204 through the liquid guiding port 203, the heated cooling liquid is guided into the pipeline 502 through the water pump 501 through the liquid guiding pipes 204 and 206, and the cooling liquid guiding port is guided into the cooler 503 through transmission pressure, the cooling liquid is effectively and quickly cooled by the cooler 503, so that the temperature of the cooling liquid is reduced, and the cooling liquid is simultaneously conducted to the liquid storage tank 504, the cooling liquid in the liquid storage tank 504 is transmitted to the liquid guide pipe 204 on the other side by the water outlet pump 505, so that the cooled cooling liquid enters the empty groove of the heat conducting block 201 again for heat absorption and exchange, thereby preventing the motor from overheating, the vibration generated by the motor can be greatly reduced by the damping structure 3 in cooperation with the buffer structure 6, the damage of the motor to the internal parts of the motor due to transitional vibration is prevented, after the fixed block 301 of the damping structure 3 is subjected to the vibration generated by the motor of the support base 105, the first telescopic rod 302 generates vibration, the connecting block 303 generates vertical vibration, so that the connecting rod 305 vibrates vertically, the pressing rod 306 can vibrate vertically when the connecting rod 305 vibrates vertically, the pressing rod 306 directly acts on the conducting rod 601, the vertical vibration generated by the conducting rod 601 can cause the compressed gas in the pressure cavity 602 to fluctuate, because the air duct 603 connects the pressure chamber 602 with the pressure regulating groove 604, and because the pressure switch at the pressure nozzle 605 is opened for exhausting after the gas pressure in the pressure regulating groove 604 exceeds a specific value, the internal pressure is kept stable, but when the vibration of the conducting rod 601 is recovered, the pressure in the pressure regulating groove 604 is reduced, at this time, the air inlet regulating port 606 is connected with a high-pressure gas tank, and the air inlet regulating port 606 is provided with a pressure switch, when the pressure at the pressure regulating groove 604 side is reduced, the pressure switch is opened, so that the high-pressure gas tank performs pressure compensation on the pressure regulating groove 604 through the air inlet regulating port 606, thereby the internal pressure is kept stable, so that the vibration is buffered through the regulation of the gas pressure, thereby achieving the shock absorption effect, the cleaning structure 4 performs the air injection treatment on the whole equipment by matching with the air injection structure 7 and the transmission structure 8, the automatic cleaning device can effectively and automatically clean the surface of equipment, compressed gas is introduced into a gas pipe joint 402 of a cleaning structure 4, and the gas spraying direction of a rotating spray head 403 is radial spraying of a gas tank 401, so that the gas tank 401 can rotate through a sliding groove 407 connected with the second telescopic rod 406, and the second telescopic rod 406 is a small electric telescopic rod, the fixed end of the second telescopic rod 406 is connected with a transmission structure 8 through a hinge seat 705 and an adjusting rod 704, the transmission structure 8 can enable a sliding block 804 to slide in a sliding groove 802 when the telescopic rod extends and retracts, simultaneously, a rotating round block connecting port 701 adjusts the angle of the spray head 703 through a rotating connecting seat 702, the connecting rod 404 is hollow, the compressed gas in the gas tank 401 can be transmitted to an annular groove 405, the annular groove 405 and the round block connecting port 701 are in sliding sealing connection, and a gas transmission port is arranged at the connecting part of the round block connecting port 701 and the annular groove 405, therefore, compressed gas can be transmitted to the adjusting spray head 703 to spray gas, so that the adjusting spray head 703 can spray gas with an appropriate angle, and the gas tank 401 rotates, so that efficient cleaning can be further performed, dust deposition is prevented, and a certain heat dissipation function is achieved.

In the present invention, unless otherwise expressly specified or limited, the terms "mounted," "disposed," "connected," "secured," "screwed" and the like are to be construed broadly, e.g., as meaning fixedly connected, detachably connected, or integrally formed; can be mechanically or electrically connected; the terms may be directly connected or indirectly connected through an intermediate, and may be communication between two elements or interaction relationship between two elements, unless otherwise specifically limited, and the specific meaning of the terms in the present invention will be understood by those skilled in the art according to specific situations.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (8)

1. A motor installation casing for enhancing heat dissipation and shock absorption of a motor is characterized by comprising a casing structure (1), wherein a heat conduction structure (2) is sleeved on the outer side of the casing structure (1), a shock absorption structure (3) is arranged at the bottom end of the casing structure (1), and a cleaning structure (4) is arranged on one side of the casing structure (1);

clearance structure (4) are including gas tank (401), the outside of gas tank (401) is connected with air pipe connector (402), the surface of gas tank (401) is equipped with rotatory nozzle (403), the week side of gas tank (401) is equipped with connecting rod (404), connecting rod (404) are keeping away from one side of gas tank (401) is equipped with ring channel (405), gas tank (401) are keeping away from one side of air pipe connector (402) is equipped with second telescopic link (406), second telescopic link (406) are keeping away from one side of gas tank (401) is equipped with sliding tray (407), week side of ring channel (405) is equipped with jet-propelled structure (7), the top of heat conduction structure (2) is equipped with cooling structure (5).

2. The motor installation cabinet for enhancing heat dissipation and shock absorption of a motor according to claim 1, wherein the cabinet structure (1) comprises a motor casing (101), the surface of the motor casing (101) is provided with heat dissipation fins (102), the top end of the motor casing (101) is provided with a junction box (103), one side of the motor casing (101) is provided with a transmission rod (104), and the bottom end of the motor casing (101) is provided with a support seat (105).

3. The motor installation casing for enhancing heat dissipation and shock absorption of a motor according to claim 1, wherein the heat conduction structure (2) comprises heat conduction blocks (201) arranged in a ring shape, a fitting block (202) is arranged on one side of the heat conduction block (201) facing to the center of the ring shape, liquid guide ports (203) are arranged at two ends of one side of the heat conduction block (201) far away from the fitting block (202), liquid guide pipes (204) are connected to the outer sides of the liquid guide ports (203), the liquid guide pipes (204) enclose two ring-shaped structures at two ends of the outer portion of the heat conduction block (201), the heat conduction block (201) is wrapped in the liquid guide pipes, a support rod (205) is arranged at the top end of the liquid guide pipe (204) positioned at the top of the ring-shaped structures, and an introduction port (206) is arranged at the upper portion of the support rod (205).

4. The motor installation enclosure for enhancing heat dissipation and shock absorption of a motor according to claim 1, wherein the shock absorption structure (3) is provided in plurality and arranged at the bottom of the heat conduction structure (2) in a matrix manner, the shock absorption structure (3) comprises a fixed block (301), a plurality of first telescopic rods (302) are arranged at the top end of the fixed block (301), a connecting block (303) is arranged at the top end of the first telescopic rods (302), a spring (304) connected between the fixed block (301) and the connecting block (303) is arranged inside the plurality of first telescopic rods (302), a connecting rod (305) is sleeved inside the spring (304), the connecting rod (305) penetrates through the fixed block (301), a pressure rod (306) is connected to the bottom end of the connecting rod (305), and an installation block (307) is installed at the top end of the pressure rod (306) below the connecting rod (305), the four corners of the bottom end of the mounting block (307) are respectively provided with an adjusting support (308), and the bottom end of the pressure lever (306) is provided with a buffer structure (6).

5. The motor installation cabinet for enhancing the heat dissipation and the shock absorption of the motor as claimed in claim 4, wherein a water inlet pump (501), a cooler (503), a liquid storage tank (504), and a water outlet pump (505) are sequentially connected with each other through a pipeline (502) in the cooling structure (5).

6. The motor installation casing for enhancing heat dissipation and shock absorption of a motor according to claim 5, wherein the buffering structure (6) comprises a conducting rod (601), a pressure chamber (602) is arranged at the bottom end of the conducting rod (601), an air duct (603) is arranged at the bottom end of the pressure chamber (602), a pressure adjusting groove (604) is connected to the distal end of the air duct (603), a pressure nozzle (605) is arranged at one side of the pressure adjusting groove (604), an air inlet adjusting port (606) is arranged at one side of the pressure adjusting groove (604) far away from the pressure nozzle (605), and the air duct (603) is a hard pipeline.

7. The motor installation casing for enhancing the heat dissipation and the shock absorption of a motor according to claim 6, wherein the air injection structure (7) comprises a round block connector (701), a rotary connection seat (702) is arranged at the top end of the round block connector (701), an adjusting nozzle (703) is arranged at one side of the round block connector (701), an adjusting rod (704) is arranged at one side of the round block connector (701) adjacent to the adjusting nozzle (703), a hinge seat (705) is arranged at one side of the adjusting rod (704) far away from the round block connector (701), a transmission structure (8) is arranged at the side of the round block connector (701), and the adjusting rod (704) is rotatably connected with the second telescopic rod (406) through the hinge seat (705).

8. The motor installation casing for enhancing the heat dissipation and the shock absorption of the motor according to claim 7, wherein the transmission structure (8) comprises an adjusting block (801), an installation groove (803) is formed in the adjusting block (801), sliding grooves (802) are formed in two ends of the installation groove (803), a sliding block (804) is arranged in the sliding grooves (802) in a matching manner, a support (805) is connected to one side of the sliding block (804), a rotating shaft (806) is arranged on the support (805), and the adjusting rod (704) is rotatably connected with the support (805) through the rotating shaft (806).

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