CN217335297U - Automatic motor heat abstractor that uses of electrical engineering - Google Patents

Abstract

The utility model relates to the technical field of motor heat dissipation devices, in particular to a motor heat dissipation device for electrical engineering automation, which comprises a motor box, wherein heat dissipation holes are formed in the left end and the right end of the motor box; one end of a motor shaft connected to the left side of the motor body penetrates through the motor box and extends outwards, the right part of the water box is fixedly connected with the cooling device body, and the water box is provided with a circulating cooling mechanism which is connected with the heat dissipation assembly; this automatic motor heat abstractor for electrical engineering can make the coolant liquid circulate cooling and the wind that radiator fin produced to motor body through the cooperation between cooling device body, a water pump and the No. two water pumps and accelerate inside air flow, has improved motor heat abstractor's radiating rate and heat dissipation work efficiency.

Description

Automatic motor heat abstractor that uses of electrical engineering

Technical Field

The utility model relates to a motor heat abstractor technical field, concretely relates to electric engineering is motor heat abstractor for automation.

Background

The motor is an electromagnetic device which realizes electric energy conversion or transmission through an electromagnetic induction law and is used as a power source of electric appliances or various machines.

The electric energy is converted into mechanical energy and then output in the running process of the motor, because energy loss and friction between mechanical parts can generate heat, a large amount of heat energy can be generated after long-term work, and the motor can be burnt in serious cases, so that unnecessary economic loss is brought to a user, the practicability of the motor is reduced, and a heat dissipation device is needed for dissipating heat and cooling the motor; however, some existing heat dissipation devices only adopt a heat dissipation fan to perform heat dissipation work on the motor, so that the heat dissipation speed is low, a good heat dissipation effect cannot be achieved, the heat dissipation device is not practical, the service life of the motor is influenced, and meanwhile, the working efficiency of the motor is also reduced.

SUMMERY OF THE UTILITY MODEL

To the problem that above-mentioned exists, the utility model provides an electric engineering is motor heat abstractor for automation.

In order to achieve the above object, the present invention adopts the following technical solutions:

a motor heat dissipation device for electrical engineering automation comprises a motor box, heat dissipation holes are formed in the left end and the right end of the motor box, a detachable dustproof mechanism is installed on the right side of the motor box, the top end of the motor box is connected with a supporting leg at the bottom end of a water tank, and a motor body is fixedly connected inside the motor box;

motor shaft one end that motor body left side is connected runs through the motor case and outwards extends, and the right part fixedly connected with cooling device body of water tank installs circulative cooling mechanism on the water tank, and circulative cooling mechanism links together with radiator unit again.

Preferably, the detachable dustproof mechanism comprises two fixed seats fixedly connected to the right side of the motor box, the two fixed seats are arranged in a vertically corresponding mode, opposite ends of the two fixed seats are provided with grooves, T-shaped clamping rods are arranged on the two fixed seats, and the two grooves are correspondingly matched with clamping blocks on two sides of the dustproof net; the T-shaped clamping rod extends into the fixing seat and is in sliding fit with the fixing seat, the T-shaped clamping rod is sleeved with the spring, and two ends of the spring respectively abut against the fixing seat and the part, extending out of the fixing seat, of the T-shaped clamping rod.

Preferably, the circulating cooling mechanism comprises a first water pump arranged in the water tank, an input pipe of the first water pump is positioned in the water tank, and an output pipe of the first water pump extends downwards out of the water tank and extends into a water inlet hopper fixedly connected with the bottom end of the water tank; the motor case is stretched into downwards to the fill of intaking to be connected with the coiled pipe one end of encircleing on motor body, the motor case is upwards stretched out to the coiled pipe other end, and with the drinking-water piping connection of No. two water pumps, No. two water pumps are installed in the water tank left side, No. two water pumps pass through drain pipe and water tank left end upper portion through connection.

Preferably, the inner upper aperture of the water inlet hopper is wider than the inner lower aperture.

Preferably, the radiating component comprises a first rotating shaft which is connected with a water inlet hopper in a rotating mode, the first rotating shaft is located in the water inlet hopper and internally provided with an impeller, the first rotating shaft stretches out the water inlet hopper rightwards, a sealing ring is arranged at the position where the water inlet hopper stretches out, the first rotating shaft is connected with the supporting leg rightwards in a rotating mode, the right end of the first rotating shaft is connected with a second rotating shaft inside the motor box in a rotating mode through a belt wheel set, and radiating blades are installed at the left end of the second rotating shaft.

Due to the adoption of the technical scheme, the beneficial effects of the utility model are that:

the motor heat dissipation device for the electrical engineering automation cools the cooling liquid in the water tank through the cooling device body, the first water pump and the second water pump are started, the cooling liquid flows into the coiled pipe surrounding the surface of the motor body from the water inlet hopper under the matching of the first water pump, the input pipe, the output pipe, the water hopper and the coiled pipe, the motor body is preliminarily cooled, the second water pump is used for pumping the water of the coiled pipe to flow back into the water tank, the cooling liquid can be used for circularly cooling the motor body through the matching among the cooling device body, the first water pump and the second water pump, and the cooling and heat dissipation effects are improved; simultaneously because the inside upper aperture of the fill of intaking is wider than inside lower aperture, the gravity and the rivers impact force that conveniently use the water whereabouts drive impeller and pivot one and rotate, under the effect of belted wheel group, pivot two and radiator vane rotate, utilize the wind that radiator vane rotates the production to increase the inside air flow of motor case, further reduce motor body's temperature, through utilizing the cooling liquid circulation cooling and the wind that radiator vane produced to accelerate inside air flow, motor heat abstractor's radiating rate and heat dissipation work efficiency have been improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only for the purpose of the present invention, protecting some embodiments, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

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

fig. 2 is a schematic structural view at a position a of the present invention;

fig. 3 is a schematic structural view of the utility model at B;

in the figure: 1-motor box, 101-heat dissipation hole, 2-motor body, 3-motor shaft, 4-water tank, 401-supporting leg, 5-cooling device body, 6-first water pump, 601-input pipe, 602-output pipe, 7-second water pump, 701-water pumping pipe, 702-water discharging pipe, 8-water inlet hopper, 9-rotating shaft I, 901-sealing ring, 10-impeller, 11-belt wheel set, 12-serpentine pipe, 13-rotating shaft II, 14-heat dissipation blade, 15-dust screen, 151-clamping block, 16-fixing seat, 161-groove, 17-T-shaped clamping rod and 18-spring.

Detailed Description

In order to make the purpose, technical solution and advantages of the embodiments of the present invention clearer, the embodiments of the present invention are combined with the following description to clearly and completely describe the technical solution in the embodiments of the present invention. Based on the embodiments of the present invention, all other embodiments obtained by a person skilled in the art without making creative efforts belong to the protection scope of the present invention.

Example 1

A motor heat dissipation device for electrical engineering automation comprises a motor box 1, heat dissipation holes 101 are formed in the left end and the right end of the motor box 1, a detachable dustproof mechanism is installed on the right side of the motor box 1, the top end of the motor box 1 is connected with a supporting leg 401 at the bottom end of a water tank 4, and a motor body 2 is fixedly connected inside the motor box 1;

3 one end of motor shaft that 2 left sides of motor body are connected runs through motor case 1 and outwards extends, and the right part fixedly connected with cooling device body 5 of water tank 4 installs circulative cooling mechanism on the water tank 4, and circulative cooling mechanism links together with radiator unit again.

The detachable dustproof mechanism comprises two fixed seats 16 fixedly connected to the right side of the motor box 1, the two fixed seats 16 are arranged up and down correspondingly, opposite ends of the two fixed seats 16 are provided with grooves 161, T-shaped clamping rods 17 are arranged on the two fixed seats 16, and the two grooves 161 are correspondingly matched with clamping blocks 151 on two sides of the dustproof net 15; t type kelly 17 stretches into in the fixing base 16 and with fixing base 16 sliding fit, the cover is equipped with spring 18 on the T type kelly 17, and the both ends of spring 18 offset with fixing base 16 and the part that T type kelly 17 stretches out fixing base 16 respectively, are convenient for avoid the dust to get into and attach to radiator vane 14 surface.

The circulating cooling mechanism comprises a first water pump 6 arranged in the water tank 4, an input pipe 601 of the first water pump 6 is positioned in the water tank 4, and an output pipe 602 of the first water pump 6 extends downwards out of the water tank 4 and extends into a water inlet hopper 8 fixedly connected with the bottom end of the water tank 4; intake bucket 8 stretches into motor case 1 downwards to be connected with 12 one ends of coiled pipe around on motor body 2, the 12 other ends of coiled pipe upwards stretch out motor case 1, and be connected with drinking-water pipe 701 of No. two water pumps 7, No. two water pumps 7 are installed in 4 left sides of water tank, and No. two water pumps 7 pass through drain pipe 702 and 4 upper portions of left end of water tank through-connections, are convenient for accelerate to dispel the heat the cooling to motor body 2, improve the radiating effect of motor.

The inside upper aperture of the water inlet hopper 8 is wider than the inside lower aperture, so that the impeller 10 is driven to rotate by the falling gravity and the water flow impact force of water.

Radiator unit includes that left end and 8 rotation of intaking fill are connected pivot 9, pivot 9 is located 8 internally mounted that intake is fought and has impeller 10, pivot 9 stretches out into water and fights 8 right, and stretch out into 8 departments of fighting and be equipped with sealing washer 901, pivot 9 rotates with supporting leg 401 right and is connected, the right-hand member of pivot 9 is connected at two 13 transmissions of the inside pivot of motor case 1 through band pulley group 11 with the rotation, radiator vane 14 is installed to the left end of two 13 pivots, rotate through impeller 10, and then drive two 13 pivots and the rotation of radiator vane 14, the scattered thermal treatment of blowing is carried out motor body 2.

The working mode of the motor heat dissipation device for the automation of the electrical engineering is as follows:

when the cooling device is used, the cooling device body 5 cools the cooling liquid in the water tank 4, the first water pump 6 and the second water pump 7 are respectively started, the cooling liquid is sprayed into the water inlet hopper 8 through the input pipe 601 and the output pipe 602 under the action of the first water pump 6, water flows into the coiled pipe 12 surrounding the surface of the motor body 2 from the water inlet hopper 8, the generator body 5 is preliminarily cooled, the second water pump 7 is used for pumping the water of the coiled pipe 12 to flow back into the water tank 4, and the cooling liquid can circularly cool the motor body 12 through the matching among the cooling device body 5, the first water pump 6 and the second water pump 7; simultaneously because the inside upper aperture of the fill 8 of intaking is wider than inside lower aperture, the gravity and the rivers impact force that conveniently use the water whereabouts drive impeller 10 and pivot one 9 and rotate, under the effect of taking wheelset 11, pivot two 13 and radiator vane 14 rotate, utilize the wind that radiator vane 14 rotated the production, thereby increase the inside air flow of motor case 1, thereby further reduce the temperature of motor body 2, utilize the wind that coolant liquid circulation cooling and radiator vane 14 produced to accelerate inside air flow, the radiating rate and the heat dissipation work efficiency of motor heat abstractor have been improved.

Motor, water pump, dust screen that this patent adopted are the market, and its structure and control mode are prior art, no longer give unnecessary details in the description.

The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (5)

1. The utility model provides an automatic motor heat abstractor that uses of electrical engineering, includes motor case (1), its characterized in that: the left end and the right end of the motor box (1) are provided with heat dissipation holes (101), the right side of the motor box (1) is provided with a detachable dustproof mechanism, the top end of the motor box (1) is connected with a support leg (401) at the bottom end of the water tank (4), and the interior of the motor box (1) is fixedly connected with a motor body (2);

motor shaft (3) one end that motor body (2) left side is connected runs through motor case (1) and outwards extends, the right part fixedly connected with cooling device body (5) of water tank (4) are installed circulative cooling mechanism on water tank (4), and circulative cooling mechanism links together with radiator unit again.

2. The motor heat sink for automation of electrical engineering according to claim 1, wherein: the detachable dustproof mechanism comprises two fixed seats (16) fixedly connected to the right side of the motor box (1), the two fixed seats (16) are arranged up and down correspondingly, grooves (161) are formed in opposite ends of the two fixed seats (16), T-shaped clamping rods (17) are mounted on the two fixed seats (16), and the two grooves (161) are correspondingly matched with clamping blocks (151) on two sides of the dustproof net (15); t type kelly (17) stretch into in fixing base (16) and with fixing base (16) sliding fit, the cover is equipped with spring (18) on T type kelly (17), and the both ends of spring (18) respectively with fixing base (16) and T type kelly (17) stretch out the part of fixing base (16) and offset.

3. The motor heat sink for automation of electrical engineering according to claim 1, wherein: the circulating cooling mechanism comprises a first water pump (6) arranged in the water tank (4), an input pipe (601) of the first water pump (6) is positioned in the water tank (4), and an output pipe (602) of the first water pump (6) extends downwards out of the water tank (4) and extends into a water inlet hopper (8) fixedly connected with the bottom end of the water tank (4); intake fill (8) and stretch into motor case (1) downwards to be connected with coiled pipe (12) one end of encircleing on motor body (2), coiled pipe (12) other end upwards stretches out motor case (1) to be connected with drinking-water pipe (701) of No. two water pump (7), No. two water pump (7) are installed in water tank (4) left side, and No. two water pump (7) are through-connected through drain pipe (702) and water tank (4) left end upper portion.

4. The motor heat sink for automation of electrical engineering according to claim 3, wherein: the inner upper aperture of the water inlet hopper (8) is wider than the inner lower aperture.

5. The motor heat sink for automation of electrical engineering according to claim 1, wherein: the radiator unit includes that left end and water inlet fill (8) rotate pivot (9) of being connected, pivot (9) are located water inlet fill (8) internally mounted and have impeller (10), and water inlet fill (8) are stretched out right in pivot (9), and stretch out water inlet fill (8) department and be equipped with sealing washer (901), and pivot (9) rotate right with supporting leg (401) and be connected, and the right-hand member of pivot (9) is connected in inside pivot two (13) transmission of motor case (1) through band pulley group (11) and rotation, radiator blade (14) are installed to the left end of pivot two (13).

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