CN221228089U - Modularized heat dissipation device and traction machine - Google Patents

Abstract

The utility model provides a modularized heat dissipation device and a traction machine, which relate to the technical field of traction machine heat dissipation and comprise the following components: the heat absorption module, the bracket and the heat dissipation mechanism; the plurality of heat absorption modules are arranged, each heat absorption module is connected with the traction machine, and each heat absorption module is used for absorbing heat of the traction machine; the support is arranged on the traction machine and connected with each other, a plurality of heat absorption modules are arranged on the support, and the support is connected with each heat absorption module; the heat dissipation mechanism is connected with the traction machine through the support, and is connected with each heat absorption module, and the heat dissipation mechanism is used for radiating heat to each heat absorption module, and the specific heat dissipation position and the quantity of the heat absorption modules are determined through the position of the heat absorption module to control heat dissipation efficiency, so that the technical problem that heat cannot be dissipated to specific heat dissipation positions and heat dissipation areas cannot be adjusted in the prior art is solved, and the technical effect that the heat dissipation areas are adjustable and the heat dissipation positions can be accurately selected is achieved.

Description

Modularized heat dissipation device and traction machine

Technical Field

The utility model relates to the technical field of heat dissipation of traction machines, in particular to a modularized heat dissipation device and a traction machine.

Background

At present, a traction machine is power equipment of an elevator, which is also called an elevator main machine. The function is to transmit and transfer power to make the elevator run. The device consists of a motor, a brake, a coupler, a reduction gearbox, a traction wheel, a frame, a guide wheel, an auxiliary jigger hand wheel and the like. The guide wheels are typically mounted on the frame or on the spandrel girder below the frame. The jigger hand wheel is fixed on the motor shaft, and is hung on the nearby wall at ordinary times, and is sleeved on the motor shaft when in use.

During operation of the elevator, the motor of the elevator hoisting machine is subjected to the greatest current during starting and braking, and the elevator, as a vertical transport vehicle, is frequently started and braked, and a large amount of heat is generated by the operation of the motor and the friction of the brake.

However, the existing traction machine mainly adopts natural air cooling or a cooling fan mounting mode, most of the traction machines are provided with a cooling fan, the cooling fan can only radiate heat in a large range in a blowing mode, cannot radiate heat aiming at a specific heating position, and meanwhile cannot adjust the heat radiating area.

Disclosure of utility model

The utility model aims to provide a modularized radiating device so as to solve the technical problem that the radiating area cannot be adjusted while radiating at a specific heating position in the prior art.

The utility model provides a modularized heat dissipation device, comprising: the heat absorption module, the bracket and the heat dissipation mechanism;

the plurality of heat absorption modules are arranged, each heat absorption module is connected with the traction machine, and each heat absorption module is used for absorbing heat of the traction machine;

The support is arranged on the traction machine and connected with the traction machine, a plurality of heat absorption modules are arranged on the support, and the support is connected with each heat absorption module;

The heat dissipation mechanism is connected with the traction machine through the support, the heat dissipation mechanism is connected with each heat absorption module, and the heat dissipation mechanism is used for dissipating heat of each heat absorption module.

In an alternative embodiment, a containing cavity is arranged in the heat absorbing module, the containing cavity is used for containing a medium, an outlet and an inlet are arranged on the heat absorbing module, and the outlet and the inlet are respectively communicated with the containing cavity.

In an alternative embodiment, a plurality of the heat absorbing modules are sequentially arranged along the length direction of the bracket.

In an alternative embodiment, the inlet of the first heat absorbing module is connected with the heat dissipation mechanism, the outlet of the last heat absorbing module is connected with the heat dissipation mechanism, and the outlets of the rest heat absorbing modules are connected with the inlets of the adjacent heat absorbing modules.

In an alternative embodiment, one end of the heat absorbing module is provided with a protrusion, the other end is provided with a recess, and the adjacent heat absorbing modules are clamped with the recess through the protrusion;

The first heat absorbing module is clamped with the support through the protrusion, and the last heat absorbing module is clamped with the support through the recess.

In an alternative embodiment, the plurality of brackets are provided, two ends of each bracket are provided with the protrusion and the recess, and adjacent brackets are clamped with each other through the protrusion and the recess.

In an alternative embodiment, the heat dissipation mechanism includes a heat dissipation block and a heat dissipation fin;

The radiating block is arranged on the bracket and connected with the heat absorbing module, the radiating fin is arranged on the radiating fin, and the radiating fin is used for radiating heat for the radiating block.

In an alternative embodiment, the heat dissipation mechanism further comprises a fan;

the fan is arranged at one end of the radiating fin, which is far away from the radiating block, and is connected with the radiating block through the radiating fin, and the fan is used for radiating heat for the radiating fin and the radiating block.

In an alternative embodiment, the device further comprises a connecting pipe;

the connecting pipe is arranged on the adjacent heat absorption modules, and two ends of the connecting pipe are respectively connected with the inlet and the outlet.

The traction machine provided by the utility model comprises a shell and the modularized heat dissipation device;

The heat absorption module is arranged on the shell and is connected with the support, the support is used for fixing the heat absorption module, and the heat absorption module is used for radiating heat for the shell.

The utility model provides a modularized heat dissipation device, comprising: the heat absorption module, the bracket and the heat dissipation mechanism; the plurality of heat absorption modules are arranged, each heat absorption module is connected with the traction machine, and each heat absorption module is used for absorbing heat of the traction machine; the support is arranged on the traction machine and connected with each other, a plurality of heat absorption modules are arranged on the support, and the support is connected with each heat absorption module; the heat dissipation mechanism is connected with the traction machine through the support, and is connected with each heat absorption module, and the heat dissipation mechanism is used for radiating heat to each heat absorption module, and the support and the heat absorption module are arranged at the position where the traction machine generates heat seriously, so that heat is dissipated more accurately, and meanwhile, the heat absorption module is arranged according to the heat generation amount, so that the heat dissipation efficiency is further increased, the technical problem that heat cannot be dissipated to a specific heat generation position and heat dissipation area cannot be adjusted in the prior art is solved, the technical effect that the heat dissipation area is adjustable and the heat dissipation position can be selected accurately is achieved.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present utility model, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

Fig. 1 is a front view of a modularized heat dissipating device and a traction machine according to an embodiment of the present utility model;

Fig. 2 is a schematic structural diagram of a modularized heat dissipating device and a traction machine according to an embodiment of the present utility model;

Fig. 3 is a schematic structural diagram of a heat absorption module, a bracket, an inlet, an outlet and a connecting pipe of the modularized heat dissipating device according to the embodiment of the present utility model;

FIG. 4 is a schematic view of a heat absorption module, a bracket, an inlet, an outlet, and a connection pipe of a modular heat sink according to an embodiment of the present utility model;

Fig. 5 is a schematic structural diagram of a support of a modular heat dissipating apparatus according to an embodiment of the present utility model.

Icon: 100-a heat absorption module; 200-supporting; 300-a heat dissipation mechanism; 310-a heat sink block; 320-fans; 400-inlet; 500-outlet; 600-connecting pipes; 700-housing.

Detailed Description

The technical solutions of the present utility model will be clearly and completely described in connection with the embodiments, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

At present, the induced air cooling mainly adopts natural air cooling or a mode of installing the cooling fan 320, most of the induced air cooling mainly installs the cooling fan 320, the cooling fan 320 can only radiate heat in a large range in a blowing mode, the heat cannot be radiated to a specific heating position, and meanwhile, the heat radiating area cannot be adjusted.

In view of this, as shown in fig. 1 to 5, the modularized heat dissipating device provided in the embodiment of the present utility model includes: a heat absorbing module 100, a bracket 200, and a heat dissipating mechanism 300; the heat absorbing modules 100 are provided in plurality, each heat absorbing module 100 is connected with the traction machine, and each heat absorbing module 100 is used for absorbing heat of the traction machine; the bracket 200 is arranged on the traction machine and connected, a plurality of heat absorption modules 100 are arranged on the bracket 200, and the bracket 200 is connected with each heat absorption module 100; the heat dissipation mechanism 300 is connected with the traction machine through the support 200, the heat dissipation mechanism 300 is connected with each heat absorption module 100, the heat dissipation mechanism 300 is used for dissipating heat to each heat absorption module 100, the support 200 and the heat absorption module 100 are arranged at the position where the heat generation of the traction machine is serious, the heat dissipation is more accurate, meanwhile, the heat absorption module 100 is arranged according to the heat generation amount, so that the heat dissipation efficiency is further increased, the technical problem that the heat dissipation cannot be conducted to the specific heat generation position in the prior art, and the heat dissipation area cannot be adjusted is solved, and the technical effect that the heat dissipation area is adjustable and the heat dissipation position can be accurately selected is achieved.

Regarding the structure and shape of the heat absorbing module 100, in particular:

The heat absorbing module 100 may be made of metal material with higher heat conducting efficiency, such as aluminum alloy material, the heat absorbing module 100 may be rectangular, a contact table is arranged at the bottom end of the heat absorbing module 100 near the traction machine, the contact table may be round or oval, the area of the contact table is smaller than the rectangular area of the horizontal section of the heat absorbing module 100, wherein, a plurality of holes corresponding to the heat absorbing module 100 are arranged on the bracket 200, each heat absorbing module 100 is connected with the bracket 200, the contact table passes through the holes and is abutted with the traction machine, so that the heat energy of the traction machine can be better transferred into the heat absorbing module 100, a containing cavity is arranged in the heat absorbing module 100 and used for containing heat conducting medium, the heat conducting medium may be water or other medium such as oil, two openings of the inlet 400 and the outlet 500 are arranged above the containing cavity, and the two openings are vertically upwards arranged, the heat absorbing modules 100 are respectively provided with protrusions and grooves at both left and right ends, wherein the protrusions and grooves are gradually arranged along the extending direction, when adjacent heat absorbing modules 100 are connected, tight connection can be realized by clamping the protrusions and grooves at both sides, further, when a plurality of heat absorbing modules 100 are connected, the outlet 500 of one heat absorbing module 100 is connected with the inlet 400 of the other heat absorbing module 100 through the connecting pipe 600, and in the collection of a plurality of heat absorbing modules 100, the inlet 400 of the first heat absorbing module 100 is connected with the heat dissipating mechanism 300, the outlet 500 of the last heat absorbing module 100 is connected with the heat dissipating mechanism 300, so that the medium after heat dissipation of the heat dissipating mechanism 300 can enter through the inlet 400 of the first heat absorbing module 100 and enter through the outlet 500 of the first heat absorbing module 100 into the inlet 400 of the second heat absorbing module 100 through the connecting pipe 600, and then the heat dissipation mechanism 300 is further provided with an outlet 500 of the last heat absorption module 100 for dissipating heat of the medium, so that the medium can be recycled, and the cost is reduced.

Alternatively, the inlet 400 and the outlet 500 of each heat absorbing module 100 may be connected to the heat dissipating mechanism 300 through the connection pipe 600, so that each heat absorbing module 100 may dissipate heat through the heat dissipating mechanism 300.

Regarding the structure and shape of the stent 200, specific are:

The support 200 can adopt the aluminum alloy material that easily conducts heat, the support 200 left and right sides is provided with a check and keeps off, be provided with a arch and a recess respectively in the left and right sides that every check kept off, and two check keep off and link together through the connection piece in the middle, be provided with a plurality of holes on the connection piece, every hole corresponds the contact platform of a heat absorption module 100, the shape of hole is unanimous with the cross-section of contact platform, all can set up to oval, the connection piece left and right sides keeps off the back with a check respectively, put into the heat absorption module 100 collection that connects, one side of first heat absorption module 100 is provided with the arch this moment, one side of last heat absorption module 100 is provided with the recess, with two check keep off the protruding and the recess on the lateral wall and cooperate, thereby make heat absorption module 100 collection and both sides keep off to be connected, and make heat absorption module 100 more firm, and support 200 also can be provided with a plurality of, be provided with a arch and recess in the outside that two check keep off, can make it more firm to connect through check and recess to adjacent support 200.

Regarding the structure and shape of the heat dissipation mechanism 300, specific ones are:

The heat dissipation mechanism 300 comprises a heat dissipation block 310, heat dissipation fins and a fan 320, and can further comprise a mounting plate, wherein the heat dissipation block 310 and the heat dissipation fins can be made of aluminum alloy materials which are easy to conduct heat, the mounting plate is mounted on a traction machine, the mounting plate is connected with the traction machine, a support 200 and a heat absorption module 100 are arranged below the mounting plate, the heat dissipation block 310 is arranged above the mounting plate, the heat dissipation block 310 is attached to the mounting plate and can be connected with the mounting plate through bolts, a corresponding water inlet and a corresponding water outlet are arranged on the heat dissipation block 310, the water inlet and the water outlet can be connected with an outlet 500 and an inlet 400 in a collection of the heat absorption module 100 through rubber tubes, so that a medium flowing out from the water outlet can enter the water inlet of the heat dissipation block 310 through rubber tubes after the heat dissipation of the heat dissipation block 310, so as to form a circulation, the heat dissipation fins are arranged at one end of the heat dissipation block 310 far away from the mounting plate and are arranged at a plurality of the heat dissipation block 310, the plurality of heat dissipation fins are evenly spaced along the length direction of the heat dissipation block 310, the heat dissipation fins can be fast arranged on the heat dissipation block 320, the heat dissipation fins can be fixed on the heat dissipation block 320 through the heat dissipation fins, the heat dissipation fins can be cooled down and the heat dissipation fins can be fixed, and the heat dissipation fins can be cooled down, and the heat dissipation efficiency can be further improved.

The traction machine provided by the embodiment of the utility model comprises a shell 700 and a modularized heat dissipation device, and the structure and the shape of the traction machine are as follows:

The shell 700 can be made of metal, the support 200 and the heat absorbing module 100 are arranged on the shell 700, the support 200 is arranged at a place where the shell 700 generates heat seriously, the support 200 and the shell 700 can be connected through bolts, the heat absorbing module 100 is correspondingly arranged on the shell 700, the number of the heat absorbing modules 100 is set according to the heat productivity, the more the heat absorbing modules 100 are, the less the heat productivity is, the less the heat absorbing modules 100 are, then a mounting plate is arranged above the heat absorbing modules 100, a heat dissipating block 310 with heat dissipating fins is arranged on the mounting plate, the heat dissipating fins and the heat dissipating block 310 can be integrally formed, then a fan 320 is arranged above the heat dissipating fins, the fan 320 is locked on the heat dissipating fins or the heat dissipating block 310 through bolts, then an outlet 500 in the heat absorbing module 100 set and a water inlet in the heat dissipating block 310 can be connected through a rubber tube, and a water outlet in the heat dissipating module 100 set is connected through a rubber tube, so that a passage is formed.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present utility model, and not for limiting the same; although the utility model has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some or all of the technical features thereof can be replaced by equivalents; such modifications and substitutions do not depart from the spirit of the utility model.

Claims (10)

1. A modular heat dissipation device for heat dissipation of a traction machine, comprising: a heat absorbing module (100), a bracket (200) and a heat dissipating mechanism (300);

The heat absorption modules (100) are arranged in a plurality, each heat absorption module (100) is connected with the traction machine, and each heat absorption module (100) is used for absorbing heat of the traction machine;

The support (200) is arranged on the traction machine and connected with the traction machine, a plurality of heat absorption modules (100) are arranged on the support (200), and the support (200) is connected with each heat absorption module (100);

The heat dissipation mechanism (300) is connected with the traction machine through the support (200), the heat dissipation mechanism (300) is connected with each heat absorption module (100), and the heat dissipation mechanism (300) is used for dissipating heat of each heat absorption module (100).

2. The modular heat sink according to claim 1, wherein a receiving cavity is provided in the heat absorbing module (100), the receiving cavity being for receiving a medium, an outlet (500) and an inlet (400) being provided on the heat absorbing module (100), the outlet (500) and the inlet (400) being arranged in communication with the receiving cavity, respectively.

3. The modular heat sink according to claim 2, wherein a plurality of the heat absorbing modules (100) are arranged in sequence along the length of the rack (200).

4. A modular heat sink according to claim 3, characterized in that the inlet (400) of a first heat absorbing module (100) is connected to the heat dissipating mechanism (300), the outlet (500) of a last heat absorbing module (100) is connected to the heat dissipating mechanism (300), and the outlets (500) of the remaining heat absorbing modules (100) are connected to the inlets (400) of adjacent heat absorbing modules (100).

5. The modular heat sink according to claim 1, wherein one end of the heat absorbing module (100) is provided with a protrusion and the other end is provided with a recess, and adjacent heat absorbing modules (100) are clamped with the protrusion and the recess;

The first heat absorbing module (100) is clamped with the support (200) through the protrusion, and the last heat absorbing module (100) is clamped with the support (200) through the recess.

6. The modular heat sink of claim 5 wherein a plurality of brackets (200) are provided, each bracket (200) having the protrusion and the recess at both ends, adjacent brackets (200) being engaged by the protrusion and the recess.

7. The modular heat sink of claim 1 wherein the heat dissipation mechanism (300) comprises a heat sink block (310) and a heat sink fin;

The heat dissipation block (310) is arranged on the bracket (200) and connected with the heat absorption module (100), the heat dissipation fin is arranged on the heat dissipation fin, and the heat dissipation fin is used for dissipating heat of the heat dissipation block (310).

8. The modular heat sink of claim 7 wherein the heat dissipation mechanism (300) further comprises a fan (320);

The fan (320) is arranged at one end of the radiating fin away from the radiating block (310) and is connected with the radiating block (310) through the radiating fin, and the fan (320) is used for radiating heat for the radiating fin and the radiating block (310).

9. The modular heat sink of claim 4 further comprising a connecting tube (600);

The connection pipe (600) is arranged on the adjacent heat absorbing modules (100), and two ends of the connection pipe (600) are respectively connected with the inlet (400) and the outlet (500).

10. A hoisting machine, characterized by comprising a housing (700) and a modular heat dissipating arrangement according to any of claims 1-9;

The heat absorption module (100) and the support (200) are arranged on the shell (700), the shell (700) is respectively connected with the heat absorption module (100) and the support (200), the support (200) is used for fixing the heat absorption module (100), and the heat absorption module (100) is used for radiating heat for the shell (700).