CN210671058U - Electromechanical device heat abstractor - Google Patents

Abstract

The utility model discloses an electromechanical device heat abstractor, including the heat dissipation case, T type groove has been seted up to the inside left and right sides of heat dissipation case, it has locking to peg graft in the inside in T type groove to detain, fixed mounting has the heating panel between the locking knot, the heating panel is the cavity design, the heating panel includes single ventilation cooling plate and bi-pass ventilation cooling plate, first air vent has evenly been seted up to the upper surface of single ventilation cooling plate and the lower surface of bi-pass ventilation cooling plate, it has the heat dissipation nail to peg graft in the first air vent, second air vent has evenly been seted up to the upper surface of bi-pass ventilation cooling plate, third air vent has been seted up to the lower surface of single ventilation cooling plate, second air vent is seted up with first air vent. Compared with the prior art, the device can uniformly guide out heat on the electromechanical equipment, and the concentrated heat dissipation wind automatically controlled by the rethread dissipates the heat, so that the heat dissipation effect is better, and the installation is convenient.

Description

Electromechanical device heat abstractor

Technical Field

The utility model relates to an electromechanical device technical field specifically is an electromechanical device heat abstractor.

Background

With the continuous improvement of the living standard of people, people have more and more demands on electromechanical equipment in daily life, advanced electromechanical equipment not only can greatly improve the labor productivity, reduce the labor intensity, improve the production environment and finish the work which can not be finished by manpower, but also has direct and important influence on the development of the whole national economy, the improvement of science and technology and national defense strength as one of national industrial foundations.

Some electromechanical devices need to work continuously for a long time, but generate a large amount of heat during working, and high temperature can cause rapid aging and damage of internal electrical elements or parts, which affects the service life of the electromechanical devices.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an electromechanical device heat abstractor to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an electromechanical device heat abstractor, includes the heat dissipation case, T type groove has been seted up to the inside left and right sides of heat dissipation case, the inside in T type groove is pegged graft and is had N type buckle, fixed mounting has the heating panel between the N type buckle, the heating panel is the cavity design, the heating panel includes single ventilation cooling plate and bi-pass ventilation cooling plate, first air vent has evenly been seted up to the upper surface of single ventilation cooling plate and the lower surface of bi-pass ventilation cooling plate, it has the heat dissipation nail to peg graft in the first air vent, second air vent has evenly been seted up to the upper surface of bi-pass ventilation cooling plate, third air vent has been seted up to the lower surface of single ventilation cooling plate, second air vent and first air vent dislocation are seted up.

Preferably, the cross section of the nail rod of the heat dissipation nail is of a cross structure, the length of the heat dissipation nail ejector rod is larger than the thickness of the heat dissipation plate, and the diameter of the heat dissipation nail ejector cap is larger than that of the first vent hole.

Preferably, the T-shaped groove comprises a T-shaped groove body, the clamping grooves are evenly formed in the front side and the rear side of the inside of the T-shaped groove body, the N-shaped buckles are clamped in the clamping grooves, and the upper end of the inner side of each N-shaped buckle is fixedly arranged at the left end and the right end of the heat dissipation plate.

Preferably, the air pump is fixedly mounted on the left side of the lower surface in the heat dissipation box, one end of the air pipe is fixedly mounted at the right end of the air pump, and the other end of the air pipe is fixedly mounted at the lower end of the third vent hole.

Preferably, the upper end of heat dissipation case articulates there is the case lid, the last surface mounting of case lid has the filtration gas outlet, the left side lower extreme of heat dissipation case is installed and is filtered the air inlet, filter the air inlet and closely laminate with the inlet fan of air pump left end.

Preferably, the controller is fixedly mounted on the right side of the lower surface in the heat dissipation box, the temperature sensor is mounted inside the heat dissipation box, the air pump, the temperature sensor and the controller are electrically connected through wires, and the controller is connected with an external power supply.

Compared with the prior art, the beneficial effects of the utility model are that: this electromechanical device heat abstractor can evenly derive the heat on the electromechanical device, and rethread automatic control's concentrated scattered hot-blast dispels the heat, and the radiating effect is better, simple to operate.

Drawings

Fig. 1 is a schematic cross-sectional view of the structure of the present invention.

Fig. 2 is a schematic plan view of the heat dissipating plate according to the present invention.

Fig. 3 is a schematic structural diagram of the N-shaped buckle of the present invention.

In the figure: 1 heat dissipation case, 2T type groove, 21T type cell body, 22 joint grooves, 3N type buckle, 4 heating panels, 5 heat dissipation nails, 6 air pumps, 7 breather pipes, 8 controllers, 9 filtration gas outlets, 10 temperature sensors, 11 case lids, 12 filtration air inlets, 41 single ventilation heat dissipation boards, 42 bi-ventilation heat dissipation boards, 31 first air vent, 32 second air vent, 33 third air vent.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1, fig. 2 and fig. 3, the present invention provides a technical solution: the utility model provides an electromechanical device heat abstractor, including heat dissipation case 1, T type groove 2 has been seted up to the inside left and right sides of heat dissipation case 1, it has N type buckle 3 to peg graft in the inside of T type groove 2, fixed mounting has heating panel 4 between the N type buckle 3, heating panel 4 is the cavity design, heating panel 4 includes single ventilation cooling panel 41 and two ventilation cooling panel 42, first air vent 31 has evenly been seted up to the upper surface of single ventilation cooling panel 41 and the lower surface of two ventilation cooling panel 42, it has heat dissipation nail 5 to peg graft in the first air vent 31, second air vent 32 has evenly been seted up to the upper surface of two ventilation cooling panel 42, third air vent 33 has been seted up to the lower surface of single ventilation cooling panel 41, second air vent 32 is seted up with first air vent 31 dislocation.

The height of the heat dissipation plate 4 can be adjusted through the matching of the N-type buckle 3 and the T-shaped groove 2, the electromechanical equipment is fixed between the heat dissipation nails 5 through the single-ventilation heat dissipation plate 41 and the double-ventilation heat dissipation plate 42, heat conducted on the heat dissipation nails 5 and the electromechanical equipment are cooled through the third air vent 33, the first air vent 31 and the second air vent 32, the heat dissipation nails 5 are evenly distributed up and down and are in contact with the electromechanical equipment, heat conduction is even, wind power is concentrated near the heat dissipation nails 5, and the cooling effect is better.

The nail pole cross-section of heat dissipation nail 5 is cross structure, and the length of the 5 ejector pins of heat dissipation nail is greater than the thickness of heat dissipation board 4, and the diameter of the 5 hood of heat dissipation nail is greater than the diameter of first air vent 31.

The nail pole cross-section of heat dissipation nail 5 is cross structure, and gas can concentrate in heat dissipation nail 5 and first air vent 31 and pass through to have and keep vertical ability, the thickness that the length of 5 ejector pins of heat dissipation nail is greater than heat dissipation plate 4 can be overhead electromechanical device, reduces area of contact, and the diameter of 5 ejector pins of heat dissipation nail is greater than the diameter of first air vent 31 and prevents that heat dissipation nail 5 from deviating from in first air vent 31.

T type groove 2 includes T type cell body 21, and joint groove 22 has evenly been seted up to both sides around the inside of T type cell body 21, and the inside joint in joint groove 22 has N type buckle 3, and both ends about heat dissipation plate 4 are fixed mounting to the inboard upper end of N type buckle 3.

The clip groove 22 can receive the weight of the heat dissipation plate 4, and the upper and lower positions can be switched in the clip groove 22 through the elastic deformation of the N-shaped clip 3.

An air pump 6 is fixedly installed on the left side of the lower surface inside the heat dissipation box 1, one end of a vent pipe 7 is fixedly installed at the right end of the air pump 6, and the other end of the vent pipe 7 is fixedly installed at the lower end of the third vent hole 33.

The air with a certain pressure is delivered into the cavity in the heat dissipation plate 4 through the third vent hole 33 by the air pump 6 and the vent pipe 7.

The upper end of the heat dissipation box 1 is hinged with a box cover 11, the upper surface of the box cover 11 is provided with a filtering air outlet 9, the lower end of the left side of the heat dissipation box 1 is provided with a filtering air inlet 12, and the filtering air inlet 12 is tightly attached to an air inlet fan at the left end of the air pump 6.

The filter inlet 12 filters the air introduced into the air pump 6, and the discharged hot air is discharged through the filter outlet 9 to prevent dust from entering.

The controller 8 is fixedly installed on the right side of the lower surface in the heat dissipation box 1, the temperature sensor 10 is installed inside the heat dissipation box 1, the air pump 6, the temperature sensor 10 and the controller 8 are electrically connected through wires, and the controller 8 is connected with an external power supply.

The temperature sensor 10 can monitor the temperature of the electromechanical device in the heat dissipation box 1, transmit data to the controller 8, and control the air pump 6 to be switched on and off through the controller 8.

The working principle is as follows: when the temperature-reducing box cover is used, the box cover 11 is opened, the electromechanical equipment is placed at the upper end of the heat-reducing nail 5 of the single-ventilation heat-reducing plate 41, the temperature sensor 10 is placed on the upper surface of the electromechanical equipment, the double-ventilation heat-reducing plate 42 is placed through the matching of the T-shaped groove 2 and the N-shaped buckle 3 and is adjusted to be at a proper position, the heat-reducing nail 5 in the double-ventilation heat-reducing plate 42 is in contact with the upper surface of the electromechanical equipment, the box cover 11 is locked, when the temperature is too high, the controller 8 receives information of the temperature sensor 10 to control the air pump 6, room-temperature air enters from the filtering air inlet 12 and reduces the temperature of the heat-reducing nail 5 absorbing heat and the shell of the electromechanical equipment through the third air vent 33, the first air vent 31 and the second air vent, the released hot air is discharged through the filtering air outlet 9, the temperature reduction.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (6)

1. The utility model provides an electromechanical device heat abstractor which characterized in that: the heat dissipation box comprises a heat dissipation box (1), wherein T-shaped grooves (2) are formed in the left side and the right side of the interior of the heat dissipation box (1), N-shaped buckles (3) are inserted into the T-shaped grooves (2), and heat dissipation plates (4) are fixedly arranged between the N-shaped buckles (3);

heating panel (4) are the cavity design, heating panel (4) are including single ventilation cooling panel (41) and two ventilation cooling panel (42), first air vent (31) have evenly been seted up to the upper surface of single ventilation cooling panel (41) and the lower surface of two ventilation cooling panel (42), it has heat dissipation nail (5) to peg graft in first air vent (31), second air vent (32) have evenly been seted up to the upper surface of two ventilation cooling panel (42), third air vent (33) have been seted up to the lower surface of single ventilation cooling panel (41), second air vent (32) are seted up with first air vent (31) dislocation.

2. The electromechanical device heat sink of claim 1, wherein: the cross-section of the nail rod of the heat dissipation nail (5) is of a cross structure, the length of the top rod of the heat dissipation nail (5) is larger than the thickness of the heat dissipation plate (4), and the diameter of the top cap of the heat dissipation nail (5) is larger than that of the first air vent (31).

3. The electromechanical device heat sink of claim 1, wherein: t type groove (2) are including T type cell body (21), joint groove (22) have evenly been seted up to both sides around the inside of T type cell body (21), the inside joint in joint groove (22) has N type buckle (3), both ends about the inboard upper end fixed mounting of N type buckle (3) are in heating panel (4).

4. The electromechanical device heat sink of claim 1, wherein: the inside lower surface left side fixed mounting of heat dissipation case (1) has air pump (6), the right-hand member fixed mounting of air pump (6) has the one end of breather pipe (7), the other end fixed mounting of breather pipe (7) is at the lower extreme of third breather hole (33).

5. The electromechanical device heat sink of claim 4, wherein: the upper end of heat dissipation case (1) articulates there is case lid (11), the last surface mounting of case lid (11) has filtration gas outlet (9), the left side lower extreme of heat dissipation case (1) is installed and is filtered air inlet (12), filter air inlet (12) and the air inlet fan of air pump (6) left end closely laminate.

6. The electromechanical device heat sink of claim 5, wherein: the inside lower surface right side fixed mounting of heat dissipation case (1) has controller (8), the internally mounted of heat dissipation case (1) has temperature sensor (10), air pump (6), temperature sensor (10), controller (8) are connected through the wire electricity, and controller (8) are connected with external power source.

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