CN211831387U - Efficient heat dissipation intelligent controller utilizing physical transmission to match flow velocity - Google Patents

Abstract

The utility model discloses an utilize high-efficient heat dissipation intelligent control ware of physics transmission cooperation velocity of flow, its structure includes the display panel, the casing, the solid piece, the anchor strut, the insulation board, the wiring end, the battery compartment, the radiator, the utility model discloses be equipped with embedded radiator on the intelligent control ware casing, the mounted position of framed bent is unchangeable, and the conducting strip passes through the fixture block to be fixed on its interior back wall position, and the conducting strip can attract the inside electrical apparatus sensing module heat of battery compartment, and further the fin through the transmission of physics medium concentrates the heat, and the fan is the micro device who attracts discharge steam, regards the axle that will electrify as the driving source, and magnetic field drives the fan rotatory, behind the conducting strip, the fin absorptive heat discharge ventilating board, has realized the heat dissipation purpose of circulation of air, and the mode of physics transmission cooperation velocity of flow can improve the radiating effect of inside circulation of air greatly.

Description

Efficient heat dissipation intelligent controller utilizing physical transmission to match flow velocity

Technical Field

The utility model relates to an utilize high-efficient heat dissipation intelligent control ware of physics transmission cooperation velocity of flow belongs to intelligent control ware heat dissipation technical field.

Background

Nowadays, in the electric appliances popularized and applied in various industries, many different types of mechanical products are integrated into life, and most of the mechanical products use intelligent controllers to carry out unified management and control on different electric appliances.

However, the intelligent controller controls multiple electrical appliances simultaneously, so that energy consumption is large, the operation burden of electrical appliance elements is large, heat is easy to generate, rapid cooling cannot be achieved only by means of physical medium transmission, heat is easy to collect and heat up in the intelligent controller, and the intelligent controller is easy to break down.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing an utilize high-efficient heat dissipation intelligent control ware of physics transmission cooperation velocity of flow to it is great to solve the multiple electrical apparatus of intelligent control ware simultaneous control and cause the power consumption, and electrical components moves the easy heat production when burden is great, only utilizes the unable rapid cooling of mode of physics medium transmission, and inside easy thermal-arrest intensifies, makes the problem that intelligent control ware broke down easily.

In order to achieve the above purpose, the present invention is realized by the following technical solution: the utility model provides an utilize high-efficient heat dissipation intelligent control ware of physics transmission cooperation velocity of flow, its structure includes display panel, casing, solid piece, anchor strut, insulation board, wiring end, battery compartment, radiator, be equipped with the display panel of embedded in surperficial groove department on the casing, be equipped with the solid piece of interval arrangement combination an organic whole on the casing, solid piece recess level looks joint anchor strut, the anchor strut is transversely arranged on insulation board dead slot both ends, establish the battery compartment of embedded constitution on the casing, be equipped with the wiring end on the battery compartment recess, the battery compartment facial make-up is equipped with embedded radiator.

Further, the radiator includes deckle board, fixture block, conducting strip, fin, ventilating board, circular telegram axle, fan, establish embedded fan on the deckle board, the fan keeps rotating the fixed unchangeable in midpoint position through circular telegram axle, fixture block looks spiro union conducting strip both ends, the conducting strip looks wall connects a plurality of fins of interval arrangement, the fin is installed on the deckle board inner groovy, the deckle board rear wall position is joined in marriage the conducting strip of establishing the installation face towards the battery compartment, the ventilating board is located the deckle board front wall board, corresponds to inlay and establishes on a casing lateral wall recess.

Further, the terminal is mounted on a partial groove of a side wall of the case.

Furthermore, the display panel is attached to the surface of the end of the connecting line.

Further, the insulating plate is combined with a rigid connector shell.

Further, the power-on shaft is a power-on type rotating fitting generating a magnetic field.

Further, the fan adopts a micro fan.

Advantageous effects

The utility model relates to an utilize high-efficient heat dissipation intelligent control ware of physics transmission cooperation velocity of flow, be equipped with embedded radiator on the intelligent control ware shell, the mounted position of deckle board is unchangeable, the conducting strip passes through the fixture block to be fixed on its interior back wall position, the conducting strip can attract the inside electrical apparatus sensing module heat of battery compartment, further the fin through the transmission of physics medium concentrates the heat, the fan is the micro device who attracts discharge steam, regard circular telegram axle as the driving source, magnetic field drives the fan rotation, with the conducting strip, behind the fin absorbing heat discharge ventilating board, the radiating purpose of circulation of air has been realized, the mode of physics transmission cooperation velocity of flow can improve the radiating effect of inside circulation of air greatly.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

fig. 1 is a schematic structural view of an efficient heat dissipation intelligent controller using physical transmission to match flow velocity according to the present invention;

fig. 2 is a schematic view of the assembly structure of the heat sink of the present invention.

In the figure: the display panel-1, the shell-2, the fixing block-3, the reinforcing rod-4, the insulating plate-5, the terminal-6, the battery bin-7, the radiator-8, the frame plate-A1, the fixing block-B2, the heat conducting fin-C3, the heat radiating fin-D4, the ventilating plate-E5, the electrifying shaft-F6 and the fan-G7.

Detailed Description

In order to make the technical means, creation features, achievement purposes and functions of the present invention easy to understand, the present invention is further described below with reference to the following embodiments.

Referring to fig. 1-2, the present invention provides a technical solution: an efficient heat dissipation intelligent controller utilizing physical transmission to match with flow velocity structurally comprises a display panel 1, a shell 2, fixed blocks 3, reinforcing rods 4, an insulating plate 5, wiring terminals 6, a battery bin 7 and a heat radiator 8, wherein the display panel 1 embedded in a groove on the surface is arranged on the shell 2, the fixed blocks 3 which are arranged at intervals and combined into a whole are arranged on the shell 2, grooves of the fixed blocks 3 are horizontally clamped with the reinforcing rods 4, the reinforcing rods 4 are transversely arranged at two ends of an empty groove of the insulating plate 5, the shell 2 is provided with the battery bin 7 which is embedded, the wiring terminals 6 are assembled on the grooves of the battery bin 7, the embedded heat radiator 8 is assembled on the battery bin 7, the heat radiator 8 comprises a frame plate A1, a clamping block B2, a heat conducting fin C3, a cooling fin D4, a ventilation plate E5, an electrifying shaft F6 and a fan G7, the embedded fan G7 is arranged on the frame plate A1, and the fan G7 keeps the rotation midpoint position unchanged through the electrifying shaft F6, the fixture block B2 is screwed with the two ends of a heat conducting sheet C3, the heat conducting sheet C3 is connected with a plurality of heat radiating sheets D4 arranged at intervals, the heat radiating sheets D4 are installed in grooves in a frame plate A1, the rear wall of the frame plate A1 is provided with a heat conducting sheet C3 with an installation surface facing the battery compartment 7, a ventilating plate E5 is located on the front wall plate of the frame plate A1 and correspondingly embedded in a groove in one side wall of the shell 2, the wiring terminal 6 is installed on a local groove in the side wall of the shell 2, the display panel 1 is attached to the surface of the wiring terminal 6, the insulating plate 5 is fixedly connected with the shell 2 in a combined mode, the power-on shaft F6 is a rotating accessory generating a magnetic field in a power-on mode, and the fan G7.

The fan G7 is a micro device for sucking and discharging hot air, and uses a current-carrying shaft as a driving source, and a magnetic field drives the fan G7 to rotate, so that heat absorbed by the heat-conducting fins C3 and the heat-radiating fins D4 is discharged from the ventilation plate E5, and the purpose of heat dissipation of air circulation is achieved.

For example: when using, be equipped with embedded radiator 8 on intelligent control ware casing 2, framed panel A1's mounted position is unchangeable, conducting strip C3 passes through fixture block B2 to be fixed on its interior back wall position, conducting strip C3 can attract the inside electrical apparatus sensing module heat of battery compartment 7, further concentrate the heat through fin D4 of physical medium transmission, fan G7 is the micro device who attracts discharge steam, regard circular telegram axle as the driving source, magnetic field drive fan G7 is rotatory, behind the heat discharge ventilating board E5 that absorbs conducting strip C3, fin D4, the radiating purpose of circulation of air has been realized, the radiating effect of inside circulation of air can be greatly improved to the mode of physical transmission cooperation velocity of flow.

The utility model provides a problem be that the multiple electrical apparatus of intelligent control ware simultaneous control causes the power consumption great, and electrical components operation burden produces the heat easily when great, only utilizes the unable rapid cooling of mode of physics medium transmission, and inside easy thermal-arrest intensifies, makes intelligent control ware break down easily, the utility model discloses a combination of each other of above-mentioned part, the mode of physics transmission cooperation velocity of flow can improve the radiating effect of inside circulation of air greatly.

The basic principles and the main features of the invention and the advantages of the invention have been shown and described above, it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, but that the invention may be embodied 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 (5)

1. The utility model provides an utilize high-efficient heat dissipation intelligent control ware of physics transmission cooperation velocity of flow, its structure includes display panel (1), casing (2), solid piece (3), anchor strut (4), insulation board (5), wiring end (6), battery compartment (7), radiator (8), its characterized in that:

the solar cell panel is characterized in that a display panel (1) embedded in a groove on the surface is arranged on the cell shell (2), fixing blocks (3) which are arranged at intervals and combined into a whole are arranged on the cell shell (2), a groove of each fixing block (3) is horizontally clamped with a reinforcing rod (4), the reinforcing rods (4) are transversely arranged at two ends of an empty groove of the insulating plate (5), a cell bin (7) formed in an embedded mode is arranged on the cell shell (2), a wiring terminal (6) is assembled on a groove of the cell bin (7), and an embedded radiator (8) is arranged on the cell bin (7).

2. The intelligent controller for efficient heat dissipation by utilizing physical transmission to match flow rate as claimed in claim 1, wherein: the radiator (8) comprises a frame plate (A1), a clamping block (B2), heat-conducting fins (C3), radiating fins (D4), a ventilating plate (E5), an electrifying shaft (F6) and a fan (G7), wherein the embedded fan (G7) is arranged on the frame plate (A1), the fan (G7) keeps the position of a rotating midpoint fixed through the electrifying shaft (F6), the clamping block (B2) is connected with the two ends of the heat-conducting fins (C3) in a screwed mode, the heat-conducting fins (C3) are connected with the radiating fins (D4) arranged at intervals, the radiating fins (D4) are installed on an inner groove of the frame plate (A1), the rear wall of the frame plate (A1) is provided with the heat-conducting fins (C3) with the installation surface facing the battery bin (7), and the ventilating plate (E5) is located on the front wall plate of the frame plate (A1) and is correspondingly arranged on a groove of the shell (2).

3. The intelligent controller for efficient heat dissipation by utilizing physical transmission to match flow rate as claimed in claim 1, wherein: the terminal (6) is arranged on a local groove on the side wall of the shell (2).

4. The intelligent controller for efficient heat dissipation by utilizing physical transmission to match flow rate as claimed in claim 1, wherein: the display panel (1) is attached to the surface of the connecting wire end (6).

5. The intelligent controller for efficient heat dissipation by utilizing physical transmission to match flow rate as claimed in claim 1, wherein: the insulating plate (5) is combined and fixedly connected with the shell (2).

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