DE212019000263U1 - Heat dissipation protection device for electromechanical devices - Google Patents

Abstract

Heat dissipation protection device for electromechanical devices, comprising a base (1) and a machine body (2), two buffer frames (5) serving to protect the base (1) being symmetrically arranged on the lower surface of the base (1), characterized in that that on the upper surface of the base (1) two shock-absorbing plates (3) are arranged symmetrically, the upper part of the two shock-absorbing plates (3) is firmly connected to the machine body (2), the sole of the shock-absorbing plates (3 ) extends into the buffer frames (5), the machine body (2) comprises an installation frame (18) for devices and a lifting housing (9) and a lifting gear assembly is arranged on the sole of the lifting housing (9).

Description

The present invention relates to the field of electromechanical devices, and more particularly to a heat dissipation protection device for electromechanical devices.

In everyday life, the need for electromechanical devices is constantly increasing, such electromechanical devices from means of transport, through various household appliances to computers, printers, etc. have become necessary products in everyday life. Modern electromechanical devices can significantly increase productivity, reduce labor intensity, improve the production environment and accomplish tasks that cannot be performed by human labor. In the Chinese patent CN107708389A a novel heat dissipation protection device for electromechanical devices has been published, which comprises a protective box and a shock-absorbing base, fans are arranged on both sides of the protective box, the inside of the cover of the protective box is firmly connected to a heat dissipation box, on the inner wall of the heat dissipation box electric drive motor is firmly connected, the electric drive motor is connected to a rotary spindle, a handlebar is arranged in the heat dissipation box on the sole of the rotary spindle, a movable component is arranged on the rotary spindle, the movable component is firmly connected to the slide, a supply line in the heat dissipation box is arranged for cooling air, the supply line for cooling air extends into the outside of the heat dissipation box and is slidably connected to the heat dissipation box, on the lower side of the heat dissipation box through slots angeor dnet, a nozzle for cooling air is placed on the underside of the heat dissipation box, but in this device the height of the protective box is not adjustable, which means that this device lacks practicality, due to which we present a heat dissipation protection device for electromechanical devices.

The purpose of this invention is to provide a heat dissipation protection device for electromechanical devices, comprising a base and a machine body, two buffer racks for protecting the base being symmetrically arranged on the lower surface of the base and two on the upper surface of the base shock-absorbing plates are arranged symmetrically, the upper part of the two shock-absorbing plates is firmly connected to the machine body, the sole of the shock-absorbing plates extends into the buffer frames, the machine body includes an installation frame for devices and lifting housings and a lifting gear on the sole of the lifting housing Assembly is arranged, so that the problem with the non-adjustable height of the protective box can be solved in conventional devices.

• Wärmeableitung-Schutzeinrichtung für elektromechanische Geräte, die einen Sockel und einen Maschinenkörper umfasst, wobei auf der unteren Oberfläche des Sockels zwei dem Schutz des Sockels dienende Puffergestelle symmetrisch angeordnet sind, auf der oberen Oberfläche des Sockels zwei stoßdämpfende Platten symmetrisch angeordnet sind, der obere Teil der beiden stoßdämpfenden Platten jeweils mit dem Maschinenkörper fest verbunden ist, sich die Sohle der stoßdämpfenden Platten in die Puffergestelle erstreckt, der Maschinenkörper ein Installationsgestell für Geräte und Hebegehäuse umfasst und an der Sohle der Hebegehäuse eine Hebewerk-Baugruppe angeordnet ist.

In order to achieve the above-mentioned purpose, the present invention offers the following technical solutions:

• Heat dissipation protection device for electromechanical devices, which comprises a base and a machine body, wherein on the lower surface of the base two buffer racks for protecting the base are symmetrically arranged, on the upper surface of the base two shock-absorbing plates are symmetrically arranged, the upper part of the two shock-absorbing plates is firmly connected to the machine body, the sole of the shock-absorbing plates extends into the buffer frames, the machine body includes an installation frame for devices and lifting housings and a lifting gear assembly is arranged on the sole of the lifting housing.

A further solution according to this invention: two lifting housings are arranged in the device, the two lifting housings are arranged symmetrically with respect to the vertical center axis of the base, the side walls of the lifting housings are provided with a vertical limiting slot, the installation frame is slidably connected to the vertical limiting slot The first sliding pieces are arranged on the sole of the lifting housing and the first two sliding pieces are firmly connected to one another by a coupling, the central part of the coupling is firmly connected to the lifting gear assembly.

An optimized further solution according to this invention: the elevator assembly comprises a working electric motor and a sleeve with internal thread, the output side of the working electric motor is firmly connected to a worm, the upper end of the worm extends into the sleeve with internal thread, the worm and the sleeve with internal thread are connected to one another by threads and the sleeve with internal thread is firmly connected to the central part of the coupling.

An optimized further solution according to this invention: Limiting rods are arranged symmetrically on both sides of the lifting gear assembly, which limit the position of the lifting housings, the limiting rods and the first sliding pieces are slidingly connected to one another and a suction system is permanently installed at the upper end of the limiting rods, which is used for suction.

An optimized further solution according to this invention: a supporting table is installed on the installation frame, the center of the supporting table is provided with a snap-in groove, the interior of the supporting table is hollow, an installation slot for buffer pad is arranged in the interior of the supporting table and the The buffer pad is fastened in the installation slot for the buffer pad, and a heat dissipation wind tunnel for ventilation is arranged in the supporting table.

An optimized further solution according to this invention: a sliding slot is arranged both on the shock-absorbing plates and on the base and a bolt axis interacting therewith is arranged in the sliding slot, on the sole of the buffer frame a buffer piece serving to protect the shock-absorbing plates is arranged and in A buffer space is arranged in a buffer piece.

An optimized further solution according to this invention: a positioning rod is arranged on one side of the interior of the buffer frame, the second sliding piece is placed on the positioning rod, the second sliding piece and the sole of the shock-absorbing plates are connected to one another by the push rod, under which the second sliding piece is a buffer spring is arranged, which serves to buffer and protect the second slider, and the buffer spring is placed on the positioning rod.

• Es handelt sich bei 1 um die schematische Darstellung des Aufbaus gemäß dieser Erfindung.
• Es handelt sich bei 2 um die schematische Darstellung des Aufbaus der Hebegehäuse.
• Es handelt sich bei 3 um die schematische Darstellung des Aufbaus vom Installationsgestell für Geräte.
• Es handelt sich bei 4 um die schematische Darstellung des Aufbaus der stoßdämpfenden Platten gemäß dieser Erfindung.
• Es handelt sich bei 5 um die schematische Darstellung des Aufbaus des Puffergestells.
• Es handelt sich bei 6 um die schematische Darstellung des Aufbaus des tragenden Tisches.

In summary, the following advantageous effects can be found in this invention: according to this invention, shock-absorbing plates are arranged to protect the machine body, the second sliding piece and a buffer spring are arranged in the shock-absorbing plates, the buffer spring and the second sliding piece are the buffering and the Protection of the shock-absorbing plates is realized, at the same time the resonance caused by the direct contact of the shock-absorbing plates with the base of the buffer frame is realized, so that the noise emission during the operation of the electromechanical devices is reduced and the height adjustment of the lifting housings is realized, which is suitable for electromechanical devices of different heights.

• It is at 1 around the schematic representation of the structure according to this invention.
• It is at 2 around the schematic representation of the construction of the lifting housing.
• It is at 3 around the schematic representation of the structure of the installation frame for devices.
• It is at 4th to schematically illustrate the construction of the shock absorbing panels according to this invention.
• It is at 5 around the schematic representation of the structure of the buffer frame.
• It is at 6th around the schematic representation of the structure of the supporting table.

Embodiment 1

• wie in 2 dargestellt, sind zwei Hebegehäuse 9 angeordnet, die beiden Hebegehäuse 9 sind bezüglich der vertikalen Mittelachse des Sockels 1 symmetrisch angeordnet und die Seitenwände der Hebegehäuse 9 sind mit einer vertikalen Begrenzungsschlitze 10 versehen, das Installationsgestell 18 für Geräte ist mit der vertikalen Begrenzungsschlitze 10 gleitend verbunden, an der Sohle der Hebegehäuse 9 sind die ersten Gleitstücke 11 angeordnet, die beiden ersten Gleitstücke 11 sind durch eine Koppel miteinander fest verbunden und der Mittelteil der Koppel ist mit der Hebewerk-Baugruppe fest verbunden;
• die Hebewerk-Baugruppe umfasst einen Arbeitselektromotor 6 und eine Hülse 8 mit Innengewinde, die Ausgangsseite des Arbeitselektromotors 6 ist mit einer Schnecke fest verbunden, das obere Ende der Schnecke erstreckt sich in die Hülse 8 mit Innengewinde, die Schnecke und die Hülse 8 mit Innengewinde sind durch Gewinde miteinander verbunden und die Hülse 8 mit Innengewinde ist mit dem Mittelteil der Koppel fest verbunden;
• der Arbeitselektromotor 6 kann nach dem Starten die Schnecke in Drehbewegung versetzen, so dass sich die Hülse 8 mit Innengewinde unter Einwirkung der Schnecke aufwärts und abwärts bewegt und sich die Hebegehäuse 9 unter Einwirkung der Hülse 8 mit Innengewinde aufwärts und abwärts bewegen, somit ist der Schutz der elektromechanischen Geräte unterschiedlicher Höhe realisiert;
• auf den beiden Seiten der Hebewerk-Baugruppe sind Begrenzungsstangen 7 angeordnet, die die Position der Hebegehäuse 9 begrenzen, die Begrenzungsstangen 7 und die ersten Gleitstücke 11 sind gleitend miteinander verbunden;
• am oberen Ende der Begrenzungsstangen 7 ist eine Absauganlage 24 fest installiert, die dem Absaugen dient, die Anordnung der Absauganlage 24 begünstigt die Wärmeableitung der elektromechanischen Geräte.

As in 1 As shown, the electromechanical device heat dissipation protection device in this embodiment includes a base 1 and a machine body 2 , on the lower surface of the base 1 are two protecting the base 1 serving buffer racks 5 symmetrically arranged, on the upper surface of the pedestal 1 are two shock-absorbing plates 3 symmetrically arranged, the upper part of the two shock-absorbing plates 3 is with the machine body 2 firmly connected, the sole of the shock-absorbing plates 3 extends into the buffer racks 5 , as in 6th shown includes the machine body 2 an installation frame used for the installation of electromechanical devices 18th for devices and the protection of the electromechanical devices 9 , on the sole of the lifting housing 9 an elevator assembly is arranged;

• as in 2 shown are two lifting housings 9 arranged the two lifting housings 9 are with respect to the vertical central axis of the base 1 symmetrically arranged and the side walls of the lifting housing 9 are with a vertical delimiting slots 10 provided, the installation frame 18th for devices is with the vertical delimitation slots 10 slidably connected to the sole of the lifting housing 9 are the first sliding pieces 11 arranged, the first two sliders 11 are firmly connected to one another by a coupling and the central part of the coupling is firmly connected to the elevator assembly;
• the elevator assembly includes a work electric motor 6th and a sleeve 8th with internal thread, the output side of the working electric motor 6th is firmly connected to a screw, the upper end of the screw extends into the sleeve 8th with internal thread, the worm and the sleeve 8th with internal thread are connected to each other by thread and the sleeve 8th with internal thread is firmly connected to the central part of the coupling;
• the working electric motor 6th can set the worm in rotation after starting, so that the sleeve 8th with internal thread under the action of the screw moves up and down and the lifting housing 9 under the action of the sleeve 8th with internal thread move up and down, so the protection of electromechanical devices of different heights realized;
• there are limit bars on either side of the elevator assembly 7th arranged showing the position of the lifting housing 9 limit, the limit rods 7th and the first sliders 11 are slidingly connected to each other;
• at the top of the boundary bars 7th is an extraction system 24 permanently installed, which is used for suction, the arrangement of the suction system 24 favors the heat dissipation of the electromechanical devices.

Embodiment 2

• wie in 2 dargestellt, sind zwei Hebegehäuse 9 angeordnet, die beiden Hebegehäuse 9 sind bezüglich der vertikalen Mittelachse des Sockels 1 symmetrisch angeordnet und die Seitenwände der Hebegehäuse 9 sind mit einer vertikalen Begrenzungsschlitze 10 versehen, das Installationsgestell 18 für Geräte ist mit der vertikalen Begrenzungsschlitze 10 gleitend verbunden, an der Sohle der Hebegehäuse 9 sind die ersten Gleitstücke 11 angeordnet, die beiden ersten Gleitstücke 11 sind durch eine Koppel miteinander fest verbunden und der Mittelteil der Koppel ist mit der Hebewerk-Baugruppe fest verbunden;
• die Hebewerk-Baugruppe umfasst einen Arbeitselektromotor 6 und eine Hülse 8 mit Innengewinde, die Ausgangsseite des Arbeitselektromotors 6 ist mit einer Schnecke fest verbunden, das obere Ende der Schnecke erstreckt sich in die Hülse 8 mit Innengewinde, die Schnecke und die Hülse 8 mit Innengewinde sind durch Gewinde miteinander verbunden und die Hülse 8 mit Innengewinde ist mit dem Mittelteil der Koppel fest verbunden;
• der Arbeitselektromotor 6 kann nach dem Starten die Schnecke in Drehbewegung versetzen, so dass sich die Hülse 8 mit Innengewinde unter Einwirkung der Schnecke aufwärts und abwärts bewegt und sich die Hebegehäuse 9 unter Einwirkung der Hülse 8 mit Innengewinde aufwärts und abwärts bewegen, somit ist der Schutz der elektromechanischen Geräte unterschiedlicher Höhe realisiert;
• auf den beiden Seiten der Hebewerk-Baugruppe sind Begrenzungsstangen 7 angeordnet, die die Position der Hebegehäuse 9 begrenzen, die Begrenzungsstangen 7 und die ersten Gleitstücke 11 sind gleitend miteinander verbunden;
• Am oberen Ende der Begrenzungsstangen 7 ist eine Absauganlage 24 fest installiert, die dem Absaugen dient, die Anordnung der Absauganlage 24 begünstigt die Wärmeableitung der elektromechanischen Geräte;
• wie in 3 dargestellt, ist auf dem Installationsgestell 18 für Geräte ein tragender Tisch 19 installiert, die Mitte des tragenden Tisches 19 ist mit einer Einrastnut 20 versehen, der Innenraum des tragenden Tisches 19 ist hohl ausgebildet, im Innenraum des tragenden Tisches 19 ist eine Installationsschlitze 23 für Pufferunterlage angeordnet und die Pufferunterlage ist in der Installationsschlitze 23 für Pufferunterlage befestigt, im tragenden Tisch 19 ist noch ein der Entlüftung dienender Wärmeableitung-Windkanal 22 angeordnet;
• wie in 4 dargestellt, ist sowohl auf den stoßdämpfenden Platten 3 als auch auf dem Sockel 1 eine Gleitschlitze 21 angeordnet, in der Gleitschlitze 21 ist eine damit zusammenspielende Bolzenachse 4 angeordnet, das Zusammenspielen der Bolzenachse 4 und der Gleitschlitze 21 verwirklicht die Positionierung der stoßdämpfenden Platten 3 und vermeidet das Abfallen der stoßdämpfenden Platten 3;
• wie in 5 dargestellt, ist an der Sohle des Puffergestells 5 ein dem Schutz der stoßdämpfenden Platten 3 dienendes Pufferstück 12 angeordnet und im Pufferstück 12 ist ein Pufferraum 13 angeordnet, der Pufferraum 13 verwirklicht die Begrenzung der Position von stoßdämpfenden Platten 3, auf einer Seite des Innenraums des Puffergestells 5 ist eine Positionierstange 14 angeordnet, auf die Positionierstange 14 ist das zweite Gleitstück 15 aufgesetzt, das zweite Gleitstück 15 und die Sohle der stoßdämpfenden Platten 3 sind durch die Schubstange 16 miteinander verbunden, unter dem zweiten Gleitstück 15 ist eine Pufferfeder 17 angeordnet, die der Pufferung und dem Schutz des zweiten Gleitstücks 15 dient, und die Pufferfeder 17 ist auf die Positionierstange 14 aufgesetzt.

As in 1 As shown, the electromechanical device heat dissipation protection device in this embodiment includes a base 1 and a machine body 2 , on the lower surface of the base 1 are two protecting the base 1 serving buffer racks 5 symmetrically arranged, on the upper surface of the pedestal 1 are two shock-absorbing plates 3 symmetrically arranged, the upper part of the two shock-absorbing plates 3 is with the machine body 2 firmly connected, the sole of the shock-absorbing plates 3 extends into the buffer racks 5 , as in 6th shown includes the machine body 2 an installation frame used for the installation of electromechanical devices 18th for devices and the protection of the electromechanical devices 9 , on the sole of the lifting housing 9 an elevator assembly is arranged;

• as in 2 shown are two lifting housings 9 arranged the two lifting housings 9 are with respect to the vertical central axis of the base 1 symmetrically arranged and the side walls of the lifting housing 9 are with a vertical delimiting slots 10 provided, the installation frame 18th for devices is with the vertical delimitation slots 10 slidably connected to the sole of the lifting housing 9 are the first sliding pieces 11 arranged, the first two sliders 11 are firmly connected to one another by a coupling and the central part of the coupling is firmly connected to the elevator assembly;
• the elevator assembly includes a work electric motor 6th and a sleeve 8th with internal thread, the output side of the working electric motor 6th is firmly connected to a screw, the upper end of the screw extends into the sleeve 8th with internal thread, the worm and the sleeve 8th with internal thread are connected to each other by thread and the sleeve 8th with internal thread is firmly connected to the central part of the coupling;
• the working electric motor 6th can set the worm in rotation after starting, so that the sleeve 8th with internal thread under the action of the screw moves up and down and the lifting housing 9 under the action of the sleeve 8th move up and down with internal thread, thus protecting electromechanical devices of different heights;
• there are limit bars on either side of the elevator assembly 7th arranged showing the position of the lifting housing 9 limit, the limit rods 7th and the first sliders 11 are slidingly connected to each other;
• At the top of the boundary bars 7th is an extraction system 24 permanently installed, which is used for suction, the arrangement of the suction system 24 favors the heat dissipation of the electromechanical devices;
• as in 3 shown is on the installation rack 18th a supporting table for devices 19th installed, the center of the supporting table 19th is with a snap-in groove 20th provided, the interior of the supporting table 19th is hollow, in the interior of the supporting table 19th is an installation slot 23 arranged for buffer pad and the buffer pad is in the installation slots 23 for buffer pad attached in the supporting table 19th is another heat dissipation wind tunnel for ventilation 22nd arranged;
• as in 4th shown is both on the shock absorbing panels 3 as well as on the base 1 a sliding slot 21st arranged in the sliding slots 21st is a cooperating bolt axis 4th arranged, the interaction of the bolt axis 4th and the sliding slots 21st realizes the positioning of the shock absorbing panels 3 and prevents the shock absorbing panels from falling off 3 ;
• as in 5 shown is on the sole of the buffer frame 5 a protecting the shock absorbing panels 3 serving buffer piece 12th arranged and in the buffer piece 12th is a buffer space 13th arranged, the buffer space 13th realizes the limitation of the position of shock absorbing plates 3 , on one side of the interior of the buffer frame 5 is a positioning rod 14th arranged on the positioning rod 14th is the second slide 15th put on the second slide 15th and the sole of the shock-absorbing plates 3 are through the push rod 16 connected to each other, under the second slide 15th is a buffer spring 17th arranged, the buffering and protection of the second slide 15th serves, and the buffer spring 17th is on the positioning rod 14th put on.

Due to the arrangement of the mentioned buffer spring 17th and the second slide 15th are the Buffering and protection for the shock absorbing panels 3 realized, at the same time this avoids the resonance caused by the direct contact of the shock-absorbing plates 3 with the base of the buffer frame 5 caused so that the noise emission during the operation of the electromechanical devices is reduced.

In summary, the following functional principle of this invention can be established: the working electric motor 6th can set the worm in rotation after starting, so that the sleeve 8th with internal thread under the action of the screw moves up and down and the lifting housing 9 under the action of the sleeve 8th move up and down with internal thread, thus protecting electromechanical devices of different heights; the interaction of the bolt axis 4th and the sliding slots 21st realizes the positioning of the shock absorbing panels 3 and prevents the shock absorbing panels from falling off 3 ;

according to this invention are the protection of the machine body 2 serving shock absorbing panels 3 arranged in the shock absorbing panels 3 are the second slide 15th and a buffer spring 17th arranged by the aforementioned buffer spring 17th and the second slide 15th are the buffering and protection of the shock-absorbing panels 3 realized, at the same time this avoids the resonance caused by the direct contact of the shock-absorbing plates 3 with the base of the buffer frame 5 caused so that the noise emission during the operation of the electromechanical devices is reduced and the height adjustment of the lifting housing 9 is realized what is suitable for electromechanical devices of different heights.

For those skilled in the art, the present invention is obviously not limited to the above-mentioned exemplary details of the embodiments; the present invention can be implemented in further embodiments according to the basic ideas or features of this invention. Therefore, the embodiments are given as examples in all respects and are in no way restrictive, the scope of this invention is determined by the appended claims instead of the foregoing explanations, therefore all changes that come under the scope of the definitions and the scope of the requirements of equivalence of Claims fall to be included within the scope of the present invention. The reference symbols in the figures of the claims do not apply as a restriction of the claims concerned.

In the present invention, the terms "center", "in the longitudinal direction", "in the transverse direction", "upwards", "downwards", "forwards", "backwards", "left", "right", "vertical" , “Horizontal”, “lid”, “sole”, “inside” and “outside”, etc. directions or positions to understand the directions or positions based on the figures, which are only used to describe this invention and to simplify the description , they do not designate or imply that the devices or components described have a certain direction or position or that they must be designed or operated in a certain direction or position, therefore they are not considered to be a limitation for this invention. In addition, the technical terms “the first”, “the second”, etc. are used for description purposes only, they do not designate or imply the relative importance and do not imply the number of technical features referred to. Therefore, the features labeled "the first", "the second", etc. may designate or imply one or more such features. In this invention, “more than one” is to be understood as two or more than two, unless otherwise indicated.

List of reference symbols

1

base

2

Machine body

3

shock absorbing panels

4th

Bolt axis

5

Buffer frame

6

Working electric motor

7th

Limit rod

8th

Sleeve with internal thread

9

Lifting housing

10

vertical delimitation slots

11

first slide

12

Buffer piece

13

Buffer space

14th

Positioning rod

15th

second slide

16

Push rod

17th

Buffer spring

18th

Installation frame for devices

19th

supporting table

20th

Snap-in groove

21st

Sliding slots

22nd

Heat dissipation wind tunnel

23

Installation slots for buffer pad

24

Extraction system

QUOTES INCLUDED IN THE DESCRIPTION

This list of the documents listed by the applicant was generated automatically and is included solely for the better information of the reader. The list is not part of the German patent or utility model application. The DPMA assumes no liability for any errors or omissions.

Patent literature cited

• CN 107708389 A [0002]

Claims (10)

Heat dissipation protection device for electromechanical devices, comprising a base (1) and a machine body (2), two buffer frames (5) serving to protect the base (1) being symmetrically arranged on the lower surface of the base (1), characterized in that that on the upper surface of the base (1) two shock-absorbing plates (3) are arranged symmetrically, the upper part of the two shock-absorbing plates (3) is firmly connected to the machine body (2), the sole of the shock-absorbing plates (3 ) extends into the buffer frames (5), the machine body (2) comprises an installation frame (18) for devices and a lifting housing (9) and a lifting gear assembly is arranged on the sole of the lifting housing (9). Heat dissipation protection device according to Claim 1 , characterized in that two lifting housings (9) are arranged, the two lifting housings (9) are arranged symmetrically with respect to the vertical center axis of the base (1), the side walls of the lifting housing (9) are provided with vertical delimiting slots (10), the installation frame (18) for devices with the vertical delimitation slots (10) is slidably connected, on the sole of the lifting housing (9) the first sliding pieces (11) are arranged, the two first sliding pieces (11) are firmly connected by a coupling and the middle part the coupling is firmly connected to the hoist assembly. Heat dissipation protection device according to Claim 2 , characterized in that the elevator assembly comprises a working electric motor (6) and a sleeve (8) with an internal thread, the output side of the working electric motor (6) is firmly connected to a worm, the upper end of the worm is inserted into the sleeve (8) extends with internal thread, the worm and the sleeve (8) with internal thread are connected to each other by thread and the sleeve (8) with internal thread is firmly connected to the central part of the coupling. Heat dissipation protection device according to Claim 2 or 3 , characterized in that limiting rods (7) are arranged symmetrically on the two sides of the elevator assembly, which limit the position of the lifting housings (9), and the limiting rods (7) are slidably connected to the first sliders (11). Heat dissipation protection device according to Claim 4 , characterized in that a suction system (24) is permanently installed at the upper end of the limiting rods (7), which is used for suction. Heat dissipation protection device according to one of the preceding claims, characterized in that a supporting table (19) is installed on the installation frame (18) for devices, the center of the supporting table (19) is provided with a snap-in groove (20), the interior of the supporting table (19) is hollow, an installation slot (23) for buffer pad is arranged in the interior of the supporting table (19) and the buffer pad is fastened in the installation slots (23) for buffer pad. Heat dissipation protection device according to Claim 6 , characterized in that a heat dissipation wind tunnel (22) serving for ventilation is arranged in the supporting table (19). Heat dissipation protection device according to one of the preceding claims, characterized in that a sliding slot (21) is arranged both on the shock-absorbing plates (3) and on the base (1) and in the sliding slots (21) a bolt axis (4) interacting therewith is arranged. Heat dissipation protection device according to one of the preceding claims, characterized in that a buffer piece (12) serving to protect the shock-absorbing plates (3) is arranged on the sole of the buffer frame (5) and a buffer space (13) is arranged in the buffer piece (12) . Heat dissipation protection device according to Claim 9 , characterized in that a positioning rod (14) is arranged on one side of the interior of the buffer frame (5), on which the positioning rod (14) is placed the second slide (15), the second slide (15) and the sole of the shock-absorbing plates (3) are connected by the push rod (16), a buffer spring (17) is arranged under the second slide (15), which serves to buffer and protect the second slide (15), and the buffer spring (17) on the positioning rod (14) is attached.

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