DE212020000044U1 - Intelligent robot housing with heat dissipation and water resistance - Google Patents

Abstract

Intelligent robot housing with heat dissipation and water resistance, characterized in that it comprises a housing body (1), the housing body (1) comprising a first housing (101) and a second housing (102), with a plurality of support columns (9) fixed between the first housing (101) and the second housing (102) are connected, wherein a waterproof layer (8) is arranged between the first housing (101) and the second housing (102), the outer surface of the first housing (101) having a Waterproof coating (10) is provided, wherein the top of the housing body (1) is fixedly connected to a mounting cylinder (2), wherein the bottom of the inner wall of the mounting cylinder (2) is fixedly connected to a mounting plate (7), the top of the Mounting plate (7) is provided with a heat dissipation fan (6), the upper end of the outer surface of the mounting cylinder (2) being fixedly connected to a cover (3), wherein A plurality of air holes (4) are arranged on the bottom of the inner wall of the housing body (1), the bottom of the inner wall of the housing body (1) being firmly connected to a filter screen (5).

Description

The invention relates to the technical field of an intelligent robot, in particular an intelligent robot housing with the heat dissipation ability and water resistance.

With the development of science and technology, robots are used in various industrial sectors. After the robot has worked for a long time, especially in the operating state with a high load, the motor tends to age after heating. To improve the life of the motor, the staff sets up a cooler on the robot to cool the motor.

1. (1) Die heute verwendeten Robotergehäuse haben einen schlechten Wärmeableitungseffekt, sodass nur ein Teil der internen elektronischen Komponenten gekühlt werden kann.
2. (2) Die heute verwendeten Robotergehäuse bestehen aus Metallwerkstoffen und sind außen lackiert. Nachdem der Lack beschädigt ist, wird der wasserdichte Effekt schlecht, was den Bedürfnissen der Menschen nicht gerecht werden kann.

Currently, the type of heat dissipation that is used in the design of the robot is to add some ventilation holes on the housing of the robot or fan in the heat-centered part to improve the heat dissipation effect. At the same time, the housing of some robots is usually made of metal, ie to cover important electrical components. And users spray paint on the surface of the metal case to achieve the purpose of beauty and waterproofness. However, the robot housings used today have the following disadvantages in the actual use process:

1. (1) The robot housings used today have a poor heat dissipation effect, so that only a part of the internal electronic components can be cooled.
2. (2) The robot housings used today consist of metal materials and are painted on the outside. After the paint is damaged, the waterproof effect becomes poor, which cannot meet people's needs.

The purpose of the invention is to overcome the disadvantages of the prior art, to provide an intelligent robot case with heat dissipation and water resistance, and to effectively solve the disadvantages of the prior art.

To achieve the above purpose, the present invention is realized by the following technical solution: An intelligent robot case with heat dissipation and water resistance includes a case body, the case body comprising a first case and a second case, with a plurality of support pillars fixed between the first case and the second housing, wherein a waterproof layer is disposed between the first housing and the second housing, the outer surface of the first housing is provided with a waterproof coating, the top of the housing body is fixedly connected to a mounting cylinder, the bottom the inner wall of the fastening cylinder is fixedly connected to a fastening plate, the upper side of the fastening plate being provided with a heat dissipation fan, the upper end of the outer surface of the fastening cylinder being firmly connected to a cover, several L air holes are arranged on the bottom of the inner wall of the housing body, the bottom of the inner wall of the housing body being firmly connected to a filter screen.

Alternatively, the mounting cylinder is connected to the housing body and the size of the mounting cylinder is slightly smaller than the area of the top of the housing body.

Alternatively, the height of a plurality of support columns is the same, and a plurality of support columns are evenly distributed in the middle between the first housing and the second housing.

Alternatively, the thickness of the waterproof layer is equal to the distance between the first housing and the second housing, and the waterproof layer is distributed around the outer surface of the second housing.

Alternatively, the width of the mounting plate is less than a third of the width of the inner wall of the mounting cylinder, and the mounting plate is fixedly welded to the inner wall of the mounting cylinder.

Alternatively, the size of the heat dissipation fan is suitable for the size of the inner wall of the mounting cylinder and the thickness of the heat dissipation fan is less than the height of the mounting cylinder.

Alternatively, the cover is fixedly connected to the top of the mounting cylinder by screws, and the outer surface of the cover is mesh-shaped.

Alternatively, the size of the filter screen is suitable for the size of the inner wall of the housing body, and the filter screen is clamped in the housing body.

1. 1. Das Gehäuse des intelligenten Roboters mit der Wärmeableitungsfähigkeit und Wasserbeständigkeit ist fest mit einem Befestigungszylinder oben am Gehäusekörper verbunden, und ein Wärmeableitungslüfter ist fest mit dem inneren Teil des Befestigungszylinders verbunden. Die Fläche des Wärmeableitungslüfters ist geringfügig kleiner als die Fläche der Oberseite des Gehäusekörpers, um den Zweck der Kühlung aller elektronischen Komponenten im Gehäusekörper zu erreichen. Und mehrere Luftlöcher sind am Boden des Gehäusekörpers angeordnet, so dass der Luftstrom vom Boden abgeführt werden kann. Der gesamte Gehäusekörper ist höher als der Boden, und ein Filtersieb ist am Boden der Innenwand des Gehäusekörpers angeordnet, um den in den Gehäusekörper fliegenden Staub zu reduzieren. Somit ist das Problem eines schlechten Wärmeableitungseffekts und einer kleinen Wärmeableitungsfläche der vorhandenen Robotergehäuse gelöst.
2. 2. Der Körper des Gehäuses des intelligenten Roboters mit der Wärmeableitungsfähigkeit und Wasserbeständigkeit wird in ein erstes Gehäuse und ein zweites Gehäuse unterteilt. Das erste Gehäuse und das zweite Gehäuse werden durch eine Stützsäule verbunden und fixiert, und zwischen dem ersten Gehäuse und dem zweiten Gehäuse befindet sich ein Spaltraum. Gleichzeitig wird eine wasserdichte Schicht zwischen dem ersten Gehäuse und dem zweiten Gehäuse gefüllt. Im Gebrauch wird die Außenfläche des ersten Gehäuses mit einer wasserdichten Beschichtung besprüht. Durch die Kombination von wasserdichter Beschichtung und wasserdichter Schicht kann der Zweck der zweischichtigen Wasserdichtigkeit erreicht werden, und die wasserdichte Wirkung des gesamten Geräts kann verbessert werden, um das Problem der schlechten wasserdichten Wirkung des gesamten Geräts zu lösen.

The invention has the following advantages:

1. 1. The housing of the intelligent robot with heat dissipation ability and water resistance is firmly connected to a mounting cylinder on the top of the housing body, and a heat dissipation fan is fixed to the inner part of the mounting cylinder. The area of the heat dissipation fan is slightly smaller than the area of the top of the housing body to achieve the purpose of cooling all electronic components in the housing body. And several air holes are arranged on the bottom of the housing body, so that the air flow can be discharged from the bottom. The entire housing body is higher than the bottom and a filter screen is arranged on the bottom of the inner wall of the housing body in order to reduce the dust flying into the housing body. Thus, the problem of a poor heat dissipation effect and a small heat dissipation area of the existing robot case is solved.
2. 2. The body of the intelligent robot case with heat dissipation ability and water resistance is divided into a first case and a second case. The first housing and the second housing are connected and fixed by a support column, and there is a gap between the first housing and the second housing. At the same time, a waterproof layer between the first housing and the second housing is filled. In use, the outer surface of the first housing is sprayed with a waterproof coating. By the combination of waterproof coating and waterproof layer, the purpose of two-layer waterproofness can be achieved, and the waterproof effect of the entire device can be improved to solve the problem of the poor waterproof effect of the entire device.

• 1 Figure 3 is a schematic diagram of the top view structure of the present invention.
• 2nd Figure 3 is a schematic diagram of the bottom view structure of the present invention.
• 3rd Figure 3 is a schematic diagram of the internal structure of the present invention.
• 4th 10 is a structural diagram of a case body of the present invention.
• 5 10 is a schematic diagram of the sectional structure of a case body of the present invention.
• 6 Fig. 3 is a schematic diagram of the enlarged structure at A in 5 of the present invention.

The invention is further described in combination with the accompanying figures, but the scope of the invention is not limited to the following.

As in 1 to 6 shown, an intelligent robot housing with the heat dissipation ability and water resistance includes a housing body 1 , with the housing body 1 a first housing 101 and a second housing 102 comprises, with several support columns 9 firmly between the first housing 101 and the second housing 102 connected, being a waterproof layer 8th between the first housing 101 and the second housing 102 is arranged, wherein the outer surface of the first housing 101 with a waterproof coating 10th is provided, the top of the housing body 1 fixed with a mounting cylinder 2nd is connected, the bottom of the inner wall of the mounting cylinder 2nd firmly with a mounting plate 7 is connected, the top of the mounting plate 7 with a heat dissipation fan 6 is provided, the upper end of the outer surface of the mounting cylinder 2nd firmly with a lid 3rd is connected, with several air holes 4th at the bottom of the inner wall of the housing body 1 are arranged, the bottom of the inner wall of the housing body 1 firmly with a filter screen 5 connected is.

• Der Befestigungszylinder 2 ist mit dem Gehäusekörper 1 verbunden und die Größe des Befestigungszylinders 2 ist geringfügig kleiner als die Fläche der Oberseite des Gehäusekörpers 1, so dass der Befestigungszylinder 2 und der Gehäusekörper 1 ein Ganzes bilden. Auf diese Weise ist es bequem für die Installation und Platzierung von elektronischen Komponenten, und der Wärmeableitungslüfter 6 kann dabei helfen, dass alle elektronischen Komponenten gekühlt werden.

As an alternative technical solution of the invention:

• The mounting cylinder 2nd is with the housing body 1 connected and the size of the mounting cylinder 2nd is slightly smaller than the area of the top of the housing body 1 so the mounting cylinder 2nd and the case body 1 form a whole. This way it is convenient for the installation and placement of electronic components, and the heat dissipation fan 6 can help to cool all electronic components.

• Die Höhe mehrerer Stützsäulen 9 ist gleich, und mehrere Stützsäulen 9 sind in der Mitte gleichmäßig zwischen dem ersten Gehäuse 101 und dem zweiten Gehäuse 102 verteilt. Das Vorhandensein mehrerer Stützsäulen 9 dient dem Zweck, das erste Gehäuse 101 und das zweite Gehäuse 102 zu befestigen und zu stützen.

As an alternative technical solution of the invention:

• The height of several support columns 9 is the same, and multiple support columns 9 are evenly in the middle between the first case 101 and the second housing 102 distributed. The presence of several support columns 9 serves the purpose of the first housing 101 and the second housing 102 to attach and support.

• Die Dicke der wasserdichten Schicht 8 ist gleich dem Abstand zwischen dem ersten Gehäuse 101 und dem zweiten Gehäuse 102, und die wasserdichte Schicht 8 ist um die Außenfläche des zweiten Gehäuses 102 verteilt. Das Design der wasserdichten Schicht 8 bietet die zweite Schicht des wasserdichten Schutzes für den gesamten Gehäusekörper 1.

As an alternative technical solution of the invention:

• The thickness of the waterproof layer 8th is equal to the distance between the first housing 101 and the second housing 102 , and the waterproof layer 8th is around the outer surface of the second housing 102 distributed. The design of the waterproof layer 8th offers the second layer of waterproof protection for the entire housing body 1 .

• Die Breite der Befestigungsplatte 7 beträgt weniger als ein Drittel der Breite der Innenwand des Befestigungszylinders 2, und die Befestigungsplatte 7 ist durch Schweißen fest mit der Innenwand des Befestigungszylinders 2 verbunden. Das Vorhandensein der Befestigungsplatte 7 dient zur Stütze des Wärmeableitungslüfters 6.

As an alternative technical solution of the invention:

• The width of the mounting plate 7 is less than a third of the width of the inner wall of the mounting cylinder 2nd , and the mounting plate 7 is firmly welded to the inner wall of the mounting cylinder 2nd connected. The presence of the mounting plate 7 serves to support the heat dissipation fan 6 .

• Die Größe des Wärmeableitungslüfters 6 ist für die Größe der Innenwand des Befestigungszylinders 2 geeignet, und die Dicke des Wärmeableitungslüfters 6 ist geringer als die Höhe des Befestigungszylinders 2. Der Wärmeableitungslüfter 6 mit dünner Größe kann die Bodenfläche schonen und ist einfach zu platzieren und zu installieren.

As an alternative technical solution of the invention:

• The size of the heat dissipation fan 6 is for the size of the inner wall of the mounting cylinder 2nd suitable, and the thickness of the heat dissipation fan 6 is less than the height of the mounting cylinder 2nd . The heat dissipation fan 6 with a small size, it can protect the floor area and is easy to place and install.

• Der Deckel 3 ist durch Schrauben fest mit der Oberseite des Befestigungszylinders 2 verbunden, und die Außenfläche des Deckels 3 ist netzförmig. Das Vorhandensein des Deckels 3 verhindert, dass Fremdkörper in den Gehäusekörper 1 eindringen. Die Belüftung kann auch realisiert werden.

As an alternative technical solution of the invention:

• The lid 3rd is fixed to the top of the mounting cylinder by screws 2nd connected, and the outer surface of the lid 3rd is network-shaped. The presence of the cover 3rd prevents foreign bodies from entering the case body 1 penetration. The ventilation can also be implemented.

• Die Größe des Filtersiebs 5 ist für die Größe der Innenwand des Gehäusekörpers 1 geeignet, und das Filtersieb 5 ist im Gehäusekörper 1 festgeklemmt. Das Filtersieb 5 kann Staub und andere Kleinigkeiten blockieren und ist für einen späteren Austausch geeignet.

As an alternative technical solution of the invention:

• The size of the filter screen 5 is for the size of the inside wall of the case body 1 suitable, and the filter screen 5 is in the housing body 1 clamped. The filter screen 5 can block dust and other small things and is suitable for later replacement.

The working process of the invention is as follows: When the user is using a mounting cylinder 2nd firmly on the top of the case body 1 arranged, and a heat dissipation fan 6 is firmly inside the mounting cylinder 2nd connected. The area of the heat dissipation fan 6 is slightly smaller than the area of the top of the housing body 1 to the purpose of cooling all electronic components within the case body 1 to reach. At the bottom of the case body 1 are several air holes 4th arranged so that the air flow can be discharged from the floor. And the entire case body 1 is higher than the floor, at the same time there is a filter screen 5 at the bottom of the inner wall of the housing body 1 arranged around the in the housing body 1 reduce flying dust to solve the problem of the poor heat dissipation effect and the small heat dissipation area of the existing robot case. The housing body 1 is in a first housing 101 and a second housing 102 divided, the first housing 101 and the second housing 102 through a support column 9 are connected and fixed. Between the first case 101 and the second housing 102 remains a gap, and between the first housing 10th and the second housing 102 is a waterproof layer 8th filled. The outer surface of the first housing is in use 101 with a waterproof coating 10th sprayed. By combining the waterproof coating 10th and the waterproof layer 8th The purpose of two-layer waterproofness can be achieved, and the waterproof performance of the entire device can be improved to solve the problem of poor waterproof performance of the entire device.

Reference list

1

Housing body

101

First housing

102

Second housing

2nd

Mounting cylinder

3rd

cover

4th

Air hole

5

Filter screen

6

Heat dissipation fan

7

Mounting plate

8th

Waterproof layer

9

Support column

10th

Waterproof coating

Claims (8)

Intelligent robot housing with heat dissipation and water resistance, characterized in that it comprises a housing body (1), the housing body (1) comprising a first housing (101) and a second housing (102), with a plurality of support columns (9) fixed between the first housing (101) and the second housing (102) are connected, wherein a waterproof layer (8) is arranged between the first housing (101) and the second housing (102), the outer surface of the first housing (101) having a waterproof coating (10) is provided, the upper side of the housing body (1) being firmly connected to a fastening cylinder (2), wherein the bottom of the inner wall of the fastening cylinder (2) is fixedly connected to a fastening plate (7), the upper side of the fastening plate (7) being provided with a heat dissipation fan (6), the upper end of the outer surface of the fastening cylinder (2) being fixed to a cover (3) is connected, a plurality of air holes (4) being arranged on the bottom of the inner wall of the housing body (1), the bottom of the inner wall of the housing body (1) being firmly connected to a filter screen (5). Intelligent robot housing with the heat dissipation ability and water resistance after Claim 1 , characterized in that the fastening cylinder (2) is connected to the housing body (1) and the size of the fastening cylinder (2) is slightly smaller than the area of the top of the housing body (1). Intelligent robot housing with the heat dissipation ability and water resistance after Claim 1 or 2nd , characterized in that the height of a plurality of support columns (9) is the same, and a plurality of support columns (9) are evenly distributed in the middle between the first housing (101) and the second housing (102). Intelligent robot housing with the heat dissipation capability and water resistance according to one of the preceding claims, characterized in that the thickness of the waterproof layer (8) is equal to the distance between the first housing (101) and the second housing (102), and the waterproof layer (8 ) is distributed around the outer surface of the second housing (102). Intelligent robot housing with the heat dissipation and water resistance according to one of the preceding claims, characterized in that the width of the fastening plate (7) is less than a third of the width of the inner wall of the fastening cylinder (2), and the fastening plate (7) by welding firmly to the Inner wall of the mounting cylinder (2) is connected. Intelligent robot housing with the heat dissipation capability and water resistance according to one of the preceding claims, characterized in that the size of the heat dissipation fan (6) is suitable for the size of the inner wall of the fastening cylinder (2), and the thickness of the heat dissipation fan (6) less than the height of the Fastening cylinder (2). Intelligent robot housing with the heat dissipation ability and water resistance according to one of the preceding claims, characterized in that the cover (3) is fixedly connected to the upper side of the fastening cylinder (2) by screws, and the outer surface of the cover (3) is reticular. Intelligent robot housing with the heat dissipation capability and water resistance according to one of the preceding claims, characterized in that the size of the filter screen (5) is suitable for the size of the inner wall of the housing body (1), and the filter screen (5) is clamped in the housing body (1) .

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