CN211297239U - Cabinet heat radiation structure of surgical robot system - Google Patents

Abstract

The utility model provides a rack heat radiation structure of surgical robot system belongs to rack technical field, including the cabinet body, the lateral wall of the cabinet body includes interior plate and the outer panel that the interval set up, and the outer panel is provided with the louvre, and interior plate and the corresponding position of outer panel are provided with the heat dissipation trompil, and the position that corresponds the louvre between outer panel and the interior plate is equipped with radiator fan. The utility model provides a cabinet heat radiation structure of surgical robot system sets up the lateral wall into hollow structure, the setting of outer panel and interior plate can be when guaranteeing the holistic structural strength of cabinet heat radiation structure of surgical robot system effectual reduction lateral wall entity thickness, the air in the cavity that forms between interior plate and outer panel more does benefit to and carries out the heat exchange with the gas in the cavity, thereby let cabinet heat radiation structure of surgical robot system have faster radiating rate, set up radiator fan between outer panel and interior plate, can further help the cabinet body to dispel the heat fast.

Description

Cabinet heat radiation structure of surgical robot system

Technical Field

The utility model relates to a rack technical field especially relates to a rack heat radiation structure of surgical robot system.

Background

The cabinet is generally made of cold-rolled steel plates or alloys and used for storing computers and related control equipment, can provide protection for the storage equipment, shields electromagnetic interference, and arranges the equipment orderly and orderly, thereby facilitating the subsequent maintenance of the equipment. Cabinets are generally classified into server cabinets, network cabinets, console cabinets, and the like.

When the existing cabinet is used for storing equipment with high power and high heat productivity, the temperature in the cabinet is high due to low heat dissipation efficiency, and when many electronic equipment works in a high-temperature environment, the working efficiency is usually reduced, and even the electronic equipment is damaged.

Therefore, a cabinet capable of rapidly dissipating heat is required.

SUMMERY OF THE UTILITY MODEL

The utility model provides a rack heat radiation structure of surgical robot system to improve the current rack heat dissipation and lead to the problem that the inside temperature of rack is high slowly.

The embodiment of the utility model is realized like this:

based on foretell purpose, the embodiment of the utility model provides a rack heat radiation structure of surgical robot system, the intelligent cabinet temperature adjusting device comprises a cabinet body, the lateral wall of the cabinet body includes interior plate and the outer panel that the interval set up, the interior plate with the corresponding position of outer panel is provided with the louvre, the outer panel with correspond between the interior plate the position of louvre is equipped with radiator fan.

In one implementation of this embodiment: the radiating holes of the inner side plate are formed by a plurality of small holes, and the small holes are circularly and uniformly distributed by taking the projection of the center of the radiating fan on the inner side plate as the center of a circle and the radius of the radiating fan as the radius or the radius larger than the radius of the radiating fan as the radius.

In one implementation of this embodiment: and a heat dissipation cover is arranged on the outer side plate corresponding to the heat dissipation holes.

In one implementation of this embodiment: the air exhaust end of the heat radiation fan is abutted against the heat radiation holes of the inner side plate, and the air exhaust end of the heat radiation fan is abutted against the heat radiation holes of the outer side plate so as to exhaust hot air in the cabinet body.

In one implementation of this embodiment: the heat radiation fan is connected with the outer side plate through screws.

In one implementation of this embodiment: the longitudinal sectional area of the heat dissipation cover is larger than that of the heat dissipation fan.

In one implementation of this embodiment: the cabinet body further comprises a top wall and a bottom wall which are oppositely arranged, and a chamber for accommodating equipment is formed by the top wall, the bottom wall and the side walls;

the chamber is divided into an upper chamber and a lower chamber by an adjusting plate.

In one implementation of this embodiment: and a seal is arranged between the front end face of the inner side plate and the front end face of the outer side plate, and the upper end and the lower end of the seal are respectively connected with the top wall and the bottom wall.

In one implementation of this embodiment: the front end face of the seal strip is provided with a handle.

In one implementation of this embodiment: a plurality of adjusting plates are arranged in the upper chamber in parallel at intervals and detachably connected with the side wall.

Compared with the prior art, the utility model discloses the beneficial effect who realizes is:

the utility model provides a cabinet heat radiation structure of surgical robot system sets up the lateral wall into hollow structure, the setting of outer panel and interior plate can be when guaranteeing the holistic structural strength of cabinet heat radiation structure of surgical robot system effectual reduction lateral wall entity thickness, the air in the cavity that forms between interior plate and outer panel more does benefit to and carries out the heat exchange with the gas in the cavity, thereby let cabinet heat radiation structure of surgical robot system have faster radiating rate, set up radiator fan between outer panel and interior plate, can further help the cabinet body to dispel the heat fast.

Drawings

The present invention will be described in more detail hereinafter based on embodiments and with reference to the accompanying drawings.

Fig. 1 is a schematic view of a cabinet heat dissipation structure of a surgical robot system according to an embodiment of the present invention;

fig. 2 is a schematic view of a cabinet heat dissipation structure of a surgical robot system according to an embodiment of the present invention, with an outer plate thickness removed;

fig. 3 is a schematic view of a side wall of an embodiment of the invention.

In the figure: 101-inner side plate; 102-an outer panel; 103-a top wall; 104-a bottom wall; 105-a heat sink; 106-a shield plate; 107-radiator fan; 108-heat dissipation holes; 109-an adjusting plate; 110-a seal; 111-a handle.

In the drawings, like parts are provided with like reference numerals. The figures are not drawn to scale.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the above description, in combination with the drawings in the embodiments of the present invention, clearly and completely describes the technical solutions in the embodiments of the present invention, and obviously, the described embodiments are some embodiments of the present invention, not all embodiments. The components of embodiments of the present invention, as generally described and illustrated in the figures herein, may be arranged and designed in a wide variety of different configurations.

Thus, the above detailed description of the embodiments of the invention provided in the accompanying drawings is not intended to limit the scope of the invention as claimed, but is merely representative of selected embodiments of the invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

It should be noted that: like reference numbers and letters refer to like items in the following figures, and thus, once an item is defined in one figure, it need not be further defined and explained in subsequent figures.

It should be noted that, in the present invention, the embodiments and features of the embodiments may be combined with each other without conflict.

Referring to fig. 1 to 3, some embodiments of the present disclosure provide a cabinet heat dissipation structure of a surgical robot system, including a cabinet body, a sidewall of the cabinet body includes an inner side plate 101 and an outer side plate 102 arranged at an interval, the outer side plate 102 is provided with heat dissipation holes 108, the inner side plate 101 is also provided with heat dissipation holes 108 at positions corresponding to the outer side plate 102, and a heat dissipation fan 107 is arranged between the outer side plate 102 and the inner side plate 101 at positions corresponding to the heat dissipation holes 108.

When equipment generates heat in the work of cavity, temperature in the cavity can rise, because the both sides of cavity are run from opposite directions, partial heat can be followed the both sides of cavity and is gived off, and partial heat can be taken out by radiator fan 107, partial heat can be towards the lateral wall infiltration in addition, carry out the heat exchange with the external world through the mode of heat transfer, the rack heat radiation structure of the surgical robot system that this embodiment provided sets up the lateral wall into hollow structure, the setting of outer panel 102 and interior side plate 101 can be when guaranteeing the holistic structural strength of rack heat radiation structure of surgical robot system the effectual entity thickness that reduces the lateral wall, air in the cavity that forms between interior side plate 101 and outer panel 102 more does benefit to and carries out the heat exchange with the gas in the cavity, thereby let the rack heat radiation structure of surgical robot system have faster radiating speed.

Meanwhile, when the heat dissipation fan 107 works in the cavity, the periphery of the heat dissipation fan 107 is air, and the air can be subjected to heat exchange with the air brought out of the cavity in the heat dissipation fan 107 at will, so that the heat dissipation fan 107 can be prevented from generating heat and being scalded due to long-time work, and the service life of the heat dissipation fan 107 is ensured.

In addition, the hollow side wall can effectively reduce the whole weight of the cabinet heat dissipation structure of the surgical robot system, and the cabinet heat dissipation structure can be conveniently carried and moved.

In some embodiments of the present embodiment, the cabinet further includes a top wall 103 and a bottom wall 104 disposed opposite to each other, the top wall 103, the bottom wall 104 and the side walls forming a chamber for accommodating the equipment; the chamber is divided into an upper chamber and a lower chamber by the adjustment plate 109.

The both sides of the cavity of the cabinet heat dissipation structure of the surgical robot system provided by this embodiment are through, the air flow can pass through the cavity, after the heat dissipation fan 107 is installed on the side wall, the air in the cavity can be extracted by the heat dissipation fan 107, when the air in the cavity is extracted by the heat dissipation fan 107, the air pressure in the cavity is reduced, the external air is flushed into the cavity from both ends of the cavity, convection can be formed, when the device generates heat during working in the cavity, the external air with lower temperature enters the cavity from both sides of the cavity after the air with higher temperature in the cavity is extracted by the heat dissipation fan 107, and in addition, the low-temperature air flow can flow towards the high-temperature air flow, so that more obvious convection can be formed, thereby accelerating the cooling in the cavity and achieving the purpose of heat dissipation.

In some embodiments of the present invention, the outer plate 102 is provided with heat dissipation holes 108, the inner plate 101 is also provided with heat dissipation holes 108 at positions corresponding to the heat dissipation holes 108 on the outer plate 102, the air exhaust end of the heat dissipation fan 107 abuts against the heat dissipation holes 108 of the inner plate 101, and the air exhaust end of the heat dissipation fan 107 is mounted on the heat dissipation holes 108 of the outer plate 102.

The heat dissipation hole 108 may be a circular hole, the radius of the heat dissipation hole 108 is equal to or slightly larger than the rotation radius of the blades of the heat dissipation fan 107, so that the heat dissipation fan 107 can smoothly discharge the air in the cavity, and the heat dissipation fan 107 and the outer panel 102 may be connected by screws.

The heat dissipation opening 108 on the inner side plate 101 may be formed by a plurality of small holes, the plurality of small holes are uniformly distributed in a circular manner by using the projection of the center of the heat dissipation fan 107 on the inner side plate 101 as the center of a circle, and by using the radius of the heat dissipation fan 107 as the radius or by using the radius larger than the radius of the heat dissipation fan 107 as the radius, and the distribution range of the plurality of small holes is equal to or slightly larger than the rotation radius of the blades of the heat dissipation fan 107, so that the devices and the connection lines of the devices in the cavity can be protected, the devices and the connection lines are prevented from contacting the heat dissipation fan 107, and dust can be prevented from being raised to a certain extent.

In some embodiments of this embodiment, the sidewall further includes a heat dissipation cover 105, the heat dissipation cover 105 is installed on the outer sidewall, and the heat dissipation cover 105 is located at the position of the heat dissipation hole 108, the heat dissipation cover 105 can completely cover the heat dissipation hole 108, and can cover the outer sidewall together with the screw connected to the heat dissipation fan 107, which neither occupies the internal space of the cabinet heat dissipation structure of the surgical robot system, nor affects the appearance of the cabinet heat dissipation structure of the surgical robot system, and meanwhile, the heat dissipation cover 105 can further avoid raise dust by matching with the heat dissipation hole 108 of the inner side plate 101.

In some embodiments of the present embodiment, the side wall further includes seals 110, the seals 110 are installed between the front end of the outer side plate 102 and the front end of the inner side plate 101, and the upper and lower ends of each seal 110 are respectively connected to the top wall 103 and the bottom wall 104.

The top and the roof 103 of outer panel 102 are connected, and the bottom and the diapire 104 of outer panel 102 are connected, and the top and the roof 103 of interior plate 101 are connected, and the bottom and the diapire 104 of interior plate 101 are connected, and two lateral walls are the symmetry setting, and the cavity that forms between interior plate 101 and the outer panel 102 is similar with the structure of cavity this moment, and the both sides of cavity also are the intercommunication this moment promptly, and two seals 110 are located the both ends of cavity respectively to seal the cavity.

In addition, a handle 111 can be further installed on one of the seals 110, so that the cabinet heat dissipation structure of the surgical robot system can be conveniently moved, a roller or a universal wheel can be installed at the bottom of the cabinet heat dissipation structure of the surgical robot system, and the cabinet heat dissipation structure of the surgical robot system can be directly pushed or pulled by using the handle 111.

In some embodiments of this embodiment, the cabinet heat dissipation structure of the surgical robot system further includes a plurality of adjustment plates 109, the plurality of adjustment plates 109 are all located in the upper chamber, the adjustment plates 109 are parallel to the top wall 103, the plurality of adjustment plates 109 are spaced apart along the height direction of the side wall, and each adjustment plate 109 is detachably connected to the side wall to divide the upper chamber into a plurality of height-adjustable sub-chambers.

In some embodiments of the present embodiment, two shielding plates 106 are further installed at the bottom of the cabinet heat dissipation structure of the surgical robot system, and the two shielding plates 106 are respectively installed at the front side and the rear side of the lower chamber to protect the equipment housed inside the lower chamber from electromagnetic interference.

While the invention has been described with reference to a preferred embodiment, various modifications may be made and equivalents may be substituted for elements thereof without departing from the scope of the invention. In particular, the technical features mentioned in the embodiments can be combined in any way as long as there is no structural conflict. The present invention is not limited to the particular embodiments disclosed herein, but encompasses all technical solutions falling within the scope of the claims.

Claims (10)

1. The utility model provides a rack heat radiation structure of surgical robot system which characterized in that, includes the cabinet body, the lateral wall of the cabinet body includes interior plate and the outer panel that the interval set up, the interior plate with the corresponding position of outer panel is provided with the louvre, the outer panel with correspond between the interior plate the position of louvre is equipped with radiator fan.

2. The cabinet heat dissipation structure of surgical robot system according to claim 1, wherein the heat dissipation holes of the inner plate are formed by a plurality of small holes, and the plurality of small holes are uniformly distributed in a circular shape with a projection of the center of the heat dissipation fan on the inner plate as a center of a circle, and with a radius of the heat dissipation fan as a radius or with a radius larger than that of the heat dissipation fan as a radius.

3. The cabinet heat dissipation structure of surgical robot system according to claim 1, wherein a heat dissipation cover is disposed on the outer panel at a position corresponding to the heat dissipation holes.

4. The cabinet heat dissipation structure of a surgical robot system according to any one of claims 1 to 3, wherein an air exhaust end of the heat dissipation fan abuts against the heat dissipation holes of the inner side plate, and an air exhaust end of the heat dissipation fan abuts against the heat dissipation holes of the outer side plate, so as to exhaust hot air in the cabinet.

5. The cabinet heat dissipation structure of a surgical robot system according to claim 4, wherein the heat dissipation fan is connected to the outer side plate by a screw.

6. The cabinet heat dissipation structure of a surgical robot system according to claim 3, wherein a longitudinal sectional area of the heat dissipation cover is larger than a longitudinal sectional area of the heat dissipation fan.

7. The cabinet heat dissipation structure of a surgical robotic system according to claim 1, wherein the cabinet body further includes top and bottom walls disposed opposite to each other, the top and bottom walls and the side walls forming a chamber for accommodating equipment;

the chamber is divided into an upper chamber and a lower chamber by an adjusting plate.

8. The cabinet heat dissipation structure of a surgical robot system according to claim 7, wherein a seal is disposed between the front end surface of the inner side plate and the front end surface of the outer side plate, and upper and lower ends of the seal are respectively connected to the top wall and the bottom wall.

9. The cabinet heat dissipation structure of a surgical robot system according to claim 8, wherein a handle is provided on a front end surface of the seal.

10. The cabinet heat dissipation structure of a surgical robot system according to claim 9, wherein a plurality of adjustment plates are disposed in parallel and at intervals in the upper chamber, and the adjustment plates are detachably connected to the side walls.

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