JPH04103692U - Heat exhaust structure - Google Patents

Abstract

(57) [Summary] [Purpose] To provide a heat exhaust structure that can efficiently exhaust heat generated from electronic devices while having a simple structure and corresponding to the layout and number of electronic devices. [Structure] In a heat exhaust structure in which a heat exhaust duct section (52) is continuously installed along the top or back side of electronic equipment (72) placed indoors, the outer wall of the heat exhaust duct section (52) A heat exhaust port (54) is formed by opening a large number of slits (54a) arranged intermittently in parallel along the longitudinal direction of the air flow, and a heat exhaust port (54) corresponding to the heat exhaust port (54) is formed on the front surface of the heat exhaust port (54). The base edge is fixed to the longitudinal wall of the heat exhaust duct (52), and the free edges of the tip are in contact with each other to form the heat exhaust port (52).
4) a pair of highly elastic closing materials (60),
(60), a hood (53) shaped to cover the top surface of the electronic equipment (72), and a hood (53) that protrudes from the rear edge of the hood (53) and is removably inserted into and engaged with the slit (54a). to spread out the pair of closing materials (60), (60),
It is characterized by comprising a mounting portion (55) that connects the inside of the heat exhaust duct portion (52) and the inner surface of the hood (53).

Description

[Detailed explanation of the idea]

0001

[Industrial application field]

This idea is related to the heat exhaust structure of electronic equipment that exhausts the heat generated from electronic equipment. Ru.

0002

[Conventional technology]

Traditional offices, especially tenant buildings, are often old buildings with very poor facilities. Many people are crammed into such spaces, and even air conditioning, which is a basic condition of human life, is in poor condition. It has become In addition, recent office automation has introduced many types of office automation. Fiss automation equipment began to be used. office automation Examples of electronic devices called desktop devices include those that are placed on a desk. Includes computers, printers, desk fax machines, desk copiers, etc. Also on the floor For example, office computers, fax machines, photocopiers, etc. , shredder, etc. By the way, it is said that the human body generates 100 Kcal/hour per person. However, each electronic device generally generates 150 to 350 Kcal/hour. It is said that there is. A wide variety of electronic devices are used as mentioned above, but the centralized location and functionality of these devices are The number of air conditioners has increased significantly, and it is difficult to simply introduce partitions or use existing indoor general air conditioning equipment. It is no longer possible to deal with the heat generated. That is, locally There is a lot of waste in controlling the heat generated throughout the room, and the room temperature varies. This causes many problems in terms of efficiency and comfort.

0003

[Problem that the invention attempts to solve]

Nowadays, when the working environment is attracting attention as a health issue, Air conditioning problems are new due to new heat sources such as slave devices entering the office. It has become necessary to come up with a solution using new ideas. In addition, the number of electronic devices in the office and The layout must be flexible. Again, exhaust heat from all electronic devices If this is done with the current type of office air conditioning to maximize heat exhaust efficiency, the building This is not appropriate as it requires extensive construction work. Traditionally, as a heat exhaust device for electronic equipment, air conditioning functions are installed in partitions, and individual devices such as desks, etc. Proposals have been made to install air-conditioning equipment for people, but none of them are sufficient. cannot solve the above problem. In order to solve the above-mentioned problems, this idea has a simple structure and is suitable for electronic equipment. We provide a heat exhaust structure that can efficiently process waste heat in accordance with the layout and number of types. The porpose is to do.

0004

[Means to solve the problem]

The configuration of the present invention will be explained with reference to the illustrated embodiment. In other words, the present invention A heat exhaust duct is installed along the top or back of electronic equipment (72) placed indoors. In the heat exhaust structure in which the to parts (52) are connected, In front of the outer wall of the heat exhaust duct section (52), a large number of holes are arranged along the longitudinal direction of air flow. A heat exhaust port (54) is formed by slits (54a) arranged intermittently in parallel to form an opening. and, A base edge is attached to the longitudinal wall of the heat exhaust duct portion (52) corresponding to the heat exhaust port (54). The free edges of the tips abut each other to close the heat exhaust port (54). A pair of highly elastic closing materials (60), (60); a hood (53) shaped to cover the top surface of the electronic equipment (72); Projecting from the rear edge of the hood (53), the hood (53) is removably attached to the slit (54a). When inserted and engaged, the pair of closing members (60), (60) are pushed apart, and the heat exhaust duct section is opened. (52) a mounting portion (55) that communicates between the inside and the inner surface of the hood (53); It is characterized by having the following.

[0005]

[Effect]

The heat generated from the electronic equipment 72 passes through the heat exhaust port 54 from the inner surface of the hood 53. The heat is exhausted into the exhaust heat duct section 52 or from the inside of the exhaust heat duct section 52 to the hood 53. It is cooled by the cold air released on the inner surface of the Part of the heat exhaust port 54 other than the hood 53 are closed by closing materials 60, 60. When the electronic equipment 72 is moved to the side, the mounting part of the hood 53 is inserted into the slit 54a. What is necessary is to pull it out from the slit 54a and insert it into the slit 54a at the corresponding position.

[0006]

【Example】

1 to 6 show an embodiment of the present invention. The heat exhaust structure 51 includes a heat exhaust duct 52, a heat exhaust port 54, and a pair of closing members 60, 60. A hood 53 is provided. The heat exhaust duct section 52 is a pipe with a square cross section. The front surface of the outer wall has a heat exhaust port 54 along its longitudinal direction. The heat exhaust port 54 is formed by opening a large number of slits 54a arranged intermittently in parallel. Each slit 54a has a pair of upper and lower vertical slits 54a, and a pair of horizontal slits 54a. It has a shape where many are arranged side by side. The hood 53 has a shape that covers the top surface of the electronic equipment 72, and there are A mounting part 55 made of a U-shaped plate is provided protrudingly, and this mounting part 55 is connected to a corresponding pair of upper and lower parts. is detachably inserted into the slit 54a.

[0007] The closing members 60, 60 are band-shaped, made of an elastic material, and resistant to heat. Closing material 60 , 60 are heat exhaust ducts corresponding to the upper and lower edges of the heat exhaust port 54. It is fixed to the longitudinal inner wall of the section 51. Also, the free edges of the ends of the closing materials 60, 60 60b and 60b are in contact with each other to close the heat exhaust port 54. By hanging the attachment part 55 of the hood 53 on the heat exhaust port 54, the The free edges 60b, 60b open inward as shown by the arrows, and the heat from the electronic equipment is released. is sucked into the through hole 64 through the hood 53.

[0008] The heat exhaust structure 51 of the embodiment described above is installed on the top plate 71 of the desk 70 as shown in FIG. Can be set. In this way, the electronic devices 72 placed on the top plate 71 can be can efficiently dissipate waste heat. In addition, for example, as shown in FIG. It can also be placed in a mold. Furthermore, for example, the heat exhaust structure 51 can be fixed to the rear side of the desk top.

[0009] By the way, the heat exhaust duct part of the heat exhaust structure can be connected to an adjacent heat exhaust duct part. Ma Cooling the electronic equipment by applying the cold air to the electronic equipment through the heat exhaust duct and heat exhaust port. You can also do it. Further, a large number of the devices of any of the embodiments can be connected in the horizontal direction.

0010

[Effect of the idea]

As explained above, according to the present invention, a large number of In addition to providing a heat exhaust port 54 formed by arranging several slits 54a intermittently in parallel, The inner wall of the heat exhaust duct 52 is provided with a highly elastic material so as to close the heat exhaust port 54. A pair of closing members 60 and 60 are provided, and the attachment part 55 of the hood 53 is inserted into the slit 54a. By engaging the plugs 60 and 60, the plugs 60 and 60 are pushed apart, and the electricity at the bottom of the hood 53 is removed. The heat from the slave devices 72 is exhausted into the heat exhaust duct 52 through the heat exhaust port 54, or the heat is cooled. Therefore, depending on the number and layout of electronic devices, the above heat exhaust duct This has the effect of allowing heat to be dissipated by easily changing the number and position of the ducts 52. .

[0011] Furthermore, the attachment of the hood 53 is also ensured by engaging and disengaging the attachment portion 55 and the slit 54a. In fact, the opening of the closing members 60, 60 is also the part pushed out by the mounting part 55. Since there is no need for unnecessary air leakage, the sealing materials 60, 60 are Since it is provided and protected inside the heat duct section 52, it cannot be damaged by mischief etc. It will never be removed.

[Brief explanation of drawings]

FIG. 1 is an isolated perspective view showing an embodiment of the present invention.

FIG. 2 is an enlarged cross-sectional view of the main parts of the above.

FIG. 3 is an enlarged sectional view showing the above coupled state.

FIG. 4 is a rear perspective view showing the above coupled state.

FIG. 5 is a side view showing a setting example of a heat exhaust structure according to an embodiment of the present invention.

FIG. 6 is a side view showing another setting example.

[Explanation of symbols]

51 Heat exhaust structure 52 Heat exhaust duct section 53 Food 54 Heat exhaust port 54a slit 55 Mounting part 60 Closing material

Claims (1)

[Scope of utility model registration request] 1. In a heat exhaust structure in which a heat exhaust duct section (52) is continuously provided along the top or back side of electronic equipment (72) placed in a room, the heat exhaust duct section (52)
a heat exhaust port (54) formed by openings formed by a large number of slits (54a) arranged intermittently in parallel along the longitudinal direction of the air flow; A pair of resilient closing members whose base edges are fixed to the longitudinal walls of the corresponding heat exhaust ducts (52) and whose free edges abut against each other to close the heat exhaust ports (54). (6
0), (60), a hood (53) shaped to cover the top surface of the electronic equipment (72), and a hood (53) protruding from the rear edge of the hood (53) and detachably inserted into the slit (54a). and a mounting portion (55) that is engaged to push apart the pair of closing members (60) and (60) to establish communication between the inside of the heat exhaust duct portion (52) and the inner surface of the hood (53). A heat exhaust structure characterized by: