Self-adaptive far infrared space temperature controlling device capable of shooting

A self-adaptive, temperature control device technology, applied in the field of far-infrared heating, can solve problems such as affecting the physical and physical health of workers, providing environment for staff, affecting product production, etc.

Inactive Publication Date: 2013-06-19
SHAANXI ZHONGXINLIAN ENERGY SAVING NEW TECHDEV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0002] In winter, there has been no good solution to the heating problem of high-altitude and large spaces. It is several meters to more than ten meters high, more than ten meters wide, and more than twenty meters long. If such a space wants to make the outdoor temperature below 5 degrees comfortable, it needs Very large heating energy, such a space itself requires good ventilation (gas volume emissions harmful to the human body are generated during work), which makes it difficult to design a good heating system, and many factories can only work at natural temperatures , unable to provide a good environment for the staff, not only affects the physical health of the workers, but also affects the production of products, and some will affect the quality of products

Method used

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  • Self-adaptive far infrared space temperature controlling device capable of shooting

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no. 1 approach

[0011] The first embodiment, as shown in Figure 1, is an adaptive far-infrared space temperature control device with camera capability, including a far-infrared device and a controller, characterized in that: the far-infrared device 2 is in the large space area 2, and Infrared device 2 reflection cover 9 rear ends are connected with adjustment shaft 10, adjustment shaft 10 is parallel with the radiation axis of far infrared device, adjustment shaft 10 is connected motor, makes reflection cover 9 rotate around radiation axis by rotating motor, makes reflection cover 9 maximum infrared The radiating face faces directly into the work area.

no. 2 approach

[0012] The second embodiment comprises a far-infrared device and a controller, and is characterized in that: the far-infrared device 2 is in the large space area 2, and the rear end of the far-infrared device 2 reflector 9 is connected with an adjustment shaft 10, and the adjustment shaft 10 is parallel to the far-infrared device the radiation axis, the adjustment shaft 10 is connected to the motor, and the reflector 9 is rotated around the radiation axis by rotating the motor, so that the maximum infrared radiation surface of the reflector 9 is directly facing the working area. The telescopic adjustment unit 6 has a telescopic shaft to rotate the shaft, and the shaft can be telescopic. The up and down distance adjustment is completed through the telescopic adjustment, so that the far infrared device 2 is closer to the working range of the staff in the work area. By adjusting the shaft, the reflector 9 The maximum infrared radiation faces directly into the work area.

no. 3 approach

[0013] The third embodiment, an adaptive far-infrared space temperature control device with camera capability, including a far-infrared device and a controller, is characterized in that: the far-infrared device 2 is in the large space area 2, and the far-infrared device 2 reflector 9 The rear end is connected with an adjustment shaft 10, which is parallel to the radiation axis of the far-infrared device. The adjustment shaft 10 is connected to a motor, and the reflector 9 is rotated around the radiation axis by rotating the motor, so that the maximum infrared radiation surface of the reflector 9 is directly facing the working area . A camera unit is electrically connected with the controller, and is used to obtain the image information of the staff in the working space 3 of the large space area 2, and the controller automatically adjusts the up and down telescopic adjustment unit 6 and the adjustment shaft 10, so that the reflector of the far infrared device 2 9. The automatic...

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Abstract

The invention relates to far infrared heating technology, in particular to a self-adaptive far infrared space temperature controlling device capable of shooting. The self-adaptive far infrared space temperature controlling device capable of shooting comprises a far infrared device and a controller and is characterized in that the far infrared is in a large space zone. A shooting unit is in electric connection with the controller and used for obtaining image information on working staff in a working space of the large space zone. The controller is used for automatically adjusting a vertically contractive adjusting unit and an adjusting shaft. Thus, a reflecting hood of the far infrared device can automatically adjust within an activity range of the working staff of the working space and automatic tracking is achieved.

Description

technical field [0001] The invention relates to far-infrared heating technology, in particular to an adaptive far-infrared space temperature control device with camera capability. Background technique [0002] In winter, there has been no good solution to the heating problem of high-altitude and large spaces. It is several meters to more than ten meters high, more than ten meters wide, and more than twenty meters long. If such a space wants to make the outdoor temperature below 5 degrees comfortable, it needs Very large heating energy, such a space itself requires good ventilation (gas volume emissions that are harmful to the human body during work), making it difficult to design a good heating system, and many factories can only work at natural temperatures , It is impossible to provide a good environment for the staff, which will not only affect the health of the workers, but also affect the production of products, and some will affect the quality of products. Contents o...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): F24D19/10F24D13/00
Inventor 程军
Owner SHAANXI ZHONGXINLIAN ENERGY SAVING NEW TECHDEV
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