CN213066007U

CN213066007U - Reflection device of high-power infrared lamp tube

Info

Publication number: CN213066007U
Application number: CN202021664263.XU
Authority: CN
Inventors: 王一程; 王津; 冯云松; 路远; 吴祖国
Original assignee: National University of Defense Technology
Current assignee: National University of Defense Technology
Priority date: 2020-08-11
Filing date: 2020-08-11
Publication date: 2021-04-27
Anticipated expiration: 2030-08-11

Abstract

The utility model discloses a reflection device of a high-power infrared lamp tube, which comprises a shell, wherein a reflection cover is arranged on the shell, a cavity is formed between the shell and the reflection cover, the cavity is communicated to the outside of the shell, and at least one heat dissipation device is arranged in the cavity; the adjusting component is fixedly connected to the shell and provided with a lamp tube; the adjusting component comprises a first adjusting mechanism and a second adjusting mechanism. The utility model adopts the first adjusting mechanism and the second adjusting mechanism to adjust the position of the lamp tube, so that the lamp tube can be adjusted at the focus position of the reflector in situ, thereby achieving the effect of controlling the divergence angle of the light beam; meanwhile, the heat dissipation device is arranged in the reflection device, so that the reflection device can be effectively cooled through the heat dissipation device, and the service life of the reflection device is further prolonged.

Description

Reflection device of high-power infrared lamp tube

Technical Field

The utility model relates to an infrared light source technical field specifically is a high-power infrared fluorescent tube's reflect meter.

Background

The infrared lamp tube is widely used in industrial production and scientific research, generally, the power of the infrared lamp tube is relatively large, for example, a carbon fiber infrared lamp tube and the like, and in order to project light emitted by the infrared lamp tube to a preset direction and control the divergence angle of the light beam, the lamp tube needs to be matched with a projection device for use. The most common projection device at present is a groove-shaped parabolic reflector, during installation, an infrared lamp tube is assembled at the focus of the groove-shaped parabolic reflector, so that light rays similar to parallel light can be projected, and if the lamp tube moves near the focus, the divergence angle of a reflected light beam can be changed.

Present cell type parabolic reflector is often that fixed mounting can't remove in focus position in practical application, from this, just can't satisfy the demand of adjusting reflection beam divergence angle, simultaneously, can lead to parabolic reflector high temperature under long-time practical condition, will reduce the life of equipment under the long-term service behavior, and how to solve prior art's drawback becomes the problem that relevant field technical staff urgently needed to solve.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a high-power infrared lamp's reflect meter to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: a reflection device of a high-power infrared lamp tube comprises:

the shell is provided with a reflecting cover, a cavity is formed between the shell and the reflecting cover and communicated to the outside of the shell, and at least one heat dissipation device is arranged in the cavity;

the adjusting component is fixedly connected to the shell and provided with a lamp tube;

the lamp tube is driven to adjust in the first adjusting direction by the first adjusting mechanism, and the lamp tube is driven to adjust in the second adjusting direction by the second adjusting mechanism.

The adjusting components are arranged in two numbers, and the two adjusting components are respectively arranged at two ends of the shell.

The lamp tube is provided with connecting parts at two ends, and is connected with the adjusting component through the connecting parts.

The two adjusting components are provided with initial adjusting positions, and when the lamp tube is arranged at the initial adjusting positions of the two adjusting components, the lamp tube is positioned on the focus of the reflecting cover.

The shell comprises a back plate, wherein bent parts which are folded in the same direction are formed at the upper edge part and the lower edge part of the back plate, and the reflecting cover is connected with the back plate through the bent parts; the positioning plates are fixedly connected to two sides of the shell, and the local part of the adjusting assembly is fixedly connected to the positioning plates.

The heat dissipation device is arranged on the back plate, and a plurality of heat dissipation devices are uniformly distributed on the back plate.

The mirror surface of the reflecting cover is made of stainless steel.

According to the technical scheme, the first adjusting mechanism and the second adjusting mechanism are adopted to adjust the position of the lamp tube, so that the lamp tube can be adjusted at the focus position of the reflector in situ, and the effect of controlling the divergence angle of the light beam is achieved; meanwhile, the reflecting device is internally provided with the heat dissipation device and is provided with the cavity communicated to the outside of the shell, so that the lamp tube can be effectively cooled through the heat dissipation device in the long-term use process, and the service life of the reflecting device is further prolonged.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a side view of the structure of the present invention;

fig. 3 is a front view of the structure of the present invention;

fig. 4 is an enlarged view of a part of the structure of the present invention.

In the figure: the lamp comprises a shell 1, a bent part 11, a back plate 12, an assembly part 13, a cavity 14, a positioning plate 15, a reflector 2, a lamp tube 3, a connecting part 31, an adjusting component 4, a base 41, a folded part 411, a first rail 42, a first 421 connecting block, a first 43 guide plate, a second 431 connecting block, a first adjusting part 44, a second 45 guide plate, a third 451 connecting block, a second 46 rail, a fourth 461 connecting block, a second adjusting part 47, a 471 shaft body and a 5 heat dissipation device.

Detailed Description

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

Referring to fig. 1-4, the reflection apparatus for a high power infrared lamp tube includes a housing 1 and an adjusting assembly, wherein the adjusting assembly is mounted on the housing 1, and specifically, the adjusting assembly includes the following components:

the shell 1 is provided with a reflector 2, a cavity 14 is formed between the shell 1 and the reflector 2, the cavity 14 is communicated to the outside of the shell 1, and at least one heat dissipation device 5 is arranged in the cavity 14. Here, it can be understood by those skilled in the art that the housing 1 is used for installing and fixing the reflection cover 2, and the chamber 14 formed between the inner side surface of the reflection cover 2 and the housing 1 is used for providing an assembly space, which can be used for installing the heat sink 5 to reduce the temperature of the reflection cover 2 and the assembly space. It should be noted that, in the present embodiment, the heat dissipation device 5 may adopt a fan, but is not limited thereto, for example, a heat dissipation device 5 for cooling by water cooling or the like may also be adopted, and here, the present embodiment is not limited to the specific position where the heat dissipation device 5 is installed in the housing 1, for example, when a device such as a fan is adopted, it may be fixed on the side wall of the housing 1, when a device such as a water cooling or the like is adopted, its water cooling pipeline may be arranged on the back panel surface of the reflective cover 2, and at the same time, since the chamber 14 is communicated to the outside of the housing 1, this arrangement also provides a good ventilation cooling effect. The adjusting component is fixedly connected to the shell 1, and the adjusting component is provided with a lamp tube 3, wherein the lamp tube 3 is a high-power infrared lamp tube, and in the implementation, the lamp tube 3 implements position adjustment through the adjusting component. The adjusting assembly includes a first adjusting mechanism and a second adjusting mechanism, the first adjusting mechanism has an adjustable first adjusting direction, the second adjusting mechanism has an adjustable second adjusting direction, the lamp 3 is driven by the first adjusting mechanism to adjust in the first adjusting direction, the lamp 3 is driven by the second adjusting mechanism to adjust in the second adjusting direction, in practice, the set first adjusting direction and the set second adjusting direction are generally arranged in a direction perpendicular to each other, but not limited thereto. Referring to fig. 3, in order to achieve precise adjustment of the lamp 3, the first adjustment direction is a front-back direction adjustment in the view angle of fig. 3, and the second adjustment direction is a top-bottom direction adjustment in the view angle of fig. 3.

Referring to fig. 4, fig. 4 is a partial enlarged view of the present invention, the first adjusting mechanism includes a base 41, a first rail 42 and a first guiding plate 43, the second adjusting mechanism includes a second guiding plate 45 and a second rail 46, wherein, in the first adjusting mechanism, the base 41 is configured as an L-shaped plate structure and is fixed to the second adjusting mechanism through a folded portion 411 on one side thereof, the first rail 42 is fixed to an end surface of the base 41, the first guiding plate 43 is slidably connected to the first rail 42, and a translation direction of the first guiding plate 43 on the first rail 42 is a front-back direction in a viewing angle of fig. 3, that is, a displacement direction of the first guiding plate 43 is a first adjusting direction, an end portion of the lamp tube 3 is detachably mounted on the first guiding plate 43 through a mounting connecting portion 31, by which the first adjusting direction of the first guiding plate 43 is adjusted, the adjustment of the lamp tube 3 in the first adjustment direction can be realized, and the adjustment structure comprises: the first connecting block 421 is fixedly connected to one side of the first rail 42, the second connecting block 431 is fixedly connected to one side of the first guiding plate 43, the first adjusting member 44 is mounted on the first connecting block 421, in practice, the first adjusting member 44 can be replaced by a differential adjuster, but is not limited to this, the differential adjuster includes a micro-cylinder and a shaft body mounted at an output end of the micro-cylinder, the micro-cylinder is fixedly connected to the first connecting block 421, a top end of the shaft body is rotatably connected to the second connecting block 431, in the process of adjustment, the control of the expansion and contraction amount of the shaft body can be realized by rotating the rotary adjuster located at the tail of the micro-cylinder, and the first guiding plate 43 can realize the position adjustment relative to the first rail 42 by the adjustment of the micro-cylinder, that is, the first guiding plate 43 drives the lamp 3 to displace along the first adjusting direction. In the second adjusting mechanism, the second rail 46 is vertically and fixedly connected to the housing 1, further, the positioning plates 15 are installed on two sides of the housing 1, the second rail 46 is vertically and fixedly connected to the positioning plates 15, the second guide plate 45 is slidably connected to the second rail 46, the second guide plate 45 is vertically in the view angle of fig. 3 along the translation direction of the second rail 46, and the other side of the second guide plate 45 is fixedly connected to the folded portion 411, that is, the displacement direction of the second guide plate 45 is the second adjusting direction, the end portion of the lamp tube 3 is detachably installed on the first guide plate 43 by the installed connecting portion 31, and the lamp tube 3 is adjusted in the second adjusting direction by the linked base 41, and the adjusting mechanism includes: a third connecting block 451 is fixedly connected to one side of the second guide plate 45, a fourth connecting block 461 is fixedly connected to one side of the second track 46, a second adjusting member 47 is mounted on the fourth connecting block 461, and similarly, the first adjusting member 44 is arranged, an output end of the second adjusting member 47 is provided with a shaft body 471, an end of the shaft body 471 is rotatably connected in the connecting block 451, in the adjusting process, the telescopic amount of the shaft body 471 can be controlled by rotating a rotary adjuster located at the tail of the micro-drum, and the position of the second guide plate 45 relative to the second track 46 can be adjusted by the micro-drum on the second adjusting member 47, that is, the second guide plate 45 drives the lamp tube 3 to displace along the second adjusting direction.

In this embodiment, the adjusting components are two, and the adjusting components are respectively disposed at two ends of the housing 1, so that the stable effect of the lamp tube 3 in the adjusting process and after installation can be ensured. Furthermore, the adjusting components all have initial adjusting positions, and when the lamp tube 3 is installed at the initial adjusting positions of the two adjusting components, the lamp tube 3 is located at the focus of the reflector 3, and here, it can be understood by those skilled in the art that the technical problem to be solved in the present application is to provide a structure capable of realizing position adjustment when the lamp tube 3 is located at the reflection focus position of the reflector 2, that is, to implement adjustment of two adjusting directions through the adjusting components.

In this embodiment, the housing 1 includes a back plate 12 and a positioning plate 15, the upper and lower edge portions of the back plate 12 are formed with bending portions 11 folded in the same direction, and the reflective cover 2 is connected 12 to the back plate via the bending portions 11; the locating plate 15 is fixedly connected to two sides of the housing 1, and the adjusting component is partially fixedly connected to the locating plate 14, where those skilled in the art can understand that one side of the second rail 46 of the adjusting component is fixedly connected to the locating plate 15, and meanwhile, in order to facilitate the adaptive installation of the reflecting device on an external structure, the assembling parts 13 are installed at four corners of the housing 1, and the connecting with the external structure is implemented through the assembling parts 13.

Further, in order to improve the heat dissipation effect of the heat dissipation device 5, in this embodiment, the heat dissipation device 5 is installed on the back plate 12, and a plurality of heat dissipation devices are uniformly distributed on the back plate 12.

Furthermore, the mirror surface of the reflecting cover 2 is made of stainless steel, and the material is corrosion-resistant and has a good using effect.

The above-mentioned embodiments are only for describing the preferred embodiments of the present invention, and are not intended to limit the scope of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims

1. A reflection device for a high-power infrared lamp tube, comprising:

2. A reflector assembly for a high power infrared lamp tube as set forth in claim 1, wherein: the adjusting components are arranged in two numbers, and the two adjusting components are respectively arranged at two ends of the shell.

3. A reflector assembly for a high power infrared lamp tube as set forth in claim 2, wherein: the lamp tube is provided with connecting parts at two ends, and is connected with the adjusting component through the connecting parts.

4. A reflector assembly for a high power infrared lamp tube as set forth in claim 2, wherein: the lamp tube is arranged at the initial adjusting positions of the two adjusting components and is positioned on the focus of the reflecting cover when the lamp tube is arranged at the initial adjusting positions of the two adjusting components.

5. A reflector assembly for a high power infrared lamp tube as set forth in claim 1, wherein: the casing has:

the upper edge part and the lower edge part of the back plate are respectively provided with a bending part which is folded in the same direction, and the reflection cover is connected with the back plate through the bending parts;

and the positioning plates are fixedly connected to two sides of the shell, and the local part of the adjusting component is fixedly connected to the positioning plates.

6. A reflecting device for high-power infrared lamp tubes according to claim 5, characterized in that: the heat dissipation device is arranged on the back plate, and a plurality of heat dissipation devices are uniformly distributed on the back plate.

7. A reflector assembly for a high power infrared lamp tube as set forth in claim 1, wherein: the mirror surface of the reflecting cover is made of stainless steel.