CN219181609U - Ventilation structure for panoramic camera - Google Patents

Abstract

The utility model provides a ventilation structure for a panoramic camera, which comprises a shell, a heat dissipation bracket, a fan and a central control mechanism, wherein the shell is arranged on the heat dissipation bracket; the storage card mechanism is arranged at the center of the shell, the first clamping groove is arranged at the center of the top end of the shell and is inserted into the storage card mechanism, the first vent hole is further formed in the top end of the shell, the second vent hole is formed in the bottom end of the shell, and the first vent hole is communicated with the second vent hole. The ventilation structure for the panoramic camera is characterized in that ventilation holes are formed in the upper part and the lower part of the shell, and the ventilation structure is matched with a fan to enable gas in the shell to circulate at high speed so as to dissipate heat; the center of the heat dissipation bracket is provided with a first heat dissipation channel, so that the heat dissipation bracket can support the storage card mechanism, and the heat dissipation of the storage card mechanism by air flowing in the shell is facilitated; the periphery of the heat dissipation support is provided with a plurality of second heat dissipation channels in a surrounding mode, circulating wind of the fan is guided to the periphery, and practicality and heat dissipation effect of the ventilation structure are improved.

Description

Ventilation structure for panoramic camera

Technical Field

The utility model relates to the field of panoramic cameras, in particular to a ventilation structure for a panoramic camera.

Background

Panoramic cameras are often used in video conferences in living and office places, and the panoramic cameras are used for talking and communicating with images and sounds through a network.

The existing panoramic camera structure conducts heat and dissipates heat to the structure in the camera only through the aluminum shell and the heat dissipation plate, the heat conduction and dissipation efficiency is low, and electronic device components in the panoramic camera are easy to damage due to high temperature, so that the problem that the panoramic camera cannot operate is solved.

It is therefore desirable to provide a ventilation structure for panoramic cameras to solve the above-mentioned problems.

Disclosure of Invention

The utility model provides a ventilation structure for a panoramic camera, which solves the problem that the panoramic camera in the prior art only dissipates heat by arranging an aluminum alloy shell and a heat dissipation plate, and has poor heat dissipation effect.

In order to solve the technical problems, the technical scheme of the utility model is as follows: a ventilation structure for a panoramic camera, comprising:

a shell, a storage card mechanism is arranged at the center of the inner part of the shell, a first clamping groove is arranged at the center of the top end of the shell and used for being inserted into the storage card mechanism,

the top end of the shell is also provided with a first ventilation hole, the bottom end of the shell is provided with a second ventilation hole, and the first ventilation hole is communicated with the second ventilation hole;

the heat dissipation bracket is arranged in the shell, a first heat dissipation channel is arranged in the heat dissipation bracket, and the first heat dissipation channel is spliced with the storage card mechanism;

the fan is positioned at the bottom end of the heat radiation support and connected with the bottom end inside the shell, and the fan circulates air flow between the first ventilation hole and the second ventilation hole; and

the central control mechanism is arranged in the shell and positioned between the fan and the heat dissipation bracket, the central control mechanism is connected with the fan, and the central control mechanism supplies power for the fan.

In the utility model, a third ventilation hole is arranged at the center of the central control mechanism, and the third ventilation hole is communicated with the first ventilation hole and the second ventilation hole;

the heat dissipation support includes:

the support frame is connected with the inner wall of the shell, the first heat dissipation channel is positioned at the center of the support frame, and

the guide frame is connected with the bottom end of the supporting frame, a plurality of second heat dissipation channels are arranged on the periphery of the guide frame in a surrounding mode, and the second heat dissipation channels are communicated with the third ventilation holes.

In the present utility model, the support frame includes:

the first frame body is provided with a first connecting column connected with the inner wall of the shell at the outer side, and the bottom end of the first frame body is connected with the inner ring of the guide frame;

the first support plates are provided with two groups, the two groups of first support plates are oppositely arranged at two sides in the first frame body, and the first heat dissipation channels are formed between the two groups of first support plates; and

the first deflector is arranged at the bottom end of the supporting frame, the first deflector is used for connecting the first frame body with the first supporting plate, and the first deflector is used for guiding air between the second heat dissipation channel and the third ventilation hole.

In the utility model, the air guide surfaces are oppositely arranged between the two groups of first support plates, and the distance between the two groups of air guide surfaces and one end of the fan is gradually increased.

In the utility model, the supporting frame is of a polygonal structure, the inner ring structure of the guide frame is matched with the bottom end structure of the supporting frame,

the bottom end of the supporting frame is spliced with the inner ring of the guide frame.

In the present utility model, the guide frame includes:

the second frame body is vertically arranged at the bottom end of the supporting frame, and a first through groove is formed in the side edge of the second frame body;

the second support plate is connected with the top end of the second frame body, is connected with the bottom end of the support frame and is provided with a second through groove; and

the second guide plate is used for connecting the outer side of the second frame body with the bottom end of the second support plate, and a third through groove is formed in the second guide plate and is used for communicating the first through groove with the second through groove, so that the second heat dissipation channel is formed.

In the present utility model, the second guide plate includes:

the extension part is vertically connected to the bottom end of the second supporting plate; and

and one end of the second guiding part is connected with the bottom end of the extending part, the other end of the second guiding part is positioned at the bottom end of the first through groove, and the other end of the second guiding part is connected with the outer side of the second frame body.

In the utility model, the plane of the air guiding surface is parallel to the plane of the second guiding part.

In the utility model, a plurality of camera mechanisms are further arranged on the periphery of the shell, a first air deflector is further arranged on the periphery of the first frame body, and the first air deflector is vertically arranged between the adjacent camera mechanisms.

In the utility model, the top end of the second supporting plate is provided with a baffle plate,

the top end of the second supporting plate is provided with radiating fins, the radiating fins are located above the second through groove, and the radiating fins are located between the outer ring of the first frame body and the baffle plate.

Compared with the prior art, the utility model has the beneficial effects that: the ventilation structure for the panoramic camera is characterized in that ventilation holes are formed in the upper part and the lower part of the shell, and the bottom end of the inside of the shell is matched with a fan to enable gas in the shell to circulate at high speed, so that heat dissipation is carried out; the center department of heat dissipation support sets up first heat dissipation passageway for the heat dissipation support can support memory card mechanism, and the wind of the circulation in the shell of being convenient for simultaneously dispels the heat to memory card mechanism. The heat dissipation support week side is encircleed and is provided with a plurality of second heat dissipation channels, and heat dissipation support week side sets up a plurality of second heat dissipation channels to can lead fan endless wind to the week side, thereby can ventilate the heat dissipation with the mechanism of making a video recording that sets up at the shell week side, promote ventilation structure's practicality, promote panoramic camera's radiating effect.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings that are needed in the embodiments are briefly described below, and the drawings in the following description are only drawings corresponding to some embodiments of the present utility model.

Fig. 1 is an exploded view of the overall structure of a preferred embodiment of the present utility model.

Fig. 2 is a sectional view of a panoramic camera of a preferred embodiment of the utility model.

Fig. 3 is a perspective view of a heat dissipating bracket according to a preferred embodiment of the present utility model.

Fig. 4 is a cross-sectional view of a heat dissipating bracket according to a preferred embodiment of the present utility model.

Fig. 5 is a view showing a state of use of the heat dissipation bracket according to the preferred embodiment of the present utility model.

Fig. 6 is an exploded view of a heat dissipating bracket structure according to a preferred embodiment of the present utility model.

Reference numerals: 1. a housing; 1a, a first clamping groove; 1b, a first vent; 1c, a second ventilation hole; 2. an image pickup mechanism; 41. a heat dissipation bracket; 411a, a first heat dissipation channel; 43. a fan; 44. a central control mechanism; 41. a heat dissipation bracket; 411. a support frame; 4111. a first frame; 4112. a first support plate; 4113. a first guide plate; 4114. a first connection post; 4115. a first air deflector; 412. a guide frame; 412a, a second heat dissipation channel; 4121. a second frame; 4121a, a first through slot; 4122. a second support plate; 4122a, a second through slot; 4123. a second guide plate; 4123a, a third through slot; 4123b, extension; 4123c, a second guide; 4124. a baffle; 422. a heat radiation fin; 7. a memory card mechanism.

Detailed Description

The following description of the embodiments of the present utility model will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present utility model, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

In the drawings, like structural elements are denoted by like reference numerals.

The words "first," "second," and the like in the terminology of the present utility model are used for descriptive purposes only and are not to be construed as indicating or implying relative importance and not as limiting the order of precedence.

Referring to fig. 1, 2 and 3, fig. 1 is an exploded view of the whole structure of a preferred embodiment of the present utility model. Fig. 2 is a sectional view of a panoramic camera of a preferred embodiment of the utility model. Fig. 3 is a perspective view of a heat dissipating bracket according to a preferred embodiment of the present utility model.

The following is a preferred embodiment of a ventilation structure for a panoramic camera, which solves the above technical problems.

The preferred embodiment of the ventilation structure for the panoramic camera provided by the utility model is as follows: a ventilation structure for a panoramic camera is applied to the panoramic camera, and comprises a shell 1, a heat dissipation bracket 41, a fan 43 and a central control mechanism 44; wherein the inside center department of shell 1 is provided with memory card mechanism 7, and shell 1 top center department is provided with first draw-in groove 1a, and first draw-in groove 1a communicates with memory card mechanism 7, and shell 1 top still is provided with first ventilation hole 1b, and shell 1 bottom is provided with second ventilation hole 1c, and first ventilation hole 1b communicates with second ventilation hole 1 c.

The heat dissipation bracket 41 is arranged in the shell 1, a first heat dissipation channel 411a is arranged in the heat dissipation bracket 41, and the first heat dissipation channel 411a is communicated with the first clamping groove 1a; and the first heat dissipation channel 411a is spliced with the storage card mechanism 7; the fan 43 is positioned at the bottom end of the heat radiation bracket 41 and connected with the bottom end inside the shell 1, and the fan 43 circulates air flow between the first ventilation hole 1b and the second ventilation hole 1 c; the central control mechanism 44 is arranged in the shell 1, the central control mechanism 44 is positioned between the fan 43 and the heat dissipation bracket 41, the central control mechanism 44 is connected with the fan 43, and the central control mechanism 44 supplies power to the fan 43.

The ventilation structure for the panoramic camera in the embodiment is provided with ventilation holes through the upper part and the lower part of the shell 1, and the bottom end in the shell 1 is matched with the fan 43 to enable the gas in the shell 1 to circulate at high speed so as to dissipate heat; the first heat dissipation channel 411a is disposed at the center of the heat dissipation bracket 41, so that the heat dissipation bracket 41 can support the memory card mechanism, and meanwhile, the air flowing in the housing 1 is convenient for dissipating heat of the memory card mechanism 7. The heat dissipation support 41 week side is encircled and is provided with a plurality of second heat dissipation passageway 412a, and the heat dissipation support 41 week side sets up a plurality of second heat dissipation passageway 412a to can lead the wind that fan 43 circulated to the week side, thereby can ventilate the heat dissipation with the camera mechanism 2 that sets up in shell 1 week side, promote ventilation structure's practicality, promote panoramic camera's radiating effect.

The structure of the heat dissipation bracket 41 in this embodiment will be described in detail with reference to fig. 2, 3, 4 and 6:

referring to fig. 2, a third vent hole is provided at the center of the central control mechanism 44, and the third vent hole is communicated with the first vent hole 1b and the second vent hole 1 c. Referring to fig. 3, the heat dissipation bracket 41 includes a support frame 411 and a guide frame 412; the supporting frame 411 is connected with the inner wall of the shell 1, and the first heat dissipation channel 411a is positioned at the center of the supporting frame 411; so that the heat dissipation bracket 41 can support the memory card mechanism and facilitate the ventilation in the housing 1 to dissipate heat of the memory card mechanism 7. The guide frame 412 is connected with the bottom end of the supporting frame 411, and a plurality of second heat dissipation channels 412a are circumferentially arranged on the periphery of the guide frame 412, and the second heat dissipation channels 412a are communicated with the third ventilation holes. The heat dissipation bracket 41 is provided with a plurality of second heat dissipation channels 412a on the periphery of the guide frame 412, so that the circulating wind of the fan 43 can be guided to the periphery, and the camera mechanism 2 arranged on the periphery of the housing 1 can be ventilated and dissipated, thereby improving the practicability of the ventilation structure.

In the present embodiment, the support frame 411 includes a first frame 4111, a first support plate 4112, and a first guide plate 4113; the outer side of the first frame 4111 is provided with a first connecting column 4114 connected with the inner wall of the housing 1, and the bottom end of the first frame 4111 is connected with the inner ring of the guide frame 412; the first support plates 4112 are provided with two groups, the two groups of first support plates 4112 are oppositely arranged at two sides inside the first frame 4111, and a first heat dissipation channel 411a is formed between the two groups of first support plates 4112; the first guide plate 4113 is disposed at the bottom end of the support frame 411, the first guide plate 4113 connects the first frame 4111 with the first support plate 4112, and the first guide plate 4113 guides air from the second heat dissipation channel 412a to the third ventilation hole.

The two sets of first backup pad 4112 are all provided with the wind-guiding face relatively between, and the distance that two sets of wind-guiding faces are close to fan 43 one end increases gradually, is convenient for guide the wind that fan 43 circulated to the memory card mechanism, promotes ventilation structure's radiating efficiency.

Further, the supporting frame 411 is of a polygonal structure, the inner ring structure of the supporting frame 412 is matched with the bottom structure of the supporting frame 411, the bottom end of the supporting frame 411 is spliced with the inner ring of the supporting frame 412, the supporting frame 411 and the guiding frame 412 are of splicing structures, assembly is convenient, the bottom end of the supporting frame 411 is spliced with the inner ring of the guiding frame 412, and the stability of the inner structure of the shell 1 is improved.

Referring to fig. 3, 4 and 6, in the present embodiment, the guide frame 412 includes a second frame 4121, a second support plate 4122 and a second guide plate 4123; the second frame 4121 is vertically arranged at the bottom end of the supporting frame 411, and a first through groove 4121a is arranged at the side edge of the second frame 4121; the second support plate 4122 is connected to the top end of the second frame 4121, the second support plate 4122 is connected to the bottom end of the support frame 411, and a second through slot 4122a is provided on the second support plate 4122; the second guide plate 4123 connects the outer side of the second frame 4121 and the bottom end of the second support plate 4122, and a third through groove 4123a is provided on the second guide plate 4123, and the third through groove 4123a communicates the first through groove 4121a and the second through groove 4122a, thereby forming the second heat dissipation path 412a.

In the present embodiment, the second guide plate 4123 includes an extension portion 4123b and a second guide portion 4123c; the extension portion 4123b is vertically connected to the bottom end of the second support plate 4122; one end of the second guiding portion 4123c is connected to the bottom end of the extending portion 4123b, the other end of the second guiding portion 4123c is located at the bottom end of the first through groove 4121a, and the other end of the second guiding portion 4123c is connected to the outer side of the second frame 4121.

Further, the plane of the air guiding surface is parallel to the plane of the second guiding portion 4123 c.

In this embodiment, the peripheral side of the housing 1 is further provided with a plurality of image capturing mechanisms 2, the peripheral side of the first frame 4111 is further provided with a first air deflector 4115, and the first air deflector 4115 is vertically disposed between adjacent image capturing mechanisms. The single camera mechanism 2 is located between the adjacent first air deflectors 4115, so that the efficiency of the ventilation structure for radiating heat of the camera mechanism 2 is improved.

In addition, in the embodiment, the top end of the second support plate 4122 is provided with the baffle 4124, the top end of the second support plate 4122 is provided with the heat dissipation fins 422, the heat dissipation fins 422 are located above the second through groove 4122a, and the heat dissipation fins 422 are located between the outer ring of the first frame 4111 and the baffle 4124, and the heat dissipation fins 422 are provided to promote the ventilation efficiency of the ventilation structure to the panoramic camera.

The working principle of the utility model is as follows:

the user inserts the memory card mechanism 7 from the first card slot 1a at the top end of the housing 1 into the first heat dissipation channel 411a of the heat dissipation bracket 41, so that the connector at the bottom end of the memory card mechanism 7 is plugged with the connector in the central control mechanism 44 at the bottom end of the heat dissipation bracket 41.

During the operation of the panoramic camera, the central control mechanism 44 drives the fan 43 to rotate, and drives the air flow to be conveyed from the first ventilation hole 1b to the second ventilation hole 1c, so as to radiate heat and cool the interior of the housing 1. Meanwhile, a plurality of camera mechanisms 2 are further arranged on the periphery of the shell 1, a first heat dissipation channel 411a is arranged in the center of the heat dissipation support 41, and the first heat dissipation channel 411a limits the storage card mechanism 7. The heat dissipation bracket 41 in this embodiment is provided with a first heat dissipation channel 411a along the central axis direction, and the first heat dissipation channel 411a can be plugged with the memory card mechanism 7, so as to dissipate heat during the process of carrying out heat dissipation on the memory card mechanism. The heat dissipation bracket 41 is provided with a second heat dissipation passage 412a on the circumferential side through the guide frame 412, and guides air to dissipate heat from the inner circumferential side of the housing 1.

In addition, the first support plate 4112 in the present embodiment may further be provided with additional heat dissipation holes, or the connection between the first support plate 4112 and the memory card mechanism 7 is provided with a heat dissipation gap, so that air is further facilitated to circulate around the memory card mechanism 7, and heat dissipation efficiency of the ventilation structure in the present embodiment is improved, and structural practicality is strong.

The first frame 4111 in the heat dissipation bracket 41 is further provided with a first air deflector 4115 on the peripheral side thereof, and the first air deflector 4115 is vertically disposed between adjacent imaging mechanisms. The single camera mechanism 2 is located between the adjacent first air deflectors 4115, so that the efficiency of the ventilation structure for radiating heat of the camera mechanism 2 is improved.

In addition, in the embodiment, the top end of the second support plate 4122 is provided with the baffle 4124, the top end of the second support plate 4122 is provided with the heat dissipation fins 422, the heat dissipation fins 422 are located above the second through groove 4122a, and the heat dissipation fins 422 are located between the outer ring of the first frame 4111 and the baffle 4124, and the heat dissipation fins 422 are provided to promote the ventilation efficiency of the ventilation structure to the panoramic camera.

This completes the operation of the ventilation structure for a panoramic camera of the present preferred embodiment.

The central control mechanism 44 in this embodiment includes circuit boards and common circuit devices such as a controller, the connection between the central control mechanism 44 and the fan 43, the camera mechanism 2 and the memory card mechanism 7 is a common circuit connection structure, and the control connection of the central control mechanism 44 is common automation control, which is often applied to modern production and will not be described herein.

In summary, although the present utility model has been described in terms of the preferred embodiments, the above-mentioned embodiments are not intended to limit the utility model, and those skilled in the art can make various modifications and alterations without departing from the spirit and scope of the utility model, so that the scope of the utility model is defined by the appended claims.

Claims (10)

1. A ventilation structure for a panoramic camera, comprising:

a shell, a storage card mechanism is arranged at the center of the inside of the shell, a plurality of camera mechanisms are arranged at the periphery of the shell, a first clamping groove is arranged at the center of the top end of the shell, the first clamping groove is spliced with the storage card mechanism,

the top end of the shell is also provided with a first ventilation hole, the bottom end of the shell is provided with a second ventilation hole, and the first ventilation hole is communicated with the second ventilation hole;

the heat dissipation bracket is arranged inside the shell, a first heat dissipation channel is arranged inside the heat dissipation bracket, the storage card mechanism penetrates through the first heat dissipation channel, a plurality of second heat dissipation channels are arranged on the periphery of the heat dissipation bracket, and the second heat dissipation channels are arranged in a surrounding mode by taking the extending direction of the first heat dissipation channels as the center;

the fan is positioned at the bottom end of the heat radiation support and connected with the bottom end inside the shell, and the fan circulates air flow between the first ventilation hole and the second ventilation hole; and

the central control mechanism is arranged in the shell and between the fan and the heat dissipation bracket, the central control mechanism is inserted into the storage card mechanism, the central control mechanism is connected with the fan, and the central control mechanism supplies power for the fan.

2. The ventilation structure for a panoramic camera according to claim 1, wherein a third ventilation hole is provided at the center of the central control mechanism, and the third ventilation hole is communicated with the first ventilation hole and the second ventilation hole;

the heat dissipation support includes:

the support frame is connected with the inner wall of the shell, the first heat dissipation channel is positioned at the center of the support frame, and

the guide frame is connected with the bottom end of the supporting frame, a plurality of second heat dissipation channels are arranged on the periphery of the guide frame in a surrounding mode, and a plurality of second heat dissipation channels are communicated with the third ventilation holes.

3. The ventilation structure for a panoramic camera of claim 2, wherein the support frame comprises:

the first frame body is provided with a first connecting column connected with the inner wall of the shell at the outer side, and the bottom end of the first frame body is connected with the inner ring of the guide frame;

the first support plates are provided with two groups, the two groups of first support plates are oppositely arranged at two sides in the first frame body, and the first heat dissipation channels are formed between the two groups of first support plates; and

the first deflector is arranged at the bottom end of the supporting frame, the first deflector is used for connecting the first frame body with the first supporting plate, and the first deflector is used for guiding air between the second heat dissipation channel and the third ventilation hole.

4. A ventilation structure for a panoramic camera according to claim 3, wherein air guiding surfaces are disposed between the two sets of first support plates, and the distances between the two sets of air guiding surfaces near one end of the fan are gradually increased.

5. The ventilating structure for a panoramic camera as recited in claim 4, wherein the supporting frame has a polygonal structure, the inner ring structure of the guiding frame is matched with the bottom end structure of the supporting frame,

the bottom end of the supporting frame is spliced with the inner ring of the guide frame.

6. The ventilation structure for a panoramic camera of claim 5, wherein the guide frame comprises:

the second frame body is vertically arranged at the bottom end of the supporting frame, and a first through groove is formed in the side edge of the second frame body;

the second support plate is connected with the top end of the second frame body, is connected with the bottom end of the support frame and is provided with a second through groove; and

the second guide plate is used for connecting the outer side of the second frame body with the bottom end of the second support plate, and a third through groove is formed in the second guide plate and is used for communicating the first through groove with the second through groove, so that the second heat dissipation channel is formed.

7. The ventilation structure for a panoramic camera of claim 6, wherein the second guide plate comprises:

the extension part is vertically connected to the bottom end of the second supporting plate; and

and one end of the second guiding part is connected with the bottom end of the extending part, the other end of the second guiding part is positioned at the bottom end of the first through groove, and the other end of the second guiding part is connected with the outer side of the second frame body.

8. The ventilation structure for a panoramic camera of claim 7, wherein the plane of the air guiding surface and the plane of the second guiding portion are parallel to each other.

9. The ventilation structure for a panoramic camera according to claim 3, wherein a first air deflector is further provided on a peripheral side of the first frame, and the first air deflector is vertically provided between adjacent imaging mechanisms.

10. The ventilating structure for a panoramic camera as recited in claim 8, wherein a baffle is provided at a top end of the second support plate,

the top end of the second supporting plate is provided with radiating fins, the radiating fins are located above the second through groove, and the radiating fins are located between the outer ring of the first frame body and the baffle plate.

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