CN207885067U - Camera, photographic device and unmanned plane - Google Patents

Abstract

It includes shell, lens assembly, sensor assembly and at least a piece of cooling fin that the utility model, which discloses a kind of camera, photographic device and unmanned plane, camera,.Lens assembly is set to enclosure.Sensor assembly is set to enclosure and the rear end set on lens assembly, and sensor assembly includes circuit board and imaging sensor, and imaging sensor is set to the front surface towards lens assembly of circuit board.Cooling fin includes first end and the second end far from first end, and first end is connected to circuit board, and second end is connected to the inner wall of shell, and shell is transferred to via cooling fin for the heat of sensor assembly.

Description

Camera, photographic device and unmanned plane

Technical field

The utility model is related to imaging device technical field, in particular to a kind of camera, photographic device and nobody Machine.

Background technology

Existing camera generally use heat source and shell carry out the heat dissipation design of heat conduction by the way that structural member is connect.For example, The mode of heat pipe is set between the heat source and shell of camera, or heat dissipation is realized using fan enhancing camera inner air convection Mode.It is high, complicated to space requirement, cost is higher however, the above-mentioned existing heat dissipation design for camera.

Utility model content

One main purpose of the utility model is to overcome at least one defect of the above-mentioned prior art, and it is a kind of right to provide Space requirement is relatively low, heat dissipation design simple in structure and lower-cost camera.

Another main purpose of the utility model is to overcome at least one defect of the above-mentioned prior art, provides one kind Photographic device with above-mentioned camera.

Another main purpose of the utility model is to overcome at least one defect of the above-mentioned prior art, provides one kind Unmanned plane with above-mentioned photographic device.

To achieve the above object, the utility model adopts the following technical solution：

One side according to the present utility model, provides a kind of camera, and the camera includes shell, lens assembly, sensing Device module and at least a piece of cooling fin.The lens assembly is set to the enclosure.The sensor assembly is set to described Enclosure and rear end set on the lens assembly, the sensor assembly includes circuit board and imaging sensor, described Imaging sensor is set to the front surface of the direction lens assembly of the circuit board.The cooling fin includes first end and separate The second end of the first end, the first end are connected to the circuit board, and the second end is connected to the inner wall of the shell, For the heat of the sensor assembly shell is transferred to via the cooling fin.

The first end of one of embodiment according to the present utility model, the cooling fin is connected to the circuit board Front surface.

One of embodiment according to the present utility model, the preceding table of the first end of the cooling fin and the circuit board Face fits.

One of embodiment according to the present utility model, the cooling fin are spaced apart with the imaging sensor.

The second end of one of embodiment according to the present utility model, the cooling fin is in bending structure, and makes institute The second end for stating cooling fin is bonded with the inner wall of the shell.

One of embodiment according to the present utility model, the shell offer installation port, the sensor die Block and lens assembly are to be packed into the shell via the installation port and along an installation direction；Wherein, the of the cooling fin The overbending direction at two ends is opposite with the installation direction.

One of embodiment according to the present utility model, the cooling fin further include interconnecting piece, and the interconnecting piece connects It is connected between the first end and second end, is opened up on the interconnecting piece jagged.

One of embodiment according to the present utility model, the camera include cooling fin described in multi-disc, described in multi-disc Cooling fin is spaced apart in the periphery of the circuit board.

One of embodiment according to the present utility model, the cooling fin are graphite flake.

The rear end of one of embodiment according to the present utility model, the lens assembly has end plate, after described End plate offers opening, and optical filter is equipped in the opening.

One of embodiment according to the present utility model, the end plate are equipped with groove, and the opening is arranged in institute It states in groove, the groove is used to accommodate the imaging sensor, keeps the optical filter opposite with the imaging sensor, described Circuit board fits in the end plate.

Other side according to the present utility model, provides a kind of photographic device, the photographic device include camera and It is connected to the holder of the camera, the camera is the camera described in the above embodiment, and the holder is connected to the phase The shell of machine.

Another aspect according to the present utility model, provides a kind of unmanned plane, and the unmanned plane includes fuselage and camera, For the camera by holder axis connection in the fuselage, the camera is the camera described in the above embodiment, the holder Axis connection is between the fuselage and the shell of the camera.

As shown from the above technical solution, the utility model proposes camera, photographic device and the advantages of unmanned plane and product Pole effect is：

The utility model proposes camera, photographic device and unmanned plane, by the way that cooling fin is arranged on sensor assembly, The first end of cooling fin is connected to the circuit board of sensor assembly, and the second end of cooling fin is connected to camera case inner wall Design, can by the imaging sensor of sensor assembly generate heat be transferred to shell via circuit board and cooling fin, from And reach the effect of heat dissipation.The above-mentioned heat dissipation design of the utility model has simple in structure, small to space requirement and cost relatively low The characteristics of.

Description of the drawings

The following detailed description to preferred embodiments of the present invention is considered in conjunction with the accompanying drawings, the utility model Various targets, feature and advantage will become apparent.Attached drawing is only the exemplary diagram of the utility model, not necessarily It is drawn to scale.In the accompanying drawings, same reference numeral always shows same or similar component.Wherein：

Fig. 1 is that the assembling of the lens assembly and sensor assembly of a kind of camera shown according to an illustrative embodiments is shown It is intended to；

Fig. 2 is the structural schematic diagram of the sensor assembly of the camera shown in Fig. 1；

Fig. 3 is the assembling schematic diagram of the lens assembly and shell with sensor assembly of the camera shown in Fig. 1；

Fig. 4 is the structural schematic diagram of the camera and holder axis of a kind of unmanned plane shown according to an illustrative embodiments.

Wherein, the reference numerals are as follows：

100. camera；

110. shell；

111. inner cavity；

112. rear port；

113. installing pipe；

120. lens assembly；

121. end plate；

1211. the first mounting hole；

1212. opening；

1213. third mounting hole；

1214. injecting glue slot；

122. optical filter；

123. groove；

130. sensor assembly；

131. circuit board；

1311. the second mounting hole；

1312. connectivity port

132. imaging sensor；

140. cooling fin；

141. first end；

142. second end；

143. interconnecting piece；

1431. notch；

200. holder axis；

X. installation direction.

Specific implementation mode

Embodying the exemplary embodiments of the utility model features and advantages will describe in detail in the following description.It should be understood that Various variations can be had in different embodiments by being the utility model, all not depart from the scope of the utility model, and Explanation therein and attached drawing are inherently illustrative, rather than to limit the utility model.

In being described below the different illustrative embodiments to the utility model, carried out with reference to attached drawing, the attached drawing The part of the utility model is formed, and wherein shows many aspects of achievable the utility model by way of example not Same example arrangement, system and step.It should be understood that other of component, structure, exemplary means, system and step can be used Specified scheme, and structural and functional modification can be carried out without departing from the scope of the utility model.Although moreover, originally Can be used in specification term " end ", " between ", " side " etc. the different example features and element of the utility model are described, But these terms are in this article merely for convenient, such as with reference to the accompanying drawings described in exemplary direction.In this specification Any content is not necessarily to be construed that the specific three dimensional direction of Structure of need is just fallen into the scope of the utility model.

Camera embodiment

Refering to fig. 1, the part-structure that the camera that can embody the principles of the present invention is representatively illustrated in Fig. 1 shows It is intended to, the lens assembly of camera and the assembling schematic diagram of sensor assembly has been shown in particular.In the illustrative embodiments, this The camera that utility model proposes is said for applied to the photographic device with holder or the unmanned plane with holder axis It is bright.It will be readily appreciated by those skilled in the art that for by the relevant design of the camera be applied to other kinds of photographic device or Unmanned plane, and a variety of remodeling, addition, replacement, deletion or other variations are made to following specific implementation modes, these variations are still The utility model proposes camera principle in the range of.

As shown in Figure 1, coordinate simultaneously refering to Fig. 2 and Fig. 3, in the present embodiment, the utility model proposes camera 100 Include mainly shell 110, lens assembly 120, sensor assembly 130 and two panels cooling fin 140.It is representatively shown in Fig. 2 The structural schematic diagram of the sensor assembly 130 of the camera 100 of the utility model principle can be embodied；Typically show in Fig. 3 The lens assembly 120 and shell 110 with sensor assembly 130 of the camera 100 of the utility model principle are gone out to embody Assembling schematic diagram.Below in conjunction with above-mentioned attached drawing, to the utility model proposes camera 100 each chief component knot Structure, connection type and functional relationship are described in detail.

As shown in Figure 1 to Figure 3, in the present embodiment, lens assembly 120 and sensor assembly 130 are installed in shell In 110 inner cavity 111, and sensor assembly 130 is mounted on the rear end of lens assembly 120.That is, lens assembly 120 and sensor When module 130 is packed into the inner cavity 111 of shell 110, sensor assembly 130 is compared with lens assembly 120 close to the rear port of shell 110 112.Sensor assembly 130 includes mainly circuit board 131 and imaging sensor 132.Circuit board 131 can be, for example, pcb board, The front surface towards lens assembly 120 in circuit board 131 is arranged in imaging sensor 132, and imaging sensor 132 is located substantially at The middle part of circuit board 131.

Further, as shown in Figure 1, in the present embodiment, the rear end of lens assembly 120 has end plate 121, after this End plate 121 is opened up there are three the first mounting hole 1211, opens up that there are three the second installations on the circuit board 131 of sensor assembly 130 Hole 1311, and three the second mounting holes 1311 correspond respectively to three the first mounting holes 1211, sensor assembly 130 is by wearing It is connected to the end plate 121 of lens assembly 120 in the screw of the first mounting hole 1211 and the second mounting hole 1311.

In other embodiments, lens assembly 120 is not limited to the structure with end plate 121, i.e. sensor assembly 130 can be connected in the other structures of 120 rear end of lens assembly.First mounting hole 1211, the second mounting hole 1311 and screw Quantity be not limited to three, the quantity of three can be multiple respectively, and the quantity of three is equal.In addition, sensor assembly 130 It also can be by being connected to lens assembly 120 set on the other kinds of connector of the first mounting hole 1211 and the second mounting hole 1311 End plate 121, which can be, for example, rivet or positioning pin.Furthermore end plate 121 is based on by sensor assembly 130 The design connected with lens assembly 120 can be further convenient for adjusting the installation site of sensor assembly 130.

In addition, as shown in Figure 1, in the present embodiment, the rear surface of end plate 121 is further opened with multiple injecting glue slots 1214, viscose glue is perfused in injecting glue slot 1214, and when sensor assembly 130 is connected to end plate 121, it is bonded in using viscose glue Between end plate 121 and circuit board 131, reach the effect of auxiliary connection.Further, above-mentioned viscose glue can preferably use heat conduction The heat conductivilitys such as silica gel are preferable and have the heat-conducting glue of electrical insulation capability, to further promote the effect of auxiliary heat dissipation.

As shown in Figure 1, in the present embodiment, lens assembly 120 further includes being arranged in the front surface side of end plate 121 Optical filter 122.121 middle part of end plate offers opening 1212, and optical filter 122 is installed in the opening 1212.Further, End plate 121 is arranged fluted 123, and above-mentioned opening 1212 is opened in groove 123, such as the slot bottom in groove 123 is arranged. When sensor assembly 130 is mounted on the end plate 121 of lens assembly 120, imaging sensor 132 is housed in the groove 123, Optical filter 122 is opposite with imaging sensor 132, and circuit board 131 (including cooling fin 140) fits with end plate 121.Pass through Above-mentioned design, the heat that imaging sensor 132 generates can be transferred to end plate 121 via circuit board 131, to utilize rear end Plate 121 reaches the effect of auxiliary heat dissipation.

Further, as shown in figure 3, in the present embodiment, the rear end of shell 110, which offers, is communicated in its inner cavity 111 Rear port 112, so that sensor assembly 130 and lens assembly 120 are packed into shell 110 via rear port 112.Shell 110 Inner wall is equipped with more installing pipes 113, and 121 periphery of end plate offers multiple third mounting holes 1213, and multiple thirds are pacified Dress hole 1213 corresponds respectively to more installing pipes 113, and lens assembly 120 is by being arranged in installing pipe 113 and third mounting hole 1213 screw is connect with shell 110.By above-mentioned design, imaging sensor 132 is transferred to the partial heat energy of end plate 121 It is enough to be further transferred to shell 110 via screw and installing pipe 113, to optimize the effect of auxiliary heat dissipation.

In other embodiments, shell 110 is not limited to the structure with installing pipe 113, i.e. lens assembly 120 can be with It is connect by other means with shell 110.In addition, lens assembly 120 also can be by being set to installing pipe 113 and third mounting hole 1213 other kinds of connector is connect with the shell 110 of camera 100, which can be, for example, rivet or positioning pin.

As shown in Figure 1 to Figure 3, in the present embodiment, cooling fin 140 can be preferably graphite flake and cooling fin 140 Quantity is two panels, and two panels cooling fin 140 is connected to the upper/lower terminal of sensor assembly 130.Specifically, every heat dissipation Piece 140 can be greatly classified into first end 141, second end 142 and interconnecting piece 143.Wherein, the first end 141 of cooling fin 140 connects It is connected on the circuit board 131 of sensor assembly 130.Second end 142 extends far from first end 141, and works as 130 He of sensor assembly When lens assembly 12 is packed into the inner cavity 111 of shell 110, second end 142 is connected to the inner wall of shell 110, and second end 142 abuts Separately in the position of 110 inner wall of shell and the position that above-mentioned installing pipe 113 is arranged of 110 inner wall of shell.Interconnecting piece 143 connects Between first end 141 and second end 142.By said structure design, the imaging sensor 132 of sensor assembly 130 generates Heat can be transmitted to shell 110 via circuit board 131 and cooling fin 140, to realize the effect of heat dissipation.

Further, as shown in Fig. 2, in the present embodiment, the first end 141 of cooling fin 140 not with imaging sensor 132 contacts, i.e. cooling fin 140 are distributed in imaging sensor 132 in the front surface of circuit board 131.Pass through above structure Design, the direction of heat transfer is substantially in radiation processes：132 → circuit board of imaging sensor, 131 → cooling fin 140 (first Hold 141 → interconnecting piece 143 → second end 142) → shell 110, to while ensureing heat dissipation effect, avoid radiator structure and Imaging sensor 132 is in direct contact and influences its normal operation.

Further, as shown in Fig. 2, in the present embodiment, the first end 141 of cooling fin 140 with before circuit board 131 Surface is the connection type using fitting.By said structure design, the contact of cooling fin 140 and circuit board 131 can be increased Area to improve radiating efficiency, while can utilize the connection type enhancing cooling fin 140 and circuit board 131 of face contact Bonding strength.

Further, as shown in Figure 1 to Figure 3, in the present embodiment, the second end 142 of cooling fin 140 is designed as bendable The structure of folding.When the lens assembly 120 with sensor assembly 130 is fitted into along an installation direction X in shell 110, cooling fin 140 second end 142 is bent with respect to first end 141 (or interconnecting piece 143), and the overbending direction of second end 142 and installation direction X It is substantially opposite, to still be connected to the inner wall of shell 110 in such a way that face contacts after so that second end 142 is bent.Pass through above-mentioned knot Structure designs, and can increase the contact area of cooling fin 140 and 110 inner wall of shell, to improve radiating efficiency, while can utilize The elastic recovery trend of bending structure makes cooling fin 140 be connected to the inner wall of shell 110, ensures closely heat dissipation contact.In addition, Since overbending direction and the installation direction X of second end 142 in sensor assembly 130 and lens assembly 120 on the contrary, be packed into shell During 110, cooling fin 140 and the inner wall of shell 110 can be avoided to generate interim card, to promote 130 He of sensor assembly Lens assembly 120 is packed into smooth degree when shell 110.

Further, as shown in Fig. 2, in the present embodiment, being opened up on the interconnecting piece 143 of cooling fin 140 jagged 1431.By said structure design, when sensor assembly 130 is installed on lens assembly 120, or sensor assembly is carried When 130 lens assembly 120 is installed in shell 110, the notch 1431 on the interconnecting piece 143 of cooling fin 140 is for connection member The projective structure of cable, connector (such as screw) or connecting element itself between part passes through, avoid cooling fin 140 with it is above-mentioned Structure generates interference.It is easily understood that the notch 1431 on the interconnecting piece 143 of cooling fin 140 can be according to there may be interference The flexible designs such as location and shape of structure, be not limited with present embodiment.Therefore, the not company of every cooling fin 140 Notch 1431 is respectively provided in socket part 143, and the number and shape for the notch 1431 being arranged on every cooling fin 140 are not unique. Furthermore since interconnecting piece 143 is only the region marked off on cooling fin 140 according to the difference of institute's connection structure, work as When cooling fin 140 does not have interconnecting piece 143, notch 1431 is also alternatively positioned in its first end 141 or second end 142, i.e., Any position can be according to need to open up notch 1431 on cooling fin 140.

It should be noted that in other embodiments, the quantity of cooling fin 140 and distribution be not unique.According to camera Shape, the connection relation of structure and each section element, the quantity of cooling fin 140 can be a piece of, two panels or two panels or more, i.e., The utility model proposes camera include at least a piece of cooling fin 140.Wherein, when the quantity of cooling fin 140 is multi-disc, distribution Mode can be preferably to be spaced apart in the periphery of the circuit board 131 of sensor assembly 130, i.e. the inner surface in circuit board 131 Part close to periphery is spaced apart and extends outwardly.

In conclusion the utility model proposes camera by the way that cooling fin is arranged on sensor assembly, by cooling fin First end is connected to the circuit board of sensor assembly, and the second end of cooling fin is connected to the design of camera case inner wall, energy The heat that enough imaging sensors by sensor assembly generate is transferred to shell via circuit board and cooling fin, to reach heat dissipation Effect.The above-mentioned heat dissipation design of the utility model has the characteristics that simple in structure, small to space requirement and lower-cost.

It should be noted here that being shown in attached drawing and the camera that describes in the present specification is only can use this practicality newly A many kinds of magazine examples of type principle.It should be clearly understood that the principles of the present invention are only limitted to absolutely not attached drawing In show or any details of camera described in this specification or any part of camera.

Photographic device embodiment

Below to the utility model proposes illustrative embodiments of photographic device illustrate.In present embodiment In, the utility model proposes photographic device be based on being illustrated for the photographic device with holder and camera.This field Technical staff is it is easily understood that for by photographic device of the design applied to other structures in the embodiment, and to following Specific implementation mode make a variety of remodeling, addition, substitute, delete or other variations, these variations still carry in the utility model In the range of the principle of the photographic device gone out.

In the present embodiment, the utility model proposes display device include mainly camera and be connected to the cloud of camera Platform.Wherein, which is the camera described in the above embodiment, and holder is connected to the shell of camera.

In addition, in the present embodiment, connectivity port is additionally provided on circuit board, for other yuan with photographic device Part connects, such as connection camera control element, the functions such as zoom and focusing to control camera.

In conclusion the utility model proposes photographic device, by using the utility model proposes camera, so that camera shooting is filled The heat dissipation design set has the characteristics that simple in structure, small to space requirement and lower-cost.

It should be noted here that being shown in attached drawing and the photographic device that describes in the present specification is only can use this reality With an example in many kinds of photographic devices of new principle.It should be clearly understood that the principles of the present invention are absolutely not only It is limited to show in attached drawing or any details of photographic device described in this specification or any part of photographic device.

Unmanned aerial vehicle mode

Refering to Fig. 4, the part-structure for the unmanned plane that can embody the principles of the present invention is representatively illustrated in Fig. 4 Schematic diagram, the camera and the structural schematic diagram after the combination of holder axis that unmanned plane has been shown in particular.In the illustrative embodiments, The utility model proposes unmanned plane be to be illustrated for the unmanned plane of camera is installed by holder axis.Art technology Personnel it is easily understood that for by the relevant design of the unmanned plane be applied to the other kinds of aircraft with camera function, And a variety of remodeling, addition, replacement, deletion or other variations are made to following specific implementation modes, these variations are still in this reality In the range of principle with the unmanned plane of novel proposition.

In the present embodiment, the utility model proposes unmanned plane mainly include fuselage and camera.Wherein, such as Fig. 4 Shown, which is the camera 100 described in the above embodiment, and camera 100 is connected to fuselage, holder by holder axis 200 Axis 200 is connected between fuselage and the shell 110 of camera 100.

In the present embodiment, the utility model proposes display device include mainly camera and be connected to the cloud of camera Platform.Wherein, which is the camera described in the above embodiment, and holder is connected to the shell of camera.

In addition, in the present embodiment, cooperation refering to fig. 1, also sets up that there are two connect on the circuit board 131 of camera 100 Connect port 1312, be respectively used to connect with the other elements of camera or unmanned plane, for example, respectively with camera control element and nobody The fuselage of machine connects, the functions such as zoom and focusing to control camera.

In conclusion the utility model proposes unmanned plane, by using the utility model proposes camera, make unmanned plane Heat dissipation design has the characteristics that simple in structure, small to space requirement and lower-cost.

It should be noted here that being shown in attached drawing and the unmanned plane that describes in the present specification is only can use this practicality An example in many kinds of unmanned planes of new principle.It should be clearly understood that the principles of the present invention are only limitted to absolutely not It is shown in attached drawing or any details of unmanned plane described in this specification or any part of unmanned plane.

It is described in detail above and/or illustrate the utility model proposes holder camera, camera cradle head and unmanned plane Illustrative embodiments.But the embodiment of the utility model is not limited to particular implementation as described herein, on the contrary, often The component part and/or step of a embodiment can be independent with other component parts as described herein and/or step and be separated It uses.Each component part of one embodiment and/or each step also can be with other component parts of other embodiment And/or step is used in combination.Introduce it is described here and/or diagram element/component part/wait whens, term "one", " one " and " above-mentioned " etc. to indicate there are one or more elements/component part/etc..Term "comprising", " comprising " and " tool Have " it can also be deposited other than waiting to indicate the open meaning being included and refer to element/component part/in addition to listing Other element/component part/etc..In addition, the term " first " and " second " etc. in claims and specification are only made It is used for label, is not the numerical limit to its object.

Although according to different specific embodiments to the utility model proposes holder camera, camera cradle head and nobody Machine is described, but it will be recognized by those skilled in the art can be in the spirit and scope of the claims to the utility model Implementation be modified.

Claims (13)

1. a kind of camera, which is characterized in that the camera includes：

Shell；

Lens assembly is set to the enclosure；

Sensor assembly, is set to the enclosure and the rear end set on the lens assembly, and the sensor assembly includes electricity Road plate and imaging sensor, the imaging sensor are set to the front surface of the direction lens assembly of the circuit board；With And

At least a piece of cooling fin, the cooling fin include first end and the second end far from the first end, and the first end connects Be connected to the circuit board, the second end is connected to the inner wall of the shell, for the sensor assembly heat via institute It states cooling fin and is transferred to the shell.

2. camera according to claim 1, which is characterized in that the first end of the cooling fin is connected to the circuit board Front surface.

3. camera according to claim 2, which is characterized in that the preceding table of the first end of the cooling fin and the circuit board Face fits.

4. camera according to claim 2, which is characterized in that the cooling fin is spaced apart with the imaging sensor.

5. camera according to claim 1, which is characterized in that the second end of the cooling fin is in bending structure, and makes institute The second end for stating cooling fin is bonded with the inner wall of the shell.

6. camera according to claim 5, which is characterized in that the shell offers installation port, the sensor die Block and lens assembly are to be packed into the shell via the installation port and along an installation direction；Wherein, the of the cooling fin The overbending direction at two ends is opposite with the installation direction.

7. camera according to claim 1, which is characterized in that the cooling fin further includes interconnecting piece, and the interconnecting piece connects It is connected between the first end and second end, is opened up on the interconnecting piece jagged.

8. camera according to claim 1, which is characterized in that the camera includes cooling fin described in multi-disc, described in multi-disc Cooling fin is spaced apart in the periphery of the circuit board.

9. according to claim 1~8 any one of them camera, which is characterized in that the cooling fin is graphite flake.

10. camera according to claim 1, which is characterized in that the rear end of the lens assembly has end plate, after described End plate offers opening, and optical filter is equipped in the opening.

11. camera according to claim 10, which is characterized in that the end plate is equipped with groove, and the opening setting exists In the groove, the groove keeps the optical filter opposite with the imaging sensor, institute for accommodating the imaging sensor It states circuit board and fits in the end plate.

12. a kind of photographic device, including camera and the holder for being connected to the camera, the camera is claim 1~11 Any one of them camera, the holder are connected to the shell of the camera.

13. a kind of unmanned plane, including fuselage and camera, the camera is by holder axis connection in the fuselage, the camera For claim 1~11 any one of them camera, the holder axis connection is between the fuselage and the shell of the camera.