CN212064162U - Linear type liftable camera - Google Patents

Abstract

The utility model discloses a rectilinear liftable camera, it includes box body, camera module and drive module, the box body includes the loading board, is used for bearing the camera module with drive module, be equipped with the track region and the lift hole that supply the camera module to go up and down in the box body, the camera module install in the track region, on the camera module and the box body be equipped with the direction subassembly jointly in the track region, under drive module and direction subassembly's combined action, the camera module along the track region carries out sharp lift, stretches out through the lift hole the box body or return back to in the box body. The utility model discloses an among the orthoscopic liftable camera, the camera module can carry out sharp lift in predetermineeing the track region, and the lift process is more steady to installation in the box body is more firm, prolongs the life of camera, widens its application scene.

Description

Linear type liftable camera

Technical Field

The utility model relates to a camera technical field specifically is a but relates to a orthoscopic elevating camera.

Background

With the rapid development of science and technology, products requiring cameras are increasing, such as televisions, monitors, security equipment, conference machines and the like. Most cameras in the market are mounted outside products in an accessory mode or inside the products, the lifting function is not provided, the cameras are mounted outside the products, the integrity of the products is poor, the products are not attractive enough, the risk of colliding and damaging parts in the transportation process is high, and the transportation is not facilitated; install the inside camera of product, need reserve sufficient space in the product inside, lead to the too big product competitiveness that reduces of machine frame size. The part has the product of lift camera in market, and the camera is as a part of product, and fixed connection is on the product, can not take out and use on other products, and it is limited to use the scene, and lacks the direction to camera lift direction for the deviation appears in lift direction, and the lift process is steady inadequately, and when the camera received external force striking, the camera rocked easily, influences the camera effect and fragile camera, and it is higher to change the camera cost.

In view of the above, it is desirable to provide a novel linear type liftable camera to solve the above-mentioned drawbacks.

SUMMERY OF THE UTILITY MODEL

The utility model provides a orthoscopic liftable camera aims at solving current camera and uses the scene limited, inconvenient transportation, rocks easily and easily damage scheduling problem.

In order to solve the technical problem, the utility model provides a orthoscopic liftable camera, it includes: the camera module comprises a box body, a camera module and a driving module; the box body comprises a bearing plate for bearing the camera module and the driving module, a top plate is arranged at the top of the bearing plate, a lifting hole for the camera module to pass through is formed in the top plate, and a track area for the camera module to lift is arranged in the box body; the camera module is arranged in the track area, and guide assemblies are arranged on the camera module and in the track area of the box body together so as to guide the lifting action of the camera module in a straight line; the driving module is installed on the bearing plate and connected with the camera module and used for driving the camera module to linearly lift along the track area between a first position and a second position, when the camera module is located at the first position, the camera module retracts into the box body, and when the camera module is located at the second position, the camera module extends out of the box body through the lifting hole. Based on this structural design, but linear type elevating camera is under drive module and guide assembly's combined action, and the camera module is in the track is regional sharp lift, and the lift process is more steady, and the camera module is installed more firmly in the box body simultaneously, is difficult to rock.

Preferably, the camera module includes camera subassembly and the support that is used for fixed camera subassembly, the support including have the shell of acceping the chamber and with the rectangular shape casing that the shell links to each other, camera subassembly includes camera sensor and camera drive plate, camera sensor accept in the shell, the shell is equipped with the confession the through-hole that camera sensor looked the frame, rectangular shape casing with drive module links to each other. Based on the structural design, the camera assembly is fixed on the support, the support is connected with the driving module, and the camera sensor is driven to ascend and descend to a proper position to view while being fixed and protected.

Preferably, the guide assembly comprises a first guide assembly, and the first guide assembly comprises a guide rail part and a slide rail part matched with the guide rail part; the guide rail part is arranged on the box body, and the slide rail part is arranged on the bracket; or, the guide rail part is arranged on the bracket, and the slide rail part is arranged on the box body. Based on the mutual cooperation of the guide rail component and the slide rail component, the camera module is guided by a simple structure, the whole structure is more compact, and the lifting of the camera module is more stable.

Preferably, the guide rail part is a protrusion, and the slide rail part is a long strip-shaped groove matched with the protrusion; the protrusion is arranged on the top plate at a position close to the lifting hole, the protrusion is of a cylindrical structure with a smooth head, the elongated groove is arranged on the shell of the bracket, and the protrusion can be clamped in the elongated groove and can slide back and forth in the elongated groove. Based on the structural design, when the bulges of the cylindrical structure with smooth head are clamped into the grooves to slide back and forth, the friction resistance is smaller, so that the lifting process is smoother.

Preferably, the guide assembly comprises a second guide assembly, and the second guide assembly comprises at least one pair of support plates and two slide rails limited on the support plates to slide; the at least one pair of supporting sheets are arranged in the track area on the bearing plate; the two slide ways are arranged on the support of the camera module, the strip-shaped shell of the support comprises a guide bottom plate and guide side plates arranged on two sides of the guide bottom plate, the guide side plates are perpendicular to the guide bottom plate, and the lower ends of the guide side plates protrude out of one side, close to the bearing plate, of the guide bottom plate to serve as the slide ways; the at least one pair of supporting pieces are arranged on the inner sides of the two slideways, and each supporting piece is attached to the corresponding inner side of the slideway so as to support the camera module and limit the lifting direction of the camera module. Based on this structural design, can realize realizing the support and the direction to the camera module with simple structure simultaneously, overall structure is more compact and makes the lift of camera module more steady.

Preferably, the guide assembly further comprises a third guide assembly, and the third guide assembly comprises a limit stud fixed on the bearing plate, a limit screw matched with the limit stud and strip-shaped openings arranged on the inner sides of the two slideways on the guide bottom plate; the extension direction of the bar-shaped opening hole is consistent with the extension direction of the slide way, the limiting screw penetrates through the bar-shaped opening hole and is fixedly connected with the limiting stud, and the third guiding assembly is used for limiting the camera module to slide back and forth along the linear direction and limiting the maximum sliding amplitude of the camera module. Based on the structural design, the structure is simpler through the limiting stud, the limiting screw and the strip-shaped open hole for limiting the maximum sliding amplitude of the camera module.

Preferably, the at least one pair of support plates comprises a first pair of support plates and a second pair of support plates; the first pair of supporting pieces are arranged at the positions corresponding to the upper ends of the slideways when the camera module is at the first position, and the second pair of supporting pieces are arranged at the positions corresponding to the lower ends of the slideways when the camera module is at the first position; the limiting stud of the third guide assembly is arranged in the middle of the first pair of support sheets. Based on the structural design, the long strip-shaped shell is in any stroke of the lifting process, the slide is limited by the supporting sheet, the strip-shaped opening is limited by the limiting screw, so that the long strip-shaped shell linearly slides along the track area, and the sliding process is more stable.

Preferably, the camera module further comprises a connecting plate connecting the camera sensor and the camera driving plate; the shell of the bracket comprises a first shell and a second shell, the first shell is provided with a top panel which is consistent with the shape of the lifting hole, a first side panel which is arranged on one side of the top panel and is vertical to the top panel, the second shell is provided with a second side panel which is corresponding to the first side panel and a bottom panel which is corresponding to the top panel, and the edges of two sides of the first side panel and the second side panel are both provided with a channel structure; the first shell and the second shell are fixed to form an accommodating cavity together to accommodate the camera sensor and part of the connecting plate, and the two channel structures form the long-strip-shaped groove together; a fixing frame is arranged at one end, close to the top panel, in the accommodating cavity so as to fix the camera sensor; the connecting part of the bottom panel of the second shell and the elongated shell is provided with a hole, the connecting plate penetrates through the hole, and the camera driving board is fixed on the elongated shell. Based on this structural design, but the split the support is more convenient for install and demolish the camera subassembly, increases the mount can make the camera sensor more firm in the support set up on the support with drive module is connected connecting portion with be used for the direction function the bar trompil the slide with rectangular shape recess makes the functional design of support is compacter.

Preferably, the bearing plate is provided with a view finding hole for the camera module to find a view, and when the camera module is located at the first position, the camera sensor aligns with the view finding hole on the bearing plate. The loading board sets up the hole of finding a view, is convenient for when the box body is installed in the product outside, and the camera module can shoot in the box body, widens the use scene.

Preferably, the driving module includes a screw motor, the screw motor is fixedly mounted on the bearing plate and located on one side of the camera module, the screw motor is provided with a threaded rod, one end of the threaded rod is provided with a driving part, and the driving part is connected with the camera module to drive the camera module to linearly lift along the track region between the first position and the second position. The camera module is driven to lift along the track area by the screw rod motor with the threaded rod, so that the camera module starts and stops working at any position between the first position and the second position, and the lifting process is more controllable.

Compared with the prior art, the utility model provides a rectilinear lifting camera through the design of direction subassembly for the camera module carries out sharp lift in predetermineeing the track region, and the lift process is more steady, and makes the installation of camera module in the box body more firm, reduces the outside camera module that causes of colliding with rocking in the box body. This rectilinear liftable camera is from taking the box body, and its whole mountable is in the outside or inside of product, uses the scene more nimble and product appearance wholeness is good, does not have the sense of piecing together. Can shoot when the camera module stretches out from the box body is inside, when the camera module withdraws in the box body, make things convenient for the transportation of product, reduce the risk of colliding with the damage part, prolong the life of camera.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings required to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without any creative effort.

Fig. 1 is a perspective view of the linear elevating camera (after the connecting plate is removed) of the present invention, showing the camera module in the first position;

fig. 2 is another perspective view of the linear type liftable camera of the present invention, which shows the state of the camera module at the second position;

fig. 3 is a left side view of the linear type liftable camera shown in fig. 1;

fig. 4 is a left side view of the linear type liftable camera shown in fig. 2;

fig. 5 is a perspective view of a camera module in the linear type liftable camera of the present invention;

fig. 6 is an exploded perspective view of the camera module shown in fig. 5;

fig. 7 is the schematic diagram of the linear type liftable camera of the present invention after the camera module is removed.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, of the embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the present invention, directional terms such as "up", "down", "front", "back", "left", "right", "inside", "outside", "side", etc. refer to directions of the attached drawings only. Accordingly, the directional terms used are used for describing and understanding the present invention, and are not used for limiting the present invention. Further, in the drawings, structures that are similar or identical are denoted by the same reference numerals.

Referring to fig. 1 to 7, an embodiment of a linear type liftable camera 100 provided by the present invention is shown. The linear type liftable camera 100 designed in the box type can be applied to products needing to use the camera, such as televisions, monitors, security equipment, conference machines and the like, and can be installed inside the machine or outside the machine. Specifically, as shown in fig. 1 to 4 in combination with fig. 7, in the present embodiment, the linear type liftable camera 100 includes: a case 10, a camera module 20, and a driving module 30; the box body 10 comprises a bearing plate 11 for bearing the camera module 20 and the driving module 30, a top plate 12 is arranged at the top of the bearing plate 11, a lifting hole 13 for the camera module 20 to pass through is formed in the top plate 12, and a track area 14 for the camera module 20 to lift is arranged in the box body 10; the camera module 20 is installed in the track area 14, and guide assemblies (including 41, 42 and 43) are provided on the camera module 20 and in the track area 14 of the case 10 to linearly guide the elevating movement of the camera module 20.

The driving module 30 is mounted on the carrying plate 11 and connected to the camera module 20 for driving the camera module 20 to linearly move up and down along the track region 14 between a first position shown in fig. 1, in which the camera module 20 is retracted into the case 10, and a second position shown in fig. 2, in which the camera module 20 is extended out of the case 10 through the lifting hole 13.

Through the above design, the linear liftable camera 100 is linearly lifted in the preset track area 14 under the driving action of the driving module 30 and the guiding action of the guiding assembly (including 41, 42 and 43), and the lifting process is more stable, and meanwhile, the camera module 20 is more stable and is not easy to shake when being installed in the box body 10 through the limitation of the guiding assembly (including 41, 42 and 43).

In some embodiments, for example, in the present embodiment, as shown in fig. 1 to 2 and 5 to 7, the driving module 30 includes a lead screw motor 31, the lead screw motor 31 is fixedly mounted on the bearing plate 11 and located at one side of the camera module 20, the lead screw motor 31 is provided with a threaded rod 32, one end of the threaded rod 32 is provided with a driving portion 33, and the camera module 20 is provided with a connecting portion 27 connected to the driving portion 33. A guide rod 36 is disposed beside the threaded rod 32 of the lead screw motor 31, the guide rod 36 is parallel to the threaded rod 32 and fixed on the lead screw motor 31, a hole (not shown) is disposed at a position where the driving part 33 passes through the guide rod 36, and the guide rod 36 enables the driving part 33 to be lifted and lowered more stably in the direction of the threaded rod 32 when the threaded rod 32 rotates. The driving sheet 34 is arranged at one end of the driving part 33 connected with the connecting part 27, the driving sheet 34 can be clamped into a groove type structure of the connecting part 27 of the camera module 20, the driving part 33 is fixedly connected with the connecting part 27 when the driving sheet 34 is clamped into the connecting part 27, the inner wall of the groove type structure of the connecting part 27 is provided with stripes 35, the friction force between the connecting part 27 and the driving sheet 34 is increased, and the driving sheet 34 and the connecting part 27 are convenient to disassemble and assemble and are more stably connected. The screw motor 31 starts to work after receiving an external instruction, the threaded rod 32 rotates and drives the driving part 33 to link with the connecting part 27 to lift along the direction of the threaded rod 32, so that the camera module 20 extends out of the box body 10 or retracts into the box body 10 through the lifting hole 13 under the driving action of the driving module 30, the screw motor 31 controls the camera module 20 to start and stop working at any position between the first position and the second position, and the lifting process is more controllable.

In some embodiments, for example, in the present embodiment, as shown in fig. 5 and 6, the camera module 20 includes a camera assembly 21 and a bracket 22 for fixing the camera assembly 21, the bracket 22 includes a housing 221 having a receiving cavity and an elongated housing 222 connected to the housing 221, and the camera assembly 21 includes a camera sensor 211, a camera driving board 212, and a connecting board 213 connecting the camera sensor 211 and the camera driving board 212. The camera sensor 211 is housed in the case 221. The housing 221 of the bracket 22 includes a first housing 2211 and a second housing 2212, the first housing 2211 has a top panel 2211a corresponding to the lifting hole 13 of the top plate 12, a first side panel 2211b perpendicular to the top panel 2211a and disposed on one side of the top panel 2211a, the second housing 2212 has a bottom panel 2212a corresponding to the top panel 2211a and a second side panel 2212b corresponding to the first side panel 2211b, the first housing 2211 and the second housing 2212 are fixed by a first fastener 23, the first fastener 23 includes a stud 231 disposed on the inner side of the first side panel 2211b, a screw hole 232 disposed on the second side panel 2212b, and a screw (not shown) passing through the screw hole 232 and engaging with the stud 231, and the first housing 2211 and the second housing 2212 are fixed to form a receiving cavity together to receive the camera sensor 211 and a portion of the connecting plate 213. The use of a detachable housing 221 facilitates the assembly and disassembly of the camera assembly 21 with the bracket 22. A through hole 24 is formed at an end of the first side panel 2211b close to the top panel 2211a, the camera sensor 211 views through the through hole 24, and a fixing frame 25 is disposed around the through hole 24 to fix the camera sensor 211, so that the camera sensor 211 is more stable in the bracket 22. The bottom panel 2212a and the second side panel 2212b of the second housing 2212 are provided with holes 2212c at one end connected to the elongated housing 222, the connecting plate 213 passes through the holes 2212c, the camera driving plate 212 is fixed to the elongated housing 222 by the second fastening member 26, and the second fastening member 26 includes studs 261 provided at both sides of the elongated housing 222, screw holes 262 provided on the camera driving plate 212, and screws (not shown) passing through the screw holes 262 to engage with the studs 261. The connecting portion 27 for connecting the lead screw motor 31 is provided on the side of the elongated housing 222 close to the lead screw motor 31. The bracket 22 is provided with the connecting part 27 connected with the driving module 30, and the strip-shaped opening 433, the slide way 422 and the strip-shaped groove 412 for guiding function, so that the functional design of the bracket 22 is more compact.

In some embodiments, for example, in the present embodiment, as shown in fig. 7, the bearing plate 11 is provided with a viewing hole 15 for viewing the camera module 20, the viewing hole 15 is provided at a position on the bearing plate 11 corresponding to the camera sensor 211 when the camera module 20 is at the first position, and when the case 10 is installed outside the product, the camera module 20 can take a picture in the case 10, so as to widen the use scene.

In some embodiments, for example, in the present embodiment, as shown in fig. 1 to 2 and 5 to 7, the guiding assembly includes a first guiding assembly 41, the first guiding assembly 41 includes a guiding rail component and a sliding rail component matching with the guiding rail component, and based on the matching of the guiding rail component and the sliding rail component, the guiding of the camera module 20 is realized with a simple structure, the overall structure is more compact, and the lifting of the camera module 20 is more stable. In the embodiment of the present invention, the guide rail member is a protrusion 411, the slide rail member is a strip-shaped groove 412, and the protrusion 411 can be engaged in the strip-shaped groove 412 and slide back and forth in the strip-shaped groove 412. The elongated groove 412 is disposed on the housing 221 of the bracket 22, the two side edges of the first side panel 2211b and the second side panel 2212b are both provided with channel structures 4121, the two channel structures 4121 on the same side form the elongated groove 412 after the first housing 2211 and the second housing 2212 are fastened, the protrusion 411 is disposed below the lifting hole 13 on the top plate 12, the protrusion 411 is a cylindrical structure with a smooth head, the inner diameters of the elongated groove 412 and the protrusion 411 are the same, the height of the protrusion 411 extending out of the lifting track of the camera module 20 is the same as the depth of the elongated groove 412, the elongated groove 412 and the protrusion 411 are matched to guide the sliding direction of the housing 221 of the bracket 22, and when the protrusion 411 of the cylindrical structure with a smooth head slides in cooperation with the elongated groove 412, the friction resistance is smaller, so that the lifting process is smoother. In other embodiments, a raised track member may be provided on the frame 22 and a track member may be provided on the housing 10.

In some embodiments, such as the present embodiment, as shown in fig. 2 and 6-7, the guiding assembly includes a second guiding assembly 42, and the second guiding assembly 42 is used for supporting the bracket 22 while limiting the lifting direction of the camera module 20. The second guiding assembly 42 includes at least a pair of supporting plates 421 and a sliding track 422 limited to slide on the supporting plates 421; at least one pair of supporting pieces 421 is disposed in the track area 14 of the supporting plate 11 for limiting the lifting direction of the camera module 20 in the track area 14. The elongated housing 222 of the support 22 includes a guide bottom plate 2221 and guide side plates 2222 disposed on two sides of the guide bottom plate 2221, the guide side plates 2222 are perpendicular to the guide bottom plate 2221, the cross sections of the guide side plates 2222 and the guide bottom plate 2221 form a T shape, a slide 422 is disposed on one side of the guide side plate 2222 protruding out of the guide bottom plate 2221 and close to the bearing plate 11, and the direction of the slide 422 is the same as the direction of the rail; the support pieces 421 are disposed inside the two slideways 422 and attached to the inner sides of the corresponding slideways 422 to support the camera module 20 and limit the lifting direction of the camera module 20. Preferably, the support plate 421 includes a first pair of support plates 421a and a second pair of support plates 421b, the first pair of support plates 421a is disposed at a position corresponding to the upper end of the slide way 422 when the camera module 20 is at the first position, and the second pair of support plates 421b is disposed at a position corresponding to the lower end of the slide way 422 when the camera module 20 is at the first position. Based on this structural design, can realize realizing the support and the direction to camera module 20 simultaneously with simple structure, overall structure is more compact and makes camera module 20's lift more steady. It is understood that there may be more than two pairs of support plates 421, and support bars (not shown) adapted to the slide ways 422 may be substituted for the support plates to guide the sliding direction of the slide ways 422 and support the guide bottom plate 2221, but the two pairs of support plates 421 are used to define the sliding tracks of the elongated housing 222, which saves more material and has a simpler structure.

In some embodiments, for example, in the present embodiment, as shown in fig. 1 to 2 and 5 to 7, the guiding assembly further includes a third guiding assembly 43, the third guiding assembly 43 includes a limiting stud 431 fixed on the bearing plate 11, a limiting screw 432 engaged with the limiting stud 431, the limiting stud 431 is disposed in the middle of the first pair of supporting plates 421a, and a strip-shaped opening 433 disposed on the inner side of the two skidways 422 on the guiding base plate 2221, the extending direction of the strip-shaped opening 433 is identical to the extending direction of the skidways 422, two ends of the strip-shaped opening 433 are arc-shaped with a diameter identical to that of the limiting stud 431, the limiting screw 432 passes through the strip-shaped opening 433 and is fixed with the limiting stud 431, and the limiting screw 432 and the limiting stud 431 define the maximum amplitude of the back-and-forth sliding of the elongated. The maximum sliding amplitude of the camera module 20 is limited through the limiting studs 431, the limiting screws 432 and the strip-shaped holes 433, and the structure is simpler. The height of the top end of the stud of the stop screw 432 from the top plate 12 of the case 10 is the same as the height of the top of the bar-shaped aperture 433 from the top of the top panel 2211a of the housing 221 so that the top panel 2211a of the camera module 20 is flush with the top plate 12 of the case 10 when the camera module 20 is in the first position. The length of the bar-shaped opening 433 is smaller than that of the housing 221 so that the housing 221 of the camera module 20 does not come off the case 10 when the camera module 20 is in the second position.

In the linear liftable camera 100 shown in the embodiment of the present invention, under the combined action of the driving module 30 and the guiding assembly (including 41, 42, and 43), the camera module 20 can be lifted up and down at any position between the first position and the second position, and when lifted up and down, one or two pairs of supporting pieces 421 are provided to guide the slide rail 43 and support the guiding bottom plate 2221, and the bar-shaped opening 433 is limited by the limiting screw 432 to limit the linear sliding and lifting maximum amplitude of the bar-shaped casing 222 in the track region 14, and the bar-shaped groove 412 is clamped into the protrusion 411 and slides back and forth in the bar-shaped groove 412 to limit the sliding direction of the camera module 20 casing 221, i.e. under the combined action of the driving module and the guiding assembly, the camera module 20 can be lifted up and down more stably between the first position and the second position, therefore, the effect that the linear type liftable camera 100 can take pictures stably in the box body 10 or outside the box body 10 and protect the camera module 20 is achieved.

The above description is only for the specific embodiments of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art can easily think of various equivalent modifications or replacements within the technical scope of the present invention, and these modifications or replacements should be covered within the scope of the present invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The utility model provides a rectilinear liftable camera which characterized in that includes: the camera module comprises a box body, a camera module and a driving module;

the box body comprises a bearing plate for bearing the camera module and the driving module, a top plate is arranged at the top of the bearing plate, a lifting hole for the camera module to pass through is formed in the top plate, and a track area for the camera module to lift is arranged in the box body;

the camera module is arranged in the track area, and guide assemblies are arranged on the camera module and in the track area of the box body together so as to guide the lifting action of the camera module in a straight line;

the driving module is installed on the bearing plate and connected with the camera module and used for driving the camera module to linearly lift along the track area between a first position and a second position, when the camera module is located at the first position, the camera module retracts into the box body, and when the camera module is located at the second position, the camera module extends out of the box body through the lifting hole.

2. The linear liftable camera of claim 1, wherein: the camera module includes camera subassembly and the support that is used for fixed camera subassembly, the support including have the shell of acceping the chamber and with the rectangular shape casing that the shell links to each other, camera subassembly includes camera sensor and camera drive plate, camera sensor accept in the shell, the shell is equipped with the confession the through-hole that the camera sensor looked the frame, rectangular shape casing with drive module links to each other.

3. The linear liftable camera according to claim 2, wherein: the guide assembly comprises a first guide assembly, and the first guide assembly comprises a guide rail part and a slide rail part matched with the guide rail part;

the guide rail part is arranged on the box body, and the slide rail part is arranged on the bracket; or, the guide rail part is arranged on the bracket, and the slide rail part is arranged on the box body.

4. The linear liftable camera according to claim 3, wherein: the guide rail part is a bulge, and the slide rail part is a strip-shaped groove matched with the bulge;

the protrusion is arranged on the top plate at a position close to the lifting hole, the protrusion is of a cylindrical structure with a smooth head, the elongated groove is arranged on the shell of the bracket, and the protrusion can be clamped in the elongated groove and can slide back and forth in the elongated groove.

5. The linear type liftable camera according to any one of claims 2 to 4, wherein: the guide assembly comprises a second guide assembly, and the second guide assembly comprises at least one pair of supporting pieces and two slide ways limited on the supporting pieces to slide;

the at least one pair of supporting sheets are arranged in the track area on the bearing plate;

the two slide ways are arranged on the support of the camera module, the strip-shaped shell of the support comprises a guide bottom plate and guide side plates arranged on two sides of the guide bottom plate, the guide side plates are perpendicular to the guide bottom plate, and the lower ends of the guide side plates protrude out of one side, close to the bearing plate, of the guide bottom plate to serve as the slide ways;

the at least one pair of supporting pieces are arranged on the inner sides of the two slideways, and each supporting piece is attached to the corresponding inner side of the slideway so as to support the camera module and limit the lifting direction of the camera module.

6. The linear liftable camera according to claim 5, wherein: the guide assembly further comprises a third guide assembly, and the third guide assembly comprises a limit stud fixed on the bearing plate, a limit screw matched with the limit stud and strip-shaped openings arranged on the inner sides of the two slideways on the guide bottom plate;

the extension direction of the bar-shaped opening hole is consistent with the extension direction of the slide way, the limiting screw penetrates through the bar-shaped opening hole and is fixedly connected with the limiting stud, and the third guiding assembly is used for limiting the camera module to slide back and forth along the linear direction and limiting the maximum sliding amplitude of the camera module.

7. The linear liftable camera of claim 6, wherein: the at least one pair of support plates comprises a first pair of support plates and a second pair of support plates;

the first pair of supporting pieces are arranged at the positions corresponding to the upper ends of the slideways when the camera module is at the first position, and the second pair of supporting pieces are arranged at the positions corresponding to the lower ends of the slideways when the camera module is at the first position;

the limiting stud of the third guide assembly is arranged in the middle of the first pair of support sheets.

8. The linear liftable camera of claim 7, wherein: the camera module further comprises a connecting plate for connecting the camera sensor and the camera driving plate; the shell of the bracket comprises a first shell and a second shell, the first shell is provided with a top panel which is consistent with the shape of the lifting hole, a first side panel which is arranged on one side of the top panel and is vertical to the top panel, the second shell is provided with a second side panel which is corresponding to the first side panel and a bottom panel which is corresponding to the top panel, and the edges of two sides of the first side panel and the second side panel are both provided with a channel structure;

the first shell and the second shell are fixed to form an accommodating cavity together to accommodate the camera sensor and part of the connecting plate, and the two channel structures form the long-strip-shaped groove together;

a fixing frame is arranged at one end, close to the top panel, in the accommodating cavity so as to fix the camera sensor;

the connecting part of the bottom panel of the second shell and the elongated shell is provided with a hole, the connecting plate penetrates through the hole, and the camera driving board is fixed on the elongated shell.

9. The linear liftable camera of claim 1, wherein: the bearing plate is provided with a view finding hole for the camera module to find a view, and when the camera module is located at the first position, the camera sensor aligns to the view finding hole in the bearing plate.

10. The linear liftable camera of claim 1, wherein: the driving module comprises a screw motor, the screw motor is fixedly installed on the bearing plate and located on one side of the camera module, the screw motor is provided with a threaded rod, one end of the threaded rod is provided with a driving part, and the driving part is connected with the camera module to drive the camera module to linearly lift along the track region between the first position and the second position.

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