CN108024046B - Shooting device and terminal - Google Patents

Abstract

The invention discloses a shooting device, which comprises a body, a shooting bracket and a camera module, the body comprises a shell and a display screen arranged on the shell, the shell comprises side surfaces positioned at two sides of the display screen, the side surface is provided with a sliding groove, the shooting bracket comprises a sliding arm which is parallel to and adjacent to the side surface, the sliding arm comprises a connecting end and a free end which are oppositely arranged, the free end is used for fixing the camera module, the connecting end is provided with a rotating part which is connected with the sliding groove in a sliding way and drives the sliding arm to slide along the sliding groove, the camera module is along with the sliding arm slides to keeping away from the position of body, the sliding arm is relative through revolving the portion of rotating the display screen becomes the contained angle and rotates, makes the camera module with the display screen angulation sets up. The invention further provides a terminal which comprises the shooting device.

Description

Shooting device and terminal

Technical Field

The present invention relates to the field of electronic devices, and in particular, to a shooting device and a terminal.

Background

with the diversification of requirements of people on photographing and the diversification of requirements of photographing devices, many photographing devices can realize long-range photographing and self-photographing at present, most of the photographing devices are convenient for the function switching of the long-range photographing and the self-photographing, a reversible outer frame is usually arranged on the outer side of a body of the photographing device, a camera capable of turning over two sides is arranged on the body, when a user closes the outer frame relative to the body, the camera is turned over to the opposite side of a display screen of the body, the body can be held by the hand to photograph long-range, when the user opens the outer frame relative to the body, the user can hold the outer frame by the hand, the camera is turned over to the same side of the display screen, and self-photographing can be realized, but the body is unstable due to the heavier weight relative to the outer frame, the body is easy to shake, thereby influencing self-photographing, and in order to realize the switching of two modes, the rotating mechanism for adjusting the rotation of the camera needs to be arranged on the body, so that the weight of the body is further increased, and the shooting performance of the shooting device is poor.

Disclosure of Invention

In view of this, the present invention provides a camera and a terminal to solve the problem of low shooting performance of the camera.

the shooting device comprises a body, a shooting support and a camera module, wherein the body comprises a shell and a display screen arranged on the shell, the shell comprises side faces positioned at two sides of the display screen, the side faces are provided with sliding grooves, the extending direction of the sliding grooves is parallel to the display screen, the shooting support comprises sliding arms, the sliding arms are parallel and adjacent to the side faces, the sliding arms comprise connecting ends and free ends which are oppositely arranged, the free ends are used for fixing the camera module, rotating parts are arranged on the connecting ends and are in sliding connection with the sliding grooves, the rotating parts drive the sliding arms to slide along the sliding grooves, the camera module slides along with the sliding arms to a position far away from the body, and the sliding arms rotate around the rotating parts relative to the display screen at an included angle, and then make camera module with the display screen angulation sets up.

The side surface is provided with two oppositely-arranged sliding grooves, the shooting support comprises two oppositely-arranged sliding arms, a cantilever beam is fixedly connected between the free ends of the two sliding arms, and the camera module is fixed on the cantilever beam.

the shell is provided with a containing groove at one side of the display screen, the camera module slides to the position abutting against the body along with the sliding arm, the cantilever beam is partially clamped in the containing groove, and the lens of the camera module is exposed out of the containing groove.

The inner side wall of the accommodating groove is provided with a first fixing part, the outer surface of the cantilever beam is provided with a second fixing part corresponding to the first fixing part, and the first fixing part and the second fixing part are detachably connected.

The rotating part is a rotating shaft, the rotating part is fixed on one side, close to the sliding groove, of the sliding arm, and the rotating part is connected in the sliding groove in a sliding mode.

The shooting support further comprises a supporting rod, an embedding groove is formed in the sliding arm, the supporting rod is connected in a rotating mode or connected in a sliding mode in the embedding groove, and the supporting rod rotates out or slides out of the embedding groove to support the body.

The damping mechanism is connected between the sliding arm and the body and used for preventing the sliding arm from rotating relative to the base.

Wherein, the length direction of spout is on a parallel with the length direction or the width direction of display screen.

The shell comprises a front cover and a rear cover, the front surface of the shell is arranged on the front cover, the front cover further comprises a first matching surface opposite to the front surface, the rear cover comprises a second matching surface, the second matching surface is matched with the first matching surface, the rear cover further comprises an accommodating cavity, an opening of the accommodating cavity is formed in the second matching surface, and the display screen is fixed in the accommodating cavity.

The invention further provides a terminal, wherein the terminal comprises the shooting device, the terminal further comprises a control assembly, the control assembly is contained in the containing cavity, and the control assembly is electrically connected with the display screen and the camera module so as to control the display screen and the camera module to operate.

According to the shooting device and the terminal, the sliding groove is formed in the side face of the body, the connecting end of the sliding arm is connected to the sliding groove in a sliding mode, and meanwhile the sliding groove can be connected in a rotating mode, so that the camera module fixed at the free end of the sliding arm can be abutted to the body or far away from the body, the camera module abuts against the body along with the sliding arm, the shooting device can achieve a long-range shooting function, the camera module is far away from the body along with the sliding arm and can rotate relative to the body to adjust the angle, the camera module of the shooting device can be far away from a user, the self-shooting function can be achieved, the camera module is stable by means of the light weight of the sliding arm, and the shooting performance of the shooting device is improved.

Drawings

In order to more clearly illustrate the technical solution of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of a camera in accordance with a preferred embodiment of the present invention;

FIG. 2 is an exploded schematic view of the camera of FIG. 1;

FIG. 3 is an exploded schematic view of the camera of FIG. 1;

FIG. 4 is a schematic view of a state of use of the photographing apparatus of FIG. 1;

FIG. 5 is a schematic view of another use state of the photographing apparatus of FIG. 1;

FIG. 6 is a schematic diagram of a camera according to another embodiment of the present invention;

FIG. 7 is a schematic diagram of a camera according to another embodiment of the present invention;

FIG. 8 is an exploded schematic view of the camera of FIG. 7;

FIG. 9 is an exploded schematic view of the camera of FIG. 7;

fig. 10 is an enlarged schematic view of an X portion of the photographing apparatus of fig. 9;

FIG. 11 is a schematic view of a camera device including a support bar according to the present invention;

Fig. 12 is an enlarged schematic view of the XII portion of the photographing device of fig. 2.

Detailed Description

the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1, fig. 2 and fig. 3 together, the photographing apparatus 100 according to the present invention includes a main body 10, a photographing bracket 20 and a camera module 30. The body 10 includes display screen 11 and shell 12, the display screen 11 electricity is connected camera module 30 is used for following camera module 30 acquires the shooting image, display screen 11 includes a display surface 111, display surface 111 shows the shooting image. The housing 12 is wrapped on the display screen 11, and the housing 12 includes a front surface 121 and side surfaces 122 located at two sides of the display screen 11. The front surface 121 transmits the display light of the display surface 111, the side surface 122 is provided with a sliding groove 122a, and the extending direction of the sliding groove 122a is parallel to the display surface 111. The photographing bracket 20 includes a sliding arm 21, and the sliding arm 21 is disposed in parallel and adjacent to the side surface 122. Slide arm 21 is including the relative link 211 and the free end 212 that set up, the free end 212 is fixed camera module 30, link 211 sets up rotation portion 211a, rotation portion 211a sliding connection in spout 122a, rotation portion 211a drives slide arm 21 and slides along spout 122a, camera module 30 follows slide arm 21 slides to keeping away from the position of body 10, slide arm 21 is relative through rotating portion 211a display screen 11 becomes the contained angle and rotates, and then makes camera module 30 with display screen 11 becomes the angle setting.

the sliding groove is arranged on the side surface of the body 10, the connecting end 211 of the sliding arm 21 is slidably connected to the sliding groove, and the connecting end can also be rotatably connected to the sliding groove, so that the camera module 30 fixed at the free end 212 of the sliding arm 21 can be abutted against the body 10 or away from the body 10; the camera module 30 follows the sliding arm 21 abuts against the body 10, so that the shooting device 100 can realize the function of long-range shooting, the camera module 30 follows the sliding arm 21 is far away from the body 10 and can rotate relative to the body 10 to adjust the angle, so that the shooting device 100 can realize the self-shooting function, and further the shooting device 100 is simple in structure and high in shooting performance.

It is understood that the Display screen 11 may be an LCD (Liquid Crystal Display), and the Display screen 10 may convert a digital signal into an image signal to Display an image on the Display surface 111. When the photographing device 100 is applied to a terminal, the display screen 11 may also be a touch liquid crystal display, and the display screen 11 may display images and also implement instruction input to operate functional components of the terminal. The terminal can be a mobile phone, a tablet computer, a digital camera, an electronic reader and other devices. The camera module 30 may be composed of elements such as an outer frame, a chip, a sensor, an optical lens, and the like, and the camera module 30 may adjust a shooting focal length through an electrical signal, thereby implementing a long-range shooting, a short-range shooting, or a self-timer function. The camera module 30 converts the optical signal of the shot scene into an electrical signal and transmits the electrical signal to the display screen 10, so that the display screen 10 can display the object scene shot by the camera module 30.

In this embodiment, the housing 12 is rectangular plate-shaped, the housing 12 includes a front cover 12a and a rear cover 12b, the front surface 121 is disposed on the front cover 12a, the front cover 12a further includes a first mating surface 122 disposed opposite to the front surface 121, the rear cover 12b includes a second mating surface 123 and a rear surface 124 disposed opposite to the second mating surface 123, the second mating surface 123 is mated with the first mating surface 122, the rear cover 12b further includes a receiving cavity 12c, an opening of the receiving cavity 12c is disposed on the second mating surface 123, the receiving cavity 12c receives the display screen 11 and can also receive a power supply and other control components, and the display surface 111 faces the opening of the receiving cavity 12 c. The front cover 12a is partially provided with a transparent glass plate, and the rear cover 12b is covered with the front cover 12 a. The side surfaces 122 are located between the front surface 121 and the back surface 124 and disposed on two sides of the display screen 11, and the side surfaces 122 may be disposed on two sides of the display screen 11 in the length direction or on two sides of the display screen 11 in the width direction. Specifically, the side surfaces 122 include two first side surfaces 122b disposed oppositely and two second side surfaces 122c disposed oppositely. The two first side surfaces 122b and the two second side surfaces 122c are alternately connected end to end and surround the periphery of the housing 12. The first side surface 122b is longer than the second side surface 122 c. The first side surfaces 122b are parallel to the length direction of the display screen 11, that is, the two first side surfaces 122b are respectively disposed on two sides of the length direction of the display screen 11. The second side surfaces 122c are parallel to the width direction of the display screen 11, that is, the two second side surfaces 122c are respectively disposed at two sides of the width direction of the display screen 11. The sliding groove 122a may be opened on the first side surface 122b or the second side surface 122c, that is, the length direction of the sliding groove 122a may be parallel to the length direction of the display screen 11 or parallel to the width direction of the display screen 11. In other embodiments, the housing may further include a middle frame disposed between the front cover and the rear cover and surrounding the periphery of the display screen 11.

in a preferred embodiment, the sliding groove 122a is opened on the first side surface 122 b. Specifically, the front cover 12a has a front cover catch plate 120a and a front cover spacer 120b extending from the longitudinal edge thereof and protruding toward the rear cover 12 b. The front cover card 120a and the front cover spacer 120b are parallel to each other, and a first space 120c exists between the front cover card 120a and the front cover spacer 120 b. The front cover card 120a is located on the outside, and the front cover spacer 120b is located near the geometric center of the front cover 12a relative to the front cover card 120 a. The edge of the front cover card 120a adjacent to the rear cover 12b is provided with a first notch 120 d. Similarly, the rear cover 12b has a rear cover fastening plate 1201 and a rear cover spacer 1202 extending from the longitudinal edge thereof and protruding toward the front cover 12 a. The back cover card 1201 and the back cover spacer 1202 are parallel to each other, and a second gap 1203 exists between the back cover card 1201 and the back cover spacer 1202. The back cover card 1201 is located on the outside, and the back cover spacer 1202 is located near the geometric center of the back cover 12b with respect to the back cover card 1201. The rear cover catch plate 1201 is provided with a second notch 1204 adjacent to the edge of the front cover 12 a. The first space 120c and the second space 1203 form the sliding slot 122a, the first notch 120d and the second notch 1204 form an opening of the sliding slot 122a, so that the rotating portion 211a is slidably connected in the sliding slot 122a, the rotating portion 211 rotates in the sliding slot 122a conveniently, the rotating portion 211a is clamped by the front cover clamping plate 120a and the rear cover clamping plate 1201, and the rotating portion 211a is not easy to be separated from the outer shell 12. The front cover partition 120b and the rear cover partition 1202 form an outer wall of the accommodating cavity 12c to protect the display screen 11 in the accommodating cavity 12c or other functional units such as a power supply, a chip, a demodulator, etc., so as to prevent dust from entering the accommodating cavity 12c, thereby prolonging the service life of the photographing device 100. A threading groove 120e is further formed between the front cover partition 120b and the rear cover partition 1202, the length direction of the threading groove 120e is parallel to the length direction of the sliding groove 122a, and the threading groove 120e is used for guiding the cables and the power cables of the display screen 11 to be connected and penetrate out of the shell 12 and be connected with the camera module 30.

in this embodiment, the sliding arm 21 is a rectangular rod, the sliding arm 21 is hollow, and the free end 212 is provided with a first threading hole (not labeled), and the threading hole is used for passing through a cable of the camera module. The rotation portion 211a is hollow member, the inboard of rotation portion 211a with the slide arm 21 link up mutually, rotation portion 211a keeps away from slide arm 21 one end sets up second through wires hole (not marking), the second through wires hole be used for with camera module 30's cable conductor process lead into through wires groove 120e accept in the chamber 12c, thereby make things convenient for camera module 30 follows when slide arm 21 slides or rotates, still can realize camera module 30 can the circular telegram operation.

In this embodiment, as shown in fig. 4, the length of the sliding arm 21 is equal to the length of the housing 12, the width of the sliding arm 21 is equal to the thickness of the housing 12, the camera module 30 abuts against the second side surface 122c at a position where the camera module 30 slides along with the sliding arm 21 to abut against the body 10, and the sliding arm 21 shields the sliding groove 122a, so that the sliding arm 21 serves as an outer frame of the housing 12, plays a role in protecting the housing 12, and is integrated with the housing 12 in an integral structure, thereby facilitating carrying and having a simple structure. Meanwhile, since the sliding arm 21 is disposed outside the sliding groove 122a, when photographing is not required, as shown in fig. 5, the sliding arm 21 may be turned over to a state where an acute angle is formed between the sliding arm 21 and the front surface 121, so that the sliding arm 21 is utilized to support the photographing device 100.

In this embodiment, the rotating portion 211a is a rotating shaft, the rotating portion 211a is fixed to a side of the sliding arm 21 adjacent to the sliding slot 122a, and the rotating portion 211a is slidably connected to the sliding slot 122 a. Specifically, the axial direction of the rotating portion 211a is perpendicular to the extending direction of the sliding slot 122a and is parallel to the display surface 111, and the rotating portion 211a is slidably connected in the sliding slot 122 a. The camera module 30 slides along with the sliding arm 21 to a position far away from the body 10, and the camera module 30 is axially and rotationally connected to the body 10 along with the sliding arm 21 around the rotating portion 211 a. More specifically, a flange 2110 is disposed along a circumferential direction at an end of the rotating portion 211a away from the sliding arm 21, and the flange 2110 is partially engaged with the first space 120c and the second space 1203, so that the rotating portion 211a is not easily separated from the sliding slot 122a, and the sliding arm 21 can slide along the sliding slot 122 a. In other embodiments, the rotating portion 211a may also be a through hole, the sliding groove 122a may also be a sliding connection block, the sliding block is provided with a rotating shaft, and the rotating portion 211a is rotatably connected to the rotating shaft.

In this embodiment, the sliding arm 21 rotates around the rotating portion 211a, and the rotating portion 211a can slide in the sliding slot 122a, so that the shooting lens of the camera module 30 can be turned over to the same side as the display surface 111, or turned over to the opposite side of the display surface 111, so as to achieve multiple shooting requirements of the shooting device 100, for example, sliding the rotating portion 211a to one end of the sliding slot 122a, and turning over the sliding arm 21, so as to close the sliding arm 21 relative to the body 10, and turning over the lens of the camera module 30 to the same side as the display surface 111, the shooting device 100 can achieve a portrait self-shooting mode, and can achieve close-range person self-shooting; the rotating part 211a is slid to the other end of the sliding groove 122a, and the sliding arm 21 is turned over by 180 degrees, so that the sliding arm 21 is closed relative to the body 10 and the lens of the camera module 30 is turned over to the side opposite to the display surface 111, and the shooting device 100 can realize long-shot portrait shooting of a landscape; it will slide arm 21 upset is relative the state that body 10 expandes can be the realization camera module 30 is kept away from body 10 and is autodyned, through handheld body 10 reaches the state of avoiding shooing the staff at the in-process of autodyneing, improves and shoots the performance, just camera module 30's shooting angle is adjustable.

Another embodiment is provided, as shown in fig. 6, which is substantially the same as the preferred embodiment except that the sliding groove 122a is opened at the second side surface 122 c. The length direction of the sliding groove 122a is parallel to the width direction of the display screen 11. The camera module 30 can slide along with the sliding arm 21 to the position abutting against the first side surface 122b, so that the display screen 11 can shoot distant scenes in a transverse screen mode, or shoot a self-portrait mode in a transverse screen mode. The camera module 30 can also slide along with the sliding arm 21 to a position far away from the body 10, and the camera module 30 can rotate along with the sliding arm 21 relative to the body 10, so that the shooting device 100 can realize a remote self-shooting mode of a transverse screen.

Another embodiment is provided, please refer to fig. 7, 8 and 9, which is substantially the same as the preferred embodiment, except that the sliding slot 122a is a slot, the sliding slot 122a is disposed on the second side 122c and adjacent to the first side 122b, and the extending direction of the sliding slot 122a is parallel to the first side 122 b. The slide arm 21 and the rotating portion 211a slide together into the slide groove 122 a. Specifically, the front cover 12a is provided with a front cover groove 129a at an edge in the length direction, the front cover groove 129a is provided with an opening toward the rear cover 12b, and is provided with an opening on the second side surface 122c, the rear cover 12b is provided with a rear cover groove 129b at an edge in the length direction corresponding to the front cover groove 129a, the rear cover groove 129b is provided with an opening toward the front cover 12a, and is provided with an opening on the second side surface 122c, and the rear cover groove 129b and the front cover groove 129a are provided with openings on the same second side surface 122 c. After the front cover 12a and the rear cover 12b are closed, the front cover groove 129a and the rear cover groove 129b form the slide groove 122 a. The camera module 30 slides along with the sliding arm to a position abutting against the second side surface 122c, and the sliding arm 21 slides into the sliding slot 122a, so that the sliding arm 21 can be hidden in the sliding slot 122a, the appearance of the shooting device 100 is simpler, and the dustproof effect of the shooting device 100 is better because the opening of the sliding slot 122a is smaller. More specifically, the chute 122a is in the open end inboard of chute 122a sets up pivot hole 211b, the portion 211a that rotates rotate connect in the pivot hole 211b, promptly the camera module 30 is along with the cursor slide 21 is kept away from when the body 10, the portion 211a that rotates slides to the open end of chute 122a, the portion 211a that rotates is blocked in the pivot hole 211b, the chute 122a is in set up two breach 211c in the rotation plane of cursor slide 21, and then cursor slide 21 can be relative the body 10 rotates, thereby realizes the camera module 30 is along with cursor slide 21 rotates.

Referring to fig. 9 and 10, in the present embodiment, the rotating portion 211a is retractable in the sliding arm 21, and the rotating portion 211a is a retractable rod. Specifically, the connecting end 211 is provided with a sliding hole 2111, an elastic member 2112 is arranged in the sliding hole 2111, the rotating portion 211a is accommodated in the sliding hole 2111, and the elastic member 2112 is compressed between the rotating portion 211a and the sliding hole 2111 to provide a restoring force for the rotating portion 211a to move away from the sliding hole 2111. The rotating portion 211a is provided with a hemispherical shape at an end close to the opening of the sliding hole 2111, and the rotating portion 211a is accommodated in one end of the sliding hole 2111 and is fixedly connected to the elastic member 2112. When the sliding arm 21 slides into the sliding slot 122a, the rotating portion 211a is completely accommodated in the sliding hole 2111, and when the connecting end 211 slides to the opening of the sliding slot 122a, the rotating portion 211a is partially exposed out of the sliding hole 2111 under the elastic force of the elastic member 2112 and abuts against the rotating shaft hole 211b, so that the sliding arm 21 can rotate relative to the body 10. In this embodiment, the elastic member 2112 is a spring, and in another embodiment, the elastic member 2112 may be a rubber member.

In this embodiment, the connection end 211 is mounted with a first metal contact 2113, the first metal contact 2113 is annular and is disposed around the rotation portion 211a, and the first metal contact 2113 is embedded in the connection end 211, penetrates through the inner side of the sliding arm 21, and is connected to the cable line inside the sliding arm 21. Second metal contact 2114 is installed to spout 122 a's open end inboard, second metal contact 2114 inlays and locates shell 12, and run through extremely accept chamber 12c, with display screen 11 or power electricity are connected, thereby camera module 30 follows slide arm 21 keeps away from body 10, link 211 slides extremely the opening part of spout 122a, first metal contact 2113 with second metal contact 2114 contacts, thereby realizes camera module 30 electricity power connection or display screen 11 realizes camera module 30 with display screen 11 transmission image signal, follows the electric current is obtained to the power. Similarly, a third metal contact (not shown) is disposed at the free end 212, and when the camera module 30 slides along with the sliding arm 21 to a position abutting against the second side surface 122c, the free end 212 slides to the opening of the sliding groove 122a, so that the third metal contact is in contact with the second metal contact 2114, thereby implementing the operation of the camera module 30.

Further, as shown in fig. 1, 2 and 3, the housing 12 further has a receiving groove 19 formed on one side of the display screen 11, the camera module 30 slides along with the sliding arm 21 to a position abutting against the body 10, a part of the camera module 30 is engaged in the receiving groove 19, and a lens of the camera module 30 is exposed out of the receiving groove 19.

In a preferred embodiment, the receiving slot 19 is a rectangular groove, and the receiving slot 19 is opened on the second side surface 122 c. The inside wall of accepting groove 19 sets up first fixed part 191, first fixed part 191 is the elasticity buckle, first fixed part 191 is the curved shape of arc, first fixed part 191 includes stiff end 191a and elasticity free end 191b, stiff end 191a is fixed in on the inside wall of accepting groove 19, elasticity free end 191b is close to the inside wall of accepting groove 19, stiff end 191a extremely elasticity free end 191 b's direction is on a parallel with the opening orientation of accepting groove 19, stiff end 191a with be the pitch arc between the elasticity free end 191b crooked, and protrusion in the inside wall of accepting groove 19.

In this embodiment, the photographing bracket 20 includes a cantilever beam 22, a length direction of the cantilever beam 22 is perpendicular to a length direction of the sliding arm 21, and the cantilever beam 22 is fixed to a side of the sliding arm 21 adjacent to the body 10. The cantilever beam 22 is a rectangular strip-shaped shell, the camera module 30 is fixedly accommodated in the cantilever beam 22, and the inner side of the cantilever beam 22 penetrates through the inner side of the sliding arm 21. The outer surface of the cantilever 22 is provided with a shooting hole 221, and the shooting hole 221 faces to the direction perpendicular to the length direction of the cantilever 22 and the length direction of the sliding arm 21. The lens of the camera module 30 shoots through the shooting hole 221. The outer surface of the cantilever 22 is further provided with a second fixing portion 222 corresponding to the first fixing portion 191. Specifically, the cantilever beam 22 includes a mating surface 223, and the mating surface 223 is parallel to the length direction of the sliding arm 21. The second fixing portion 222 is disposed on the matching surface 223, when the camera module 30 slides along with the sliding arm 21 to a position abutting against the body 10, the cantilever beam 22 is partially accommodated in the accommodating groove 19, the matching surface 223 is matched with the peripheral arms of the accommodating groove 19, and the second fixing portion 222 is fastened to the first fixing portion 191, so that the cantilever beam 22 is fixed relative to the body 10, the structure of the photographing device 100 is more stable, and meanwhile, the photographing hole 221 is exposed out of the accommodating groove 19, which facilitates photographing by the photographing module 22. In the present embodiment, the cantilever beam 22 is provided integrally with the slide arm 21. The outer surface of the cantilever 22 may further include a plurality of second fixing portions 222, and the inner sidewall of the receiving groove 19 is correspondingly provided with a plurality of first fixing portions 191. In other embodiments, the cantilever 22 may be engaged with the sliding arm 21, the cantilever 22 may be magnetically connected with the receiving groove 19, and the first fixing portion 191 and the second fixing portion 222 may be magnets.

Further, the side surface 122 is provided with two opposite sliding grooves 122a, the shooting bracket 20 includes two opposite sliding arms 21, a cantilever 22 is fixedly connected between the free ends 212 of the two sliding arms 21, and the camera module 30 is fixed on the cantilever 22.

In a preferred embodiment, the photographing bracket 20 is in a rectangular frame shape, and the two sliding grooves 122a are respectively and correspondingly formed on the two first side surfaces 122 b. The two sliding arms 21 are parallel to each other and are respectively and correspondingly connected to the sliding grooves 122a in a sliding manner. The cantilever beam 22 is fixed between the two sliding arms 21, so that the two sliding arms 21 support the cantilever beam 22, and the structure of the photographing bracket 20 is more stable. When the photographing bracket 20 is folded relative to the body 10, the photographing bracket 20 protects the outer frame of the body 10, so that the photographing apparatus 100 is durable. In other embodiments, the side surface 122 may be opened with only one sliding slot 122a, and the sliding slot 122a is opened on one of the first side surfaces 122 b. The photographing bracket 20 only includes one sliding arm 21, and the cantilever beam 22 is supported by one sliding arm 21, so that the photographing bracket 20 has a simple structure, and the photographing device 100 is convenient to install and maintain.

Referring to fig. 1 and 11, the photographing bracket 20 further includes a support rod 23, a slot 214 is disposed in the sliding arm 21, the support rod 23 is rotatably or slidably connected to the slot 214, and the support rod 23 is rotated out of or slid out of the slot 214 to support the body 10.

In a preferred embodiment, the insertion groove 214 extends along the length direction of the sliding arm 21, and the opening direction of the insertion groove 214 is parallel to the rotation plane of the sliding arm 21. In this embodiment, the support rod 23 is rotatably connected to the caulking groove 214, and the rotation axis of the support rod 23 is parallel to the axis of the rotation portion 211 a. The supporting rod 23 is rotated out of the caulking groove 214, so that the supporting rod 23 supports the shooting bracket 20, and the supporting rod 23 supports the shooting device 100. In other embodiments, a holding groove may be disposed on the sliding arm 21, the holding groove extends along the length direction of the sliding arm 21, the supporting rod is accommodated in the holding groove, the supporting rod 23 is slidably connected to the holding groove, the supporting rod 23 slides out along the length direction of the holding groove, and the supporting rod 23 is used for supporting the shooting support 20

Referring to fig. 1, fig. 2 and fig. 12, further, a damping mechanism 40 is connected between the sliding arm 21 and the body 10, and the damping mechanism 40 is used for preventing the sliding arm 21 from rotating relative to the base 10.

In a preferred embodiment, the damping mechanism 40 includes a first friction plate 41, a second friction plate 42 and a spring 43, the first friction plate 41 is an elongated card, and the first friction plate 41 may be made of asbestos material or rubber material. The first friction plate 41 is attached to an inner side wall of the sliding groove 122 a. The second friction plate 42 is annular, and the second friction plate 42 is sleeved on the rotating portion 211a and abuts against the first friction plate 41 to increase the rotating friction force of the rotating portion 211 a. The spring 43 is sleeved on the rotating portion 211a, the spring 43 is compressed between the second friction plate 42 and the flange 2110, and the spring 43 is used for providing an elastic force for the second friction plate 42 to abut against the first friction plate 41. Therefore, the damping mechanism 40 is used to prevent the sliding arm 21 from rotating relative to the body 10, so that the sliding arm 21 can be fixed relative to the body 10 when the external force is lost, and the shooting angle of the camera module 30 can be conveniently fixed. Of course, in other embodiments, the damping mechanism 40 may further include a first ratchet and a second ratchet that are matched with each other, the first ratchet and the second ratchet are both sleeved on the rotating portion 211a, the first ratchet is close to the flange 2110, the second ratchet is close to the inner wall of the sliding slot 122a and is slidably connected to the sliding slot 122a along the extending direction of the sliding slot 122a, a butterfly spring is compressed between the first ratchet and the flange 2110, and the first butterfly spring provides an elastic force that enables the first ratchet to abut against the second ratchet.

The invention further provides a terminal (not shown), the terminal comprises the shooting device 100, and the terminal further comprises a control component (not shown), the control component is accommodated in the accommodating cavity 12c, and the control component is electrically connected with the display screen 11 and the camera module 30 so as to control the display screen and the camera module to operate. It is understood that the terminal may be a mobile phone, a tablet computer, a digital camera, an e-reader, etc. The control component can be a power supply, a chip, a memory, an antenna and other functional components.

According to the shooting device and the terminal, the sliding groove is formed in the side face of the body, the connecting end of the sliding arm is connected to the sliding groove in a sliding mode, and meanwhile the sliding groove can be connected in a rotating mode, so that the camera module fixed at the free end of the sliding arm can be abutted to the body or far away from the body, the camera module abuts against the body along with the sliding arm, the shooting device can achieve a long-range shooting function, the camera module is far away from the body along with the sliding arm and can rotate relative to the body to adjust the angle, the camera module of the shooting device can be far away from a user, the self-shooting function can be achieved, the camera module is stable by means of the light weight of the sliding arm, and the shooting performance of the shooting device is improved.

The foregoing is a preferred embodiment of the present invention, and it should be noted that it would be apparent to those skilled in the art that various modifications and enhancements can be made without departing from the principles of the invention, and such modifications and enhancements are also considered to be within the scope of the invention.

Claims (11)

1. A shooting device is characterized by comprising a body, a shooting support and a camera module, wherein the body comprises a shell and a display screen arranged in the shell, the shell is coated on the display screen and comprises side faces positioned at two sides of the display screen, the side faces are provided with sliding grooves, the extending direction of the sliding grooves is parallel to the display screen, the shooting support comprises a sliding arm, the sliding arm is parallel to and adjacent to the side faces and comprises a connecting end and a free end which are oppositely arranged, the camera module is fixed at the free end, the display screen is electrically connected with the camera module and is used for obtaining shot images from the camera module, a rotating part is arranged on the connecting end and is slidably connected with the sliding grooves, and the rotating part drives the sliding arm to slide along the sliding grooves and is rotatably connected with the sliding grooves, the camera module abuts against or is far away from the body along with the sliding of the sliding arm, the sliding arm rotates around the rotating part at an included angle relative to the display screen, so that the camera module and the display screen are arranged at an angle, and when the camera module abuts against the body along with the sliding arm, the shooting device achieves a long-range shooting function; the camera module is followed the sliding arm is kept away from the body, and it is relative the body rotation angle regulation, the shooting device realizes from the shooting function, the shell is including relative front and the back that sets up, openly see through be used for the display light of the display surface of display image in the display screen, the side is located openly with between the back, the side is including two first sides that set up relatively, the spout set up in first side.

2. The camera device according to claim 1, wherein the housing includes a front cover and a rear cover, the front surface is disposed on the front cover, the rear surface is disposed on the rear cover, the front cover includes a first gap and a first notch corresponding to the first side surface, the rear cover includes a second gap and a second notch corresponding to the first side surface, the first gap and the second gap form the chute, the first notch and the second notch form an opening of the chute, the rotating portion is slidably connected in the chute and rotates in the chute, the rear cover further includes an accommodating cavity, the accommodating cavity is used for accommodating a functional unit, and the functional unit includes the display screen and/or a power supply, a chip, and a demodulator.

3. The shooting device according to claim 2, wherein a front cover clamping plate and a front cover partition plate which protrude towards the rear cover extend from the edge of the front cover in the length direction, the front cover clamping plate and the front cover partition plate are parallel to each other, the first distance exists between the front cover clamping plate and the front cover partition plate, the front cover clamping plate is located on the outer side, the front cover partition plate is close to the geometric center of the front cover relative to the front cover clamping plate, and the first notch is formed in the edge of the front cover clamping plate, which is close to the rear cover;

A rear cover clamping plate and a rear cover partition plate which protrude towards the front cover extend from the edge of the rear cover in the length direction, the rear cover clamping plate and the rear cover partition plate are parallel to each other, a second space exists between the rear cover clamping plate and the rear cover partition plate, the rear cover clamping plate is positioned on the outer side, the rear cover partition plate is close to the geometric center of the rear cover relative to the rear cover clamping plate, and a second notch is formed in the edge of the rear cover clamping plate, which is close to the front cover;

The rotating part is clamped between the front cover clamping plate and the rear cover clamping plate.

4. The camera according to claim 3, wherein the front cover partition and the rear cover partition constitute an outer wall of the housing chamber to protect the function unit housed in the housing chamber.

5. The shooting device of claim 4, wherein a threading slot is further formed between the front cover partition and the rear cover partition, the length direction of the threading slot is parallel to the length direction of the sliding slot, and the threading slot is used for guiding a cable wire and a power cable of the display screen to be connected and penetrate out of the shell to be connected with the camera module.

6. the camera of claim 5, wherein the sliding arm is a rectangular rod and is hollow, and the free end is provided with a first threading hole for passing through the cable of the camera module.

7. The camera device as claimed in claim 6, wherein the rotating portion is a hollow rod, the inner side of the rotating portion is connected to the sliding arm, a second threading hole is disposed at an end of the rotating portion away from the sliding arm, the second threading hole is used for guiding the cable of the camera module into the accommodating cavity through the threading slot, and the camera module is powered on when the camera module slides or rotates along with the sliding arm.

8. The camera of claim 7, wherein the side surfaces further include two opposite second side surfaces, the two first side surfaces and the two second side surfaces are alternately connected end to end and surround the periphery of the housing, the length of the sliding arm is equal to the length of the housing, the width of the sliding arm is equal to the thickness of the housing, when the camera module slides along with the sliding arm to a position abutting against the body, the camera module abuts against the second side surfaces, the sliding arm shields the sliding groove, and the sliding arm serves as an outer frame of the housing so that the sliding arm and the housing are integrated into a whole structure.

9. The camera of claim 6, wherein the rotation portion is retractable in the sliding arm, the rotation portion is a retractable rod, the connecting end is provided with a sliding hole, an elastic member is disposed in the sliding hole, the rotation portion is received in the sliding hole, the elastic member is compressed between the rotation portion and the sliding hole to provide a restoring force for the rotation portion to move away from the sliding hole, the rotation portion is provided with a semi-sphere shape at an end close to the opening of the sliding hole, the rotation portion is received in one end of the sliding hole and is fixedly connected to the elastic member, when the sliding arm slides into the sliding slot, the rotation portion is completely received in the sliding hole, when the connecting end slides to the opening of the sliding slot, the rotation portion partially exposes out of the sliding hole under the elastic force of the elastic member and abuts against the rotating hole, the sliding arm rotates relative to the body.

10. the camera device according to claim 6, wherein the connecting end is provided with a first metal contact and arranged around the rotating portion, the first metal contact is embedded in the connecting end and penetrates to the inner side of the sliding arm to be connected with a cable of the inner side of the sliding arm, a second metal contact is installed on the inner side of an opening end of the sliding groove, the second metal contact is embedded in the housing and penetrates to the accommodating cavity to be electrically connected with the display screen or/and the power supply, when the camera module is far away from the body along with the sliding arm and the connecting end slides to an opening of the sliding groove, the first metal contact is in contact with the second metal contact, so that the camera module is electrically connected with the power supply or the display screen, the free end is provided with a third metal contact, when the camera module slides to a position abutting against the second side along with the sliding arm and the free end slides to the sliding part When the opening of the groove is formed, the third metal contact is in contact with the second metal contact, so that the camera module operates.

11. A terminal is characterized by comprising the shooting device according to any one of claims 2 to 9, and further comprising a control assembly, wherein the control assembly is contained in the containing cavity and electrically connected with the display screen and the camera module so as to control the display screen and the camera module to operate.