CN210670879U - Hand-held terminal equipment for camera shooting - Google Patents

Abstract

The utility model discloses a hand-held terminal equipment for camera shooting, which comprises a data operation unit, a remote control unit and a display unit, wherein the data operation unit, the remote control unit and the display unit are respectively provided with a first shell, a second shell and a third shell, the first shell is provided with a first chute, the second shell is provided with a sliding convex edge matched with the first chute, and the first shell is provided with a first limit boss at a position corresponding to the first end of the first chute; first shell is equipped with the spacing subassembly of first spring in the position that corresponds to the second end of first spout, and the spacing subassembly of first spring includes first compression spring, spacing bolt, sliding block and plectrum, and the plectrum is connected with spacing bolt through the sliding block that can slide in first guide way to be used for cooperating jointly with first spacing boss and carry the slip chimb. The utility model discloses a but data operation unit, remote control unit and the split of display element also can assemble together, and the dismouting is all more convenient moreover, can adapt to multiple use occasion.

Description

Hand-held terminal equipment for camera shooting

Technical Field

The utility model belongs to the technical field of the remote control, more specifically relates to a handheld terminal equipment is used in making a video recording.

Background

In industrial manufacturing, a large number of cameras are required to acquire field images. Currently, mobile apparatuses having an image pickup device are widely used. For example, an unmanned aerial vehicle with a camera can track and shoot and transmit shot images and/or videos to a user in real time, and the application of the existing unmanned aerial vehicle in the fields of aerial photography, agriculture, plant protection, miniature self-shooting, express transportation, disaster relief, wild animal observation, infectious disease monitoring, surveying and mapping, news reporting, power inspection, disaster relief, movie and television shooting, romance manufacturing and the like greatly expands the use of the unmanned aerial vehicle.

When using unmanned aerial vehicle to shoot, unmanned aerial vehicle can communicate with subaerial remote controller, data operation unit and display respectively through radio frequency technology. The remote controller can remote control unmanned aerial vehicle's flight gesture, data operation unit can modify the parameter of unmanned aerial vehicle and the last sensor, the image and/or the video that required parameter information and camera were shot when the display can show unmanned aerial vehicle flight are watched for the user, like this when unmanned aerial vehicle carries out simple task, look the difficult and easy degree of task, can carry out the remote control through single, two or three people, data operation and observation image and/or video.

However, in some cases, it is inconvenient to disassemble the data operation unit and the display of the camera-shooting handheld terminal device after the data operation unit and the display are connected, so that if the data operation unit and the display are required to be separated, for example, the display is sometimes required to provide some technicians and visit leaders with images and/or videos, and when the data operation unit and the remote controller are required to provide operations for different technicians, a group of people are gathered together, and the operations and the watching are inconvenient; some data operation units and displays are easy to detach after being connected together, but the connection is not firm, and the display units are easy to shake, so that the viewing effect is influenced.

SUMMERY OF THE UTILITY MODEL

To the above defect or the improvement demand of prior art, the utility model provides a but make a video recording and use handheld terminal device, but its data operation unit, remote control unit and display element split also can assemble together, and the dismouting is all more convenient moreover, can adapt to multiple use occasion.

To achieve the above object, according to one aspect of the present invention, there is provided a hand-held terminal device for photographing including a data operating unit, a remote control unit, and a display unit, the data operating unit, the remote control unit, and the display unit having a first housing, a second housing, and a third housing, respectively, the third housing being detachably attached to the first housing, characterized in that,

the first shell is provided with a first sliding chute, the second shell is provided with a sliding convex edge matched with the first sliding chute, the first shell is provided with a first limiting boss at a position corresponding to a first end of the first sliding chute, and the first shell is provided with a first spring accommodating groove and a first guide groove communicated with the first spring accommodating groove at a position corresponding to a second end of the first sliding chute;

the first shell is provided with a first spring limiting assembly at a position corresponding to the second end of the first sliding groove, the first spring limiting assembly comprises a first compression spring, a limiting bolt, a sliding block and a shifting piece, the first compression spring is arranged in the first spring accommodating groove, the first compression spring is perpendicular to the first sliding groove, one end of the limiting bolt is abutted against the first compression spring, the other end of the limiting bolt extends into the first sliding groove and is abutted against the sliding flange, and the shifting piece is connected with the limiting bolt through the sliding block capable of sliding in the first guide groove so as to be matched with the first limiting boss to clamp the sliding flange.

Preferably, a first connector is arranged in the first housing, and the first connector is connected with a first main board in the first housing and a second main board in the second housing.

Preferably, the sliding convex edge is provided with a groove A used for being matched with the limit bolt at a position corresponding to the limit bolt.

Preferably, a plurality of wave ball screws are mounted in the first housing and arranged along the longitudinal direction of the first sliding chute, and the sliding convex edge is respectively provided with a groove B for being matched with a steel ball of the wave ball screw at a position corresponding to each wave ball screw.

Preferably, the first housing is provided with a damping rotating shaft, the damping rotating shaft is provided with a connecting shaft, the connecting shaft is provided with a second sliding groove, the second sliding groove is a dovetail groove or a T-shaped groove, and the third housing is provided with a sliding convex strip matched with the second sliding groove;

the first shell is provided with a second spring accommodating groove and a second guide groove communicated with the second spring accommodating groove;

a second spring limiting assembly is mounted on the first shell and comprises a second compression spring, a sliding limiting block and a pressing plate, the second compression spring is arranged in the second spring accommodating groove and is perpendicular to the second sliding groove, one end of the second compression spring is abutted against the first shell, the other end of the second compression spring is connected with the sliding limiting block which can slide in the second guide groove, and the sliding limiting block is connected with the pressing plate;

a notch communicated with the second sliding groove is formed in the position, corresponding to the pressing plate, of the first shell;

and a second limiting boss which is used for being matched with the sliding convex strip to clamp the sliding limiting block is further arranged on the third shell.

Preferably, the second spring retainer assemblies are provided in plural and arranged along the longitudinal direction of the second slide groove, the pressing plates of the second spring retainer assemblies are connected together by a connecting plate, and accordingly, the second slide groove and the slide protruding strip are also provided in plural respectively.

Preferably, the pressure plate extends into a notch in the first housing.

Preferably, the first housing includes a shaft main body and a shield cover, wherein,

a groove C is formed in the shaft main body, and the second spring accommodating groove is formed in the groove C;

and a bearing step is further arranged in the groove C, the blocking cover is supported by the bearing step and detachably connected to the bearing step so as to seal the groove C, and the sliding limiting block penetrates through the blocking cover.

Preferably, the side of the cover remote from the recess C is flush with the inner wall of the shaft body.

Preferably, a second connector is arranged in the first housing, and the second connector is connected with the first main board in the first housing and a third main board in a third housing.

Generally, through the utility model discloses above technical scheme who conceives compares with prior art, can gain following beneficial effect:

1) after the first spout of the first shell of remote control unit's second shell slides in, can connect the second shell on first shell, and realize the horizontal restriction along first spout to remote control unit, and the plectrum resets under first compression spring's drive after, can clip the both ends of slip chimb with the cooperation of first spacing boss, realize the fore-and-aft restriction along first spout to slip chimb, consequently, it is very convenient just to install the remote control unit on the data operation unit, the installation is very convenient, firm in connection, if dismantle the remote control unit, then stir the plectrum after again with the roll-off in the first spout of remote control unit follow, the installation is very convenient with the dismantlement.

2) After the slip sand grip of the third shell of display element slides into the second spout on the connecting axle, can connect the third shell on first shell, and realize the horizontal restriction to display element along the second spout, and clamp plate and slip stopper reset the back under second compression spring's drive, the slip stopper can realize along the fore-and-aft restriction of second spout to the spacing boss of slip stopper and second, consequently very conveniently just install the display element on the data operation unit, it is very convenient to install, firm in connection, if dismantle the remote control unit, then can push down layering and slip stopper again after, with the display element roll-off in the second spout, it is very convenient to install and dismantle.

3) The utility model discloses a data operation unit, remote control unit and display element are all more convenient because installation and dismantlement, can adapt to single operation mode (single completion data operation, remote control and observation), double operation mode (double completion data operation, remote control and observation, alone carry out data operation or observation, alone carry out remote control or observation), perhaps three operation mode (three people accomplish data operation, remote control and observation, alone carry out data operation, alone carry out the remote control, alone observe), they carry out the split back, can carry out data operation at the scene of difference, remote control and observation, do not crowd people and crowd together, consequently, normal work can not receive the influence.

Drawings

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

fig. 2 is a schematic diagram of a remote control unit according to the present invention;

FIG. 3 is a schematic diagram of the remote control unit connected to the data operation unit;

fig. 4 is a schematic diagram of a display unit according to the present invention;

FIG. 5 is a schematic view of the present invention showing a connecting shaft mounted on a damping shaft;

FIG. 6 is a schematic view of the data manipulation unit of the present invention with a connection shaft mounted thereon;

FIG. 7 is a schematic view of the connecting plate connecting two press plates according to the present invention;

fig. 8 is an enlarged view at a in fig. 1.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention. Furthermore, the technical features mentioned in the embodiments of the present invention described below can be combined with each other as long as they do not conflict with each other.

As shown in fig. 1 to 8, a handheld terminal device for camera shooting includes a data operation unit 100, a remote control unit 200, and a display unit 300, where the display unit 300 can display images and/or videos shot by a camera of a product end (such as an unmanned aerial vehicle), and can observe the peripheral conditions of the product end in real time, the data operation unit 100 can display product data conditions (such as temperature, air pressure, speed, acceleration, and tilt angle), modify phase difference parameters of the product end and sensors thereon, and the remote control unit 200 can manipulate the steering and pitching of the product end.

The data operation unit 100, the remote control unit 200 and the display unit 300 are respectively provided with a first housing 1, a second housing 2 and a third housing 3, the third housing 3 is detachably connected to the first housing 1, the first housing 1 is provided with a first chute 11, the first chute 11 is a dovetail groove or a T-shaped groove, the second housing 2 is provided with a sliding convex edge 21 matched with the first chute 11, the first housing 1 is provided with a first limit boss 12 at a position corresponding to a first end of the first chute 11, and the first housing 1 is provided with a first spring accommodating groove 13 and a first guide groove 14 communicated with the first spring accommodating groove 13 at a position corresponding to a second end of the first chute 11;

the first housing 1 is provided with a first spring limiting component 15 at a position corresponding to the second end of the first sliding slot 11, the first spring limiting component 15 includes a first compression spring 151, a limiting bolt 152, a sliding block 153 and a shifting piece 154, the first compression spring 151 is disposed in the first spring receiving slot 13, the first compression spring 151 is perpendicular to the first sliding slot 11, one end of the limiting bolt 152 abuts against the first compression spring 151, the other end of the limiting bolt 152 extends into the first sliding slot 11 and abuts against the sliding flange 21, and the shifting piece 154 is connected with the limiting bolt 152 through the sliding block 153 capable of sliding in the first guide slot 14, so as to cooperate with the first limiting boss 12 to clamp the sliding flange 21.

Further, the sliding flange 21 is provided with a groove a22 for matching with the limit bolt 152 at a position corresponding to the limit bolt 152.

Further, a plurality of wave ball screws 17 are mounted in the first housing 1 and the wave ball screws 17 are arranged along the longitudinal direction of the first sliding chute 11, and the sliding convex edge 21 is provided with a groove B23 for being engaged with the steel ball of the wave ball screw 17 at a position corresponding to each wave ball screw 17.

Referring to fig. 1, when the remote control unit 200 is mounted on the data operation unit 100, the sliding convex edge 21 of the remote control unit 200 on the right side of the first housing 1 abuts against the limiting bolt 152 and the sliding block 153, the limiting bolt 152 and the sliding block 153 are also pressed, the first compression spring 151 in the first housing 1 contracts, the sliding convex edge 21 of the remote control unit 200 enters the first sliding groove 11 and abuts against the first housing 1, at this time, the first sliding groove 11 is engaged with the sliding convex edge 21, the remote control unit 200 slides along the first sliding groove 11, when sliding to the position abutting against the first limiting boss 12, the bump screw 17 is just embedded into the groove B23, and the limiting bolt 152 and the sliding block 153 rebound under the action of the first compression spring 151, the limiting bolt 152 is just embedded into the groove a22, and the sliding block 153 abuts against one end of the sliding convex edge 21, and cooperates with the first limiting boss 12 to clamp the sliding convex edge 21, thereby achieving fixation of the first housing 1 of the remote control unit 200.

In this state, the ball screw 17 functions as a positioning member, the limit pin 152 and the slide block 153 fix the Y axis (which is the same as the longitudinal direction of the first slide groove 11), and the first slide groove 11 fixes the X axis and the Z axis (which are two axes perpendicular to the Y axis and together form a cartesian coordinate system).

When it is necessary to detach the remote control unit 200 from the data operation unit 100, the slide block 153 is moved to press the first compression spring 151, and then the remote control unit 200 is slid along the first slide groove 11 so that the slide flange 21 is moved out of the first slide groove 11, so that the data operation unit 100 can be detached from the remote control unit 200.

Further, a damping rotating shaft 18 is arranged on the first housing 1, a connecting shaft 4 is mounted on the damping rotating shaft 18, a second sliding groove 41 is arranged on the connecting shaft 4, the second sliding groove 41 is a dovetail groove or a T-shaped groove, and a sliding protruding strip 31 matched with the second sliding groove 41 is arranged on the third housing 3;

the first housing 1 is provided with a second spring accommodating groove 42 and a second guide groove 43 communicated with the second spring accommodating groove 42;

a second spring position limiting assembly 44 is mounted on the first housing 1, the second spring position limiting assembly 44 includes a second compression spring 441, a sliding position limiting block 442 and a pressing plate 443, the second compression spring 441 is disposed in the second spring receiving groove 42 and is perpendicular to the second sliding groove 41, one end of the second compression spring 441 abuts against the first housing 1, and the other end of the second compression spring receives the sliding position limiting block 442 which can slide in the second guiding groove 43, and the sliding position limiting block 442 is connected with the pressing plate 443;

the first housing 1 is provided with a notch 45 communicating with the second chute 41 at a position corresponding to the pressing plate 443;

the third housing 3 is further provided with a second limiting boss 32 for cooperating with the sliding protruding strip 31 to clamp the sliding limiting block 442.

Further, the second spring retainer assembly 44 is provided in plural and arranged along the longitudinal direction of the second slide groove 41, the pressing plates 443 of the second spring retainer assemblies 44 are connected together by the connecting plate 46, and accordingly, the second slide groove 41 and the slide protrusion 31 are also provided in plural respectively.

Further, the pressing plate 443 extends into the notch 45 of the first housing 1, so that the pressing plate 443 is pressed down from the notch 45, and the sliding limiting block 442 is pressed down on the second compression spring 441 to deform the second compression spring 441, so that the sliding limiting block 442 can avoid the sliding protruding strip 31.

Further, the first housing 1 includes a shaft main body 401 and a shield cover 402, wherein,

a groove C103 is provided on the shaft main body 401 and the second spring receiving groove 42 is provided in the groove C103;

a receiving step 104 is further disposed in the groove C103, the cover 402 is received by the receiving step 104 and detachably connected to the receiving step 104 to close the groove C103, the sliding stopper 442 passes through the cover 402, and the second sliding groove 41 extends to the cover 402, so that the sliding stopper 442 is prevented from being bounced away by the second compression spring 441 through the cover 402.

Further, the side of the cover 402 away from the groove C103 is flush with the inner wall of the shaft body 401, so that the cover 402 will not interfere with the normal sliding of the sliding protrusion 31.

Further, a first connector 16 is arranged in the first housing 1, the first connector 16 is connected to a first main board in the first housing 1 and a second main board in the second housing 2, a second connector 47 is further arranged in the first housing 1, and the second connector 47 is connected to the first main board in the first housing 1 and a third main board in the third housing 3, so that the data operation unit 100, the remote control unit 200 and the display unit 300 can be electrically connected, a battery in the first housing 1 can be conveniently charged, and the display unit 300 and the remote control unit 200 can also be supplied with electric power through the battery.

When the display unit 300 is installed on the data operation unit 100, the sliding protruding strip 31 on the display unit 300 is inserted into the second sliding groove 41 and the sliding protruding strip 31 continues to move to abut against the sliding stopper 442, the sliding stopper 442 or the sliding protruding strip 31 is provided with a chamfer or a curved surface so that the sliding stopper 442 is pressed down by the sliding protruding strip 31, the sliding stopper 442 moves downward under the force, the second sliding groove 41 and the sliding protruding strip 31 completely align with each other, the sliding protruding strip 31 continues to move along the second sliding groove 41 until the sliding stopper 442 rebounds under the action of the second compression spring 441 and just snaps into a notch formed between the sliding protruding strip 31 and the second stopper boss 32, and the sliding stopper 442 is clamped between the sliding protruding strip 31 and the second stopper boss 32, so that the display unit 300 is fixed and locked. When the display unit 300 needs to be detached, the pressing plate 443 is pressed down, the slide stopper 442 is also controlled to release the limitation on the slide protrusion 31, and then the display unit 300 is held to slide the slide protrusion 31 in the second sliding groove 41 until the slide protrusion 31 is separated from the second sliding groove 41, so that the display unit 300 and the data operation unit 100 can be detached.

The utility model discloses a first shell 1, second shell 2 and the third shell 3's of data operation unit 100, remote control unit 200 and display element 300 connection of dismantling can realize following multiple mode of operation:

1) single person mode: the mode is a single-person mode, and all operations are completed by a single person.

2) Double mode: 11) one person checks the image, the other person remotely controls the product end to check the parameters, and the parameters are modified; 12) one person checks the image and also checks the data of the product end, edits and modifies parameters and the like, and the other person remotely controls the product end; 13) one person can view the image while remotely controlling the product end, and the other person can view the data, modify the parameters and the like. Therefore, different people can watch and operate in different places.

3) Three-person mode: one person is at the product control end, one person checks the image, and one person checks the parameters and modifies the parameters. Therefore, different people can watch and operate in different places.

It will be understood by those skilled in the art that the foregoing is merely a preferred embodiment of the present invention, and is not intended to limit the invention to the particular forms disclosed, but on the contrary, the intention is to cover all modifications, equivalents, and alternatives falling within the spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. A hand-held terminal device for photographing includes a data operation unit, a remote control unit, and a display unit, the data operation unit, the remote control unit, and the display unit having a first housing, a second housing, and a third housing, respectively, the third housing being detachably connected to the first housing,

the first shell is provided with a first sliding chute, the second shell is provided with a sliding convex edge matched with the first sliding chute, the first shell is provided with a first limiting boss at a position corresponding to a first end of the first sliding chute, and the first shell is provided with a first spring accommodating groove and a first guide groove communicated with the first spring accommodating groove at a position corresponding to a second end of the first sliding chute;

the first shell is provided with a first spring limiting assembly at a position corresponding to the second end of the first sliding groove, the first spring limiting assembly comprises a first compression spring, a limiting bolt, a sliding block and a shifting piece, the first compression spring is arranged in the first spring accommodating groove, the first compression spring is perpendicular to the first sliding groove, one end of the limiting bolt is abutted against the first compression spring, the other end of the limiting bolt extends into the first sliding groove and is abutted against the sliding flange, and the shifting piece is connected with the limiting bolt through the sliding block capable of sliding in the first guide groove so as to be matched with the first limiting boss to clamp the sliding flange.

2. A camera handheld terminal device according to claim 1, characterized in that a first connector is provided in the first housing, and the first connector connects a first main board in the first housing and a second main board in the second housing.

3. A camera hand-held terminal device according to claim 1, characterized in that the sliding flange is provided with a groove a for engagement with the limit bolt at a position corresponding to the limit bolt.

4. The camera handheld terminal device of claim 1, wherein a plurality of bead screws are mounted in the first housing and arranged along a longitudinal direction of the first sliding groove, and the sliding flange is provided with a groove B for engaging with a steel ball of each bead screw at a position corresponding to each bead screw.

5. A camera hand-held terminal device according to claim 1, characterized in that the first housing is provided with a damping rotating shaft, the damping rotating shaft is provided with a connecting shaft, the connecting shaft is provided with a second sliding groove, the second sliding groove is a dovetail groove or a T-shaped groove, and the third housing is provided with a sliding convex strip adapted to the second sliding groove;

the first shell is provided with a second spring accommodating groove and a second guide groove communicated with the second spring accommodating groove;

a second spring limiting assembly is mounted on the first shell and comprises a second compression spring, a sliding limiting block and a pressing plate, the second compression spring is arranged in the second spring accommodating groove and is perpendicular to the second sliding groove, one end of the second compression spring is abutted against the first shell, the other end of the second compression spring is connected with the sliding limiting block which can slide in the second guide groove, and the sliding limiting block is connected with the pressing plate;

a notch communicated with the second sliding groove is formed in the position, corresponding to the pressing plate, of the first shell;

and a second limiting boss which is used for being matched with the sliding convex strip to clamp the sliding limiting block is further arranged on the third shell.

6. A camera hand-held terminal device according to claim 5, characterized in that the second spring retainer block is provided in plural and arranged along the longitudinal direction of the second slide groove, the pressing plates of the second spring retainer blocks are connected together by a connecting plate, and accordingly, the second slide groove and the slide rib are provided in plural respectively.

7. A camera handheld terminal device according to claim 5, characterized in that the pressure plate extends into a notch in the first housing.

8. A camera hand-held terminal device according to claim 5, characterized in that the first housing comprises a shaft main body and a shield cover, wherein,

a groove C is formed in the shaft main body, and the second spring accommodating groove is formed in the groove C;

and a bearing step is further arranged in the groove C, the blocking cover is supported by the bearing step and detachably connected to the bearing step so as to seal the groove C, and the sliding limiting block penetrates through the blocking cover.

9. A camera-use hand-held terminal device according to claim 8, characterized in that the side of the cover facing away from the recess C is flush with the inner wall of the shaft body.

10. A camera handheld terminal device according to claim 1, wherein a second connector is provided in the first housing, and the second connector connects the first main board in the first housing and the third main board in the third housing.

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