CN214037607U - Automatic height-adjusting's integral type computer - Google Patents

Abstract

The utility model relates to the technical field of computers, in particular to an integrated computer capable of automatically adjusting height, which comprises a computer main body, a supporting component and an angle adjusting component; the computer main body is provided with an image collector and a controller; the angle adjusting component comprises a rotating shaft and a rotating shaft mounting piece, the rotating shaft is hinged with the rotating shaft mounting piece, and the rotating shaft mounting piece is arranged on the computer main body; the supporting component comprises a limiting plate, a lifting driving unit and a height adjusting piece detachably connected with the limiting plate, a first accommodating cavity is formed between the limiting plate and the height adjusting piece, the lifting driving unit is installed in the first accommodating cavity, a rotating shaft is installed on the limiting plate in a sliding mode, the lifting driving unit is used for driving the rotating shaft to lift, the height adjusting piece is used for fixing the rotating shaft, and the lifting driving unit and the height adjusting piece are connected with a controller through signals. The utility model provides a pair of automatic integral type computer of height-adjusting realizes the purpose of self-adaptation adjustment computer height, is applicable to the crowd of co-altitude not.

Description

Automatic height-adjusting's integral type computer

Technical Field

The utility model belongs to the technical field of the computer technique and specifically relates to indicate an automatic height-adjusting's integral type computer.

Background

Most office staff need face the computer always in most of a day, and the position of sitting often needs the adjustment, so lead to the posture of watching the computer screen inaccurate, for conveniently watching, the height of manual adjustment computer screen in most of times, adapt to current visual angle, when the people is lazy or forget, will watch the computer screen with the visual angle that is fit for, thereby can influence people's eyesight, in addition, sometimes, same computer can not the people of co-altitude use, the user still needs the height of frequent manual adjustment computer, it is very inconvenient.

Disclosure of Invention

The utility model discloses problem to prior art provides an automatic integral type computer of height-adjusting, can self-adaptation user's visual angle height, reduces the frequency that the user adjusted the computer height.

In order to solve the technical problem, the utility model discloses a following technical scheme: an integrated computer capable of automatically adjusting height comprises a computer main body, a supporting component and an angle adjusting component, wherein the computer main body is connected with the supporting component through the angle adjusting component; the computer main body is provided with an image collector and a controller, and the image collector is in signal connection with the controller; the angle adjusting assembly comprises a rotating shaft and a rotating shaft mounting piece, the rotating shaft is hinged with the rotating shaft mounting piece, and the rotating shaft mounting piece is arranged on the computer main body; the supporting assembly comprises a limiting plate, a lifting driving unit and a height adjusting piece detachably connected with the limiting plate, a first accommodating cavity is formed between the limiting plate and the height adjusting piece, the lifting driving unit is installed in the first accommodating cavity, the rotating shaft is installed in the limiting plate in a sliding mode, the lifting driving unit is used for driving the rotating shaft to lift, the height adjusting piece is used for fixing the rotating shaft, and the lifting driving unit and the height adjusting piece are connected with the controller through signals.

Preferably, the limiting plate is provided with a rectangular through groove, the rectangular through groove is communicated with the first accommodating cavity, and one end of the rotating shaft, which is far away from the rotating shaft mounting part, is limited in the first accommodating cavity after penetrating through the rectangular through groove; the lifting driving unit comprises a lifting driving motor and two screw rods, the lifting driving motor is in signal connection with the controller, two ends of each screw rod are rotatably arranged on the limiting plate, the two screw rods are respectively positioned on two sides of the rectangular through groove, and the two screw rods penetrate through the rotating shaft and are in threaded connection with the rotating shaft; the output end of the lifting driving motor is in driving connection with a driving gear, two driven gears are arranged at one end, close to the lifting driving motor, of the screw rod, and the two driven gears are meshed with the driving gear.

Preferably, the height adjusting part comprises a fixed plate, a support and a movable driving cylinder, the movable driving cylinder is in signal connection with the controller, the limiting plate is fixedly arranged on the support, the support is provided with an installation area, the top and the bottom of the installation area are both provided with sliding rails, the top and the bottom of the fixed plate are both provided with sliding chutes, the sliding rails are assembled in the sliding chutes and are in sliding connection with the inner walls of the sliding chutes, and the movable driving cylinder is used for driving the fixed plate to slide; the rotating shaft is convexly provided with a limiting block, the fixed plate is provided with a plurality of limiting holes for assembling the limiting block, and the limiting holes are arranged in parallel at intervals; the limiting block is provided with a first sensing piece, and the first sensing piece is in signal connection with the controller.

Preferably, both ends of the slide rail are convexly provided with stop blocks, and the stop blocks are used for being abutted to the fixed plate.

Preferably, the support assembly further comprises a cover plate, the cover plate is arranged on the support and forms a second cavity with the fixing plate, and the movable driving cylinder is arranged in the second cavity;

the two sides of the cover plate are provided with a plurality of clamping grooves, the two sides of the bracket are provided with a plurality of bulges, the bulges are assembled in the clamping grooves, and the length of the clamping grooves is greater than that of the bulges; the opening part of the clamping groove is convexly extended with a clamping strip, the bulge is provided with a clamping point, and the clamping strip is provided with a concave point for assembling the clamping point.

Preferably, the limiting block of the rotating shaft comprises a triangular limiting block and a circular limiting block, the plurality of limiting holes in the fixed plate comprise triangular limiting holes and circular limiting holes, the triangular limiting holes are used for assembling the triangular limiting block, and the circular limiting holes are used for assembling the circular limiting block; the rotating shaft mounting piece comprises a connecting shaft and a mounting seat, the mounting seat is fixed on the back of the computer main body, a first through hole and a second through hole are respectively formed in two sides of the mounting seat, a third through hole is formed in the rotating shaft, the connecting shaft sequentially penetrates through the first through hole, the third through hole and the second through hole to connect the rotating part with the mounting seat, the connecting shaft and the rotating shaft synchronously move, and two ends of the connecting shaft are respectively rotatably connected with the inner wall of the first through hole and the inner wall of the second through hole; the two sides of the mounting seat are provided with angle grooves, the two sides of the connecting shaft are provided with clamping blocks, the clamping blocks and the connecting shaft synchronously rotate, and the clamping blocks are arranged in the angle grooves.

Preferably, the mounting seat is provided with a control rod, one end of the control rod is fixed on the mounting seat, the other end of the control rod is provided with a control ball, and the control ball is positioned on the side surface of the computer main body; the back of the computer main body is convexly provided with a protective cover, a mounting groove is formed between the protective cover and the computer main body, the control rod is positioned in the mounting groove, the back of the computer main body is also provided with a slide way, and the protective cover is connected with the slide way in a sliding way; the visor is provided with the locking unit, the locking unit includes check lock lever and elastic component, the check lock lever wear to establish the visor and with visor sliding connection, the jack has been seted up on the control lever, two locking grooves have been seted up on the check lock lid, all installed in the locking groove the elastic component, the both ends of elastic component are located the outer one end of visor with the inner wall in locking groove and check lock lever respectively and are connected.

Preferably, a lifting assembly used for controlling the image collector to lift is arranged in the computer main body, the lifting assembly comprises a rotating gear, a sliding part, a spring and a locking part, a through groove is formed in the top of the computer main body, the image collector is connected in the through groove in a sliding manner, the sliding part is connected to two sides of the image collector in a sliding manner, the sliding part is connected with the computer main body in a sliding manner, the image collector is provided with a chain, the chain is meshed with the rotating gear, the rotating gear is connected with the computer main body in a rotating manner, a first clamping part is arranged at the top of the computer main body, a first connecting groove with an upward opening is formed in the first clamping part, and two ends of the spring are respectively arranged in the first connecting groove and at the bottom of the sliding part; the image collector is provided with a connecting block, and the connecting block is limited in the locking part after the image collector slides downwards.

Preferably, a first guide block is arranged in the computer main body, the sliding piece is provided with a first guide groove, and the first guide block is limited in the first guide groove and is in sliding connection with the inner wall of the first guide groove; the bottom of slider is protruding to be equipped with second joint portion, second joint portion sets up the second spread groove that the opening is down, the bottom of spring is installed in the second spread groove.

Preferably, the computer main part is built-in to be equipped with the fine setting subassembly that is used for adjusting the display card position, the fine setting subassembly includes the regulating block and installs the second guide block in the computer main part, the regulating block is connected with the display card the second guide slot has been seted up to the regulating block, be provided with the screw hole on the second guide block, wear to establish through the screw behind the second guide slot with the mode of screw hole spiro union with regulating block and second guide block locking.

The utility model has the advantages that:

the utility model provides a pair of automatic integral type computer of height-adjusting, at first through the visual angle height of image collector to the user before the computer screen, after that with image data transmission to controller, the controller judges that the computer main part needs to rise or reduce, the lift drive unit drive pivot of controlling again goes up and down, the pivot drives the computer main part through the pivot installed part and goes up and down again, fix the pivot at target height by altitude mixture control spare at last, realize the purpose of self-adaptation adjustment computer height, be applicable to not crowd of co-altitude, also be adapted to user's different position of sitting, do not need the height of often manual regulation computer.

Drawings

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

Fig. 2 is a schematic structural view of the support assembly after the cover plate is hidden.

Fig. 3 is the utility model discloses a pivot and limiting plate complex schematic structure.

Fig. 4 is the utility model discloses a pivot, limiting plate and lift drive unit complex schematic structure.

Fig. 5 is a partial cross-sectional view of the support assembly of the present invention.

Fig. 6 is the utility model discloses a decomposition structure schematic diagram of limiting plate, support and apron.

Fig. 7 is an enlarged view of a portion a in fig. 6.

Fig. 8 is an exploded schematic view of the fixing plate and the bracket of the present invention.

Fig. 9 is a schematic structural diagram of the slide rail, the fixing plate and the stopper of the present invention.

Fig. 10 is a schematic structural view of the angle adjusting assembly of the present invention.

Fig. 11 is an exploded schematic view of the angle adjusting assembly of the present invention.

Fig. 12 is a schematic structural view of the control lever and the protective cover of the present invention.

Fig. 13 is a schematic structural diagram of the locking unit of the present invention.

Fig. 14 is a schematic diagram of the internal structure of the computer main body according to the present invention.

Fig. 15 is an enlarged view at B in fig. 14.

Fig. 16 is an enlarged view at C in fig. 14.

The reference numerals in fig. 1 to 16 include:

1-a computer main body, 11-an image collector, 12-a controller, 2-a rotating shaft, 21-a limiting block, 22-a first sensing part, 23-a triangular limiting block, 24-a circular limiting block, 3-a rotating shaft mounting part, 31-a connecting shaft, 32-a mounting seat, 33-a first through hole, 34-a second through hole, 35-a third through hole, 36-an angle groove, 37-a clamping block, 4-a limiting plate, 41-a first accommodating cavity, 42-a rectangular through groove, 5-a lifting driving unit, 51-a lifting driving motor, 52-a screw rod, 53-a driving gear, 54-a driven gear, 6-a height adjusting part, 61-a fixing plate, 62-a bracket, 63-a moving driving cylinder and 64-a mounting area, 65-slide rail, 66-slide groove, 67-limit hole, 671-triangle limit hole, 672-round limit hole, 68-stop block, 69-protrusion, 70-clamping point, 7-cover plate, 71-second cavity, 72-clamping groove, 73-clamping strip, 74-concave point, 8-control rod, 81-control ball, 82-protective cover, 83-mounting groove, 84-slide rail, 85-locking rod, 86-elastic piece, 87-jack, 88-locking groove, 89-fixed cover, 90-sliding cover, 91-rotating gear, 92-sliding piece, 93-spring, 94-locking piece, 95-chain, 96-first clamping part, 98-connecting block, 99-first guide block, 100-first guide groove, 101-a second clamping part, 102-a second connecting groove, 103-a second guide block, 104-a second guide groove, 105-a screw hole, 106-a regulating block and 107-a fingerprint unlocking device.

Detailed Description

In order to facilitate understanding of those skilled in the art, the present invention will be further described with reference to the following examples and drawings, which are not intended to limit the present invention. The present invention will be described in detail with reference to the accompanying drawings.

The integrated computer with the automatic height adjustment function provided by the present embodiment, as shown in fig. 1 to 5 and 10, includes a computer main body 1, a supporting component and an angle adjustment component, wherein the computer main body 1 is connected to the supporting component through the angle adjustment component; the computer body 1 is provided with an image collector 11 and a controller 12, and the image collector 11 is in signal connection with the controller 12; the angle adjusting assembly comprises a rotating shaft 2 and a rotating shaft mounting piece 3, the rotating shaft 2 is hinged with the rotating shaft mounting piece 3, and the rotating shaft mounting piece 3 is mounted on the computer main body 1; the supporting component comprises a limiting plate 4, a lifting driving unit 5 and a height adjusting piece 6 detachably connected with the limiting plate 4, a first accommodating cavity 41 is formed between the limiting plate 4 and the height adjusting piece 6, the lifting driving unit 5 is installed in the first accommodating cavity 41, the rotating shaft 2 is installed on the limiting plate 4 in a sliding mode, the lifting driving unit 5 is used for driving the rotating shaft 2 to lift, the height adjusting piece 6 is used for fixing the rotating shaft 2, and the lifting driving unit 5 and the height adjusting piece 6 are both in signal connection with the controller 12. Preferably, the controller 12 of the present embodiment may be a controller 12 in a computer, or may be additionally provided with a controller 12, such as a single chip microcomputer; the image collector 11 adopts a camera in the prior art.

Specifically, the working principle of this embodiment is as follows: the height of a visual angle of a user in front of a computer screen is collected through an image collector 11, then image data are transmitted to a controller 12, the controller 12 judges that a computer main body 1 needs to be lifted or lowered, a lifting driving unit 5 is controlled to drive a rotating shaft 2 to lift, the rotating shaft 2 drives the computer main body 1 to lift through a rotating shaft mounting part 3, and finally the rotating shaft 2 is fixed at a target height through a height adjusting part 6, so that the purpose of self-adaptive adjustment of the height of a computer is achieved, the height-adjustable computer screen is suitable for people with different heights, is also suitable for different sitting postures of users, and does not need to frequently and manually adjust the height of the computer.

In the integrated computer with the automatic height adjustment function provided by this embodiment, as shown in fig. 3 to 5, the limiting plate 4 is provided with a rectangular through groove 42, the rectangular through groove 42 is communicated with the first accommodating cavity 41, and one end of the rotating shaft 2, which is far away from the rotating shaft mounting part 3, is limited in the first accommodating cavity 41 after penetrating through the rectangular through groove 42; the lifting driving unit 5 comprises a lifting driving motor 51 and two screw rods 52, the lifting driving motor 51 is in signal connection with the controller 12, two ends of each screw rod 52 are rotatably mounted on the limiting plate 4, the two screw rods 52 are respectively located at two sides of the rectangular through groove 42, and the two screw rods 52 penetrate through the rotating shaft 2 and are in threaded connection with the rotating shaft 2; the output end of the lifting driving motor 51 is in driving connection with a driving gear 53, one end of each of the two screw rods 52 close to the lifting driving motor 51 is provided with a driven gear 54, and the two driven gears 54 are meshed with the driving gear 53.

Specifically, the working principle of the lifting drive unit 5 of the present embodiment is as follows: after controller 12 receives image collector 11's data, judge the computer height that current user is fit for, control lift driving motor 51 after that and start, lift driving motor 51 drives driving gear 53 and rotates, driving gear 53 drives two driven gear 54 rotations again, driven gear 54 and then drives two lead screws 52 and rotate, pivot 2 with the lead screw 52 spiro union alright rise or reduce, it goes up and down to drive whole computer main part 1 through pivot installed part 3, when computer main part 1 adjusts to the target height, controller 12 then sends the work that the signal stopped lift driving motor 51, it is fixed with pivot 2 to control height adjustment spare 6 again at last, prevent that pivot 2 from becoming flexible. The lifting driving unit 5 of this embodiment can control the lift of pivot 2 under the control of controller 12, simple structure to can install in the first appearance chamber 41 that forms between limiting plate 4 and altitude mixture control piece 6, can not the volume size of the integral type computer of this embodiment, therefore the practicality is high.

As shown in fig. 2, 5, 6, 8 and 9, the height adjusting member 6 includes a fixing plate 61, a bracket 62 and a movable driving cylinder 63, the movable driving cylinder 63 is in signal connection with the controller 12, the position-limiting plate 4 is fixedly mounted on the bracket 62, the bracket 62 is provided with a mounting area 64, the top and the bottom of the mounting area 64 are both provided with a sliding rail 65, the top and the bottom of the fixing plate 61 are both provided with a sliding groove 66, the sliding rail 65 is mounted in the sliding groove 66 and is in sliding connection with the inner wall of the sliding groove 66, and the movable driving cylinder 63 is used for driving the fixing plate 61 to slide; the rotating shaft 2 is convexly provided with a limiting block 21, the fixing plate 61 is provided with a plurality of limiting holes 67 for assembling the limiting block 21, and the limiting holes 67 are arranged in parallel at intervals; the limiting block 21 is provided with a first sensing part 22, and the first sensing part 22 is in signal connection with the controller 12.

Specifically, the working principle of the height adjusting member 6 of the present embodiment is: when the rotating shaft 2 moves to the target height and the lifting driving motor 51 stops working, the controller 12 sends a signal to the moving driving cylinder 63 at the moment, the moving driving cylinder 63 starts working to drive the fixing plate 61 to slide, and finally, after the limiting block 21 on the rotating shaft 2 penetrates through the limiting hole 67, the controller 12 sends a signal to stop the moving driving cylinder 63 to work, so that the fixing plate 61 stays at the current position, the rotating shaft 2 is limited at the current height, and the rotating shaft 2 is prevented from loosening. The stroke of the fixing plate 61 is actually fixed, that is, the controller 12 sets the time length for which the moving driving cylinder 63 needs to work, controls the moving distance of the fixing plate 61 each time, and ensures that the limiting block 21 can be assembled in the limiting hole 67 of the fixing plate 61, therefore, after the controller 12 sends a signal, the moving driving cylinder 63 controls the fixing plate 61 to slide away from the rotating shaft 2 or slide to be fixed with the rotating shaft 2, and when the controller 12 does not send a signal, the moving driving signal can automatically stop working after the set time length for work, thereby avoiding a fault. In addition, set up first response piece 22 on the stopper 21 of pivot 2, first response piece 22 can adopt infrared sensor, controller 12 can judge the visual angle high range of the computer that the user is fit for according to image collector 11's data in fact, in this scope, when first response piece 22 senses spacing hole 67, then send signal to controller 12, controller 12 stops lift driving motor 51 work this moment again, thereby stopper 21 in the pivot 2 just can be smooth assemble spacing hole 67 in, avoid appearing stopper 21 and spacing hole 67 counterpoint inaccurate and influence the condition of fixed plate 61 work.

Furthermore, both ends of the slide rail 65 are convexly provided with a stop 68, and the stop 68 is used for abutting against the fixing plate 61, so that the fixing plate 61 can be prevented from being separated from the slide rail 65.

As shown in fig. 6 and 7, the supporting assembly further includes a cover plate 7, the cover plate 7 is mounted on the bracket 62, and a second cavity 71 is formed between the cover plate 7 and the fixing plate 61, and the moving driving cylinder 63 is mounted in the second cavity 71; a plurality of clamping grooves 72 are formed in two sides of the cover plate 7, a plurality of protrusions 39 are formed in two sides of the fixing plate 61, the protrusions 39 are assembled in the clamping grooves 72, and the length of each clamping groove 72 is larger than that of each protrusion 39; a clamping strip 73 protrudes from an opening of the clamping groove 72, the protrusion 39 is provided with a clamping point 70, and the clamping strip 73 is provided with a concave point 74 for assembling the clamping point 70.

Specifically, the shape of the clamping groove 72 is as shown in fig. 7, the shape is similar to the number "7", when the cover plate 7 is installed, the protrusion 39 is installed at the bottom of the clamping groove 72 from the opening of the clamping groove 72, then the cover plate 7 is slid, the protrusion 39 slides, and finally the clamping point 70 slides and is clamped in the concave point 74, so that the cover plate 7 is fixed to the fixing plate 61, since the surfaces of the clamping point 70 and the concave point 74 are both arc-shaped, the clamping point 70 can be clamped in the concave point 74 through the action of external force, and similarly, the clamping point 70 can be pulled out of the concave point 74, so that the cover plate 7 cannot be separated from the height adjusting plate without the assistance of external force. The cover plate 7 can increase the aesthetic degree and can also protect the connection part of the rotating shaft 2 and the fixing plate 61.

As shown in fig. 10 and 11, the limit block 21 of the rotating shaft 2 includes a triangular limit block 23 and a circular limit block 24, the limit holes 67 on the fixing plate 61 include a triangular limit hole 671 and a circular limit hole 672, the triangular limit hole 671 is used for assembling the triangular limit block 23, and the circular limit hole 672 is used for assembling the circular limit block 24; the rotating shaft mounting part 3 comprises a connecting shaft 31 and a mounting seat 32, the mounting seat 32 is fixed on the back of the computer main body 1, a first through hole 33 and a second through hole 34 are respectively formed in two sides of the mounting seat 32, a third through hole 35 is formed in the rotating shaft 2, the connecting shaft 31 sequentially penetrates through the first through hole 33, the third through hole 35 and the second through hole 34 to connect the rotating part with the mounting seat 32, the connecting shaft 31 and the rotating shaft 2 synchronously move, and two ends of the connecting shaft 31 are respectively rotatably connected with the inner wall of the first through hole 33 and the inner wall of the second through hole 34; the two sides of the mounting seat 32 are provided with angle grooves 36, the two sides of the connecting shaft 31 are provided with clamping blocks 37, the clamping blocks 37 and the connecting shaft 31 rotate synchronously, and the clamping blocks 37 are arranged in the angle grooves 36.

Specifically, the stability when triangle-shaped stopper 23 can increase pivot 2 and the spacing hole 67 of triangle-shaped of fixed plate 61 and be connected prevents to produce the condition of rotation each other between pivot 2 and the fixed plate 61, and increases circular stopper 24 and circular spacing hole 672, can further fix pivot 2. The shape of the connecting shaft 31 is as shown in fig. 11, the shape of the third through hole 35 is the same as that of the connecting shaft 31, so that when the rotating shaft 2 is rotated, the connecting shaft 31 can rotate synchronously, the shapes of the first through hole 33 and the second through hole 34 are circular, so that the mounting seat 32 cannot rotate when the connecting shaft 31 rotates, and further, after the rotating shaft 2 is fixed on the supporting component, the computer body 1 can be rotated at will, the mounting seat 32 rotates along with the computer body 1, and the rotating shaft 2 and the supporting component cannot rotate, so that the angle of the computer body 1 can be adjusted, of course, the connection tightness of the mounting seat 32 and the connecting shaft 31 needs to be set, if the connection is too loose, the computer body 1 cannot be fixed, and if the connection is too tight, the computer body 1 cannot be rotated. In addition, the latch 37 is disposed in the angle groove 36, so that the movement of the latch 37 in the angle groove 36 can be limited, and the rotation range of the mounting seat 32, that is, the rotation range of the computer main body 1 can be limited.

In the integrated computer with automatic height adjustment provided by this embodiment, as shown in fig. 12 and 13, the mounting base 32 is provided with a control rod 8, one end of the control rod 8 is fixed on the mounting base 32, the other end of the control rod 8 is provided with a control ball 81, and the control ball 81 is located on the side surface of the computer main body 1; a protective cover 82 is convexly arranged on the back of the computer main body 1, a mounting groove 83 is formed between the protective cover 82 and the computer main body 1, the control rod 8 is positioned in the mounting groove 83, a slide 84 is further arranged on the back of the computer main body 1, and the protective cover 82 is in sliding connection with the slide 84; the visor 82 is provided with the locking unit, the locking unit includes check lock lever 85 and elastic component 86, check lock lever 85 wear to establish visor 82 and with visor 82 sliding connection, jack 87 has been seted up on the control lever 8, two locking grooves 88 have been seted up on the visor 82, all installed in the locking groove 88 the elastic component 86, the both ends of elastic component 86 are located the outer one end of visor 82 with the inner wall and the check lock lever 85 of locking groove 88 respectively and are connected.

Specifically, the control lever 8 is fixed to the mounting base 32, and therefore, the control lever acts synchronously with the computer main body 1, so that a user can directly rotate the control lever 8 to rotate the computer main body 1 at an angle, the computer main body 1 can be rotated without holding the computer main body 1 with both hands, and the control lever 8 is arranged to provide a fulcrum for the computer main body 1, thereby facilitating the use of the user. Further, a protective cover 82 is provided on the back of the computer main body 1 to protect the control lever 8 and to provide an aesthetic appearance. When the angle of the computer body 1 does not need to be adjusted, the protective cover 82 can slide, the control ball 81 of the control rod 8 is covered by the protective cover 82, when the angle needs to be adjusted, the locking rod 85 is pulled, the limit between the protective cover 82 and the control rod 8 is released, then the protective cover 82 is slid, the control ball 81 is exposed, a user can adjust the angle of the computer body 1 by using the control ball 81, and finally the protective cover 82 is reset and is inserted into the jack 87 again through the locking rod 85. The elastic member 86 may be a device having elasticity such as a spring, and the elastic member 86 may be fixed to the locking lever 85 to prevent the locking lever 85 from being loosened. In addition, the protective cover 82 includes a fixed cover 89 fixed on the mounting seat 32 and a sliding cover 90 slidably connected to the sliding rail 84, and the sliding cover 90 is slidably sleeved on the outer wall of the fixed cover 89, so that the sliding of the sliding cover 90 can be realized, and the control rod 8 can be completely protected by the fixed cover 89 and the sliding cover 90.

As shown in fig. 14 and 15, the height of the integrated computer provided in this embodiment is automatically adjusted, a lifting assembly for controlling the image collector 11 to ascend and descend is installed inside the computer main body 1, the lifting assembly includes a rotating gear 91, a sliding member 92, a spring 93 and a locking member 94, a through groove is formed in the top of the computer main body 1, the image collector 11 is slidably connected in the through groove, the sliding member 92 is connected to both sides of the image collector 11, the sliding member 92 is slidably connected to the computer main body 1, the image collector 11 is installed with a chain 95, the chain 95 is engaged with the rotating gear 91, the rotating gear 91 is rotatably connected to the computer main body 1, a first clamping portion 96 is arranged at the top of the computer main body 1, the first clamping portion 96 is provided with a first connecting groove (not shown in the drawings) having an upward opening, two ends of the spring 93 are respectively arranged in the first connecting groove and the bottom of the sliding part 92; the image collector 11 is provided with a connecting block 98, and the connecting block 98 is limited in the locking piece 94 after the image collector 11 slides downwards. A first guide block 99 is arranged inside the computer main body 1, the sliding member 92 is provided with a first guide groove 100, and the first guide block 99 is limited in the first guide groove 100 and is slidably connected with the inner wall of the first guide groove 100; a second clamping portion 101 is convexly arranged at the bottom of the sliding member 92, a second connecting groove 102 with a downward opening is formed in the second clamping portion 101, and the bottom of the spring 93 is installed in the second connecting groove 102. The first and second coupling grooves 102 for coupling the spring 93 are simple in structure, and facilitate the assembly and disassembly of the spring 93.

Specifically, the image collector 11 of this embodiment adopts a structure that is popped up or hidden by pressing, first, if the image collector 11 is hidden in the computer main body 1, the user can press the top of the computer main body 1, i.e., press the image collector 11, then the connecting block 98 leaves the locking member 94, the sliding member 92 is driven by the contracting elastic force of the spring 93 to slide up, the sliding member 92 drives the image collector 11 to slide up, and finally the image collector 11 is popped up, because the spring 93 is in the original state, which is exactly the position where the image collector 11 is popped up, and in cooperation with the engaging structure of the rotating gear 91 and the chain 95, the image collector 11 can be popped up or retracted at normal speed, the situation that the spring 93 resets to directly pop up the image collector 11 cannot occur, and damage to the image collector 11 is avoided.

The integral type computer of automatic height-adjusting that this embodiment provided, as fig. 16, the built-in fine setting subassembly that is used for adjusting the display card position that is equipped with of computer main body 1, the fine setting subassembly includes regulating block 106 and installs the second guide block 103 in computer main body 1, regulating block 106 is connected with the display card second guide slot 104 has been seted up to regulating block 106, be provided with screw hole 105 on the second guide block 103, wear to establish behind the second guide slot 104 through the screw and lock regulating block 106 and second guide block 103 with the mode of screw hole 105 spiro union.

Specifically, the position of the graphics card is finely adjusted by adjusting the position of the second guide block 103, so that the position of the graphics card can be adjusted when the mounting position of the graphics card is inaccurate, and the normal work of the computer main body 1 is ensured.

According to the integrated computer with the automatic height adjustment function, as shown in fig. 14, the computer main body 1 is provided with the fingerprint unlocking device 107, a user can unlock the computer by setting a fingerprint password, the use is convenient, and the confidentiality is higher.

The above description is only for the preferred embodiment of the present invention, and the present invention is not limited to the above description, and although the present invention is disclosed in the preferred embodiment, it is not limited to the above description, and any person skilled in the art can make some changes or modifications to equivalent embodiments without departing from the scope of the present invention, but all the technical solutions of the present invention are within the scope of the present invention.

Claims (10)

1. The utility model provides an automatic integral type computer of height-adjusting which characterized in that: the computer comprises a computer main body, a supporting component and an angle adjusting component, wherein the computer main body is connected with the supporting component through the angle adjusting component;

the computer main body is provided with an image collector and a controller, and the image collector is in signal connection with the controller;

the angle adjusting assembly comprises a rotating shaft and a rotating shaft mounting piece, the rotating shaft is hinged with the rotating shaft mounting piece, and the rotating shaft mounting piece is arranged on the computer main body;

the supporting assembly comprises a limiting plate, a lifting driving unit and a height adjusting piece detachably connected with the limiting plate, a first accommodating cavity is formed between the limiting plate and the height adjusting piece, the lifting driving unit is installed in the first accommodating cavity, the rotating shaft is installed in the limiting plate in a sliding mode, the lifting driving unit is used for driving the rotating shaft to lift, the height adjusting piece is used for fixing the rotating shaft, and the lifting driving unit and the height adjusting piece are connected with the controller through signals.

2. The all-in-one computer with automatic height adjustment according to claim 1, wherein: the limiting plate is provided with a rectangular through groove, the rectangular through groove is communicated with the first containing cavity, and one end of the rotating shaft, far away from the rotating shaft mounting part, penetrates through the rectangular through groove and is limited in the first containing cavity;

the lifting driving unit comprises a lifting driving motor and two screw rods, the lifting driving motor is in signal connection with the controller, two ends of each screw rod are rotatably arranged on the limiting plate, the two screw rods are respectively positioned on two sides of the rectangular through groove, and the two screw rods penetrate through the rotating shaft and are in threaded connection with the rotating shaft;

the output end of the lifting driving motor is in driving connection with a driving gear, two driven gears are arranged at one end, close to the lifting driving motor, of the screw rod, and the two driven gears are meshed with the driving gear.

3. The all-in-one computer with automatic height adjustment according to claim 1, wherein: the height adjusting part comprises a fixed plate, a support and a movable driving cylinder, the movable driving cylinder is in signal connection with the controller, the limiting plate is fixedly arranged on the support, the support is provided with an installation area, slide rails are arranged at the top and the bottom of the installation area respectively, slide grooves are formed in the top and the bottom of the fixed plate respectively, the slide rails are assembled in the slide grooves and are in sliding connection with the inner walls of the slide grooves, and the movable driving cylinder is used for driving the fixed plate to slide;

the rotating shaft is convexly provided with a limiting block, the fixed plate is provided with a plurality of limiting holes for assembling the limiting block, and the limiting holes are arranged in parallel at intervals; the limiting block is provided with a first sensing piece, and the first sensing piece is in signal connection with the controller.

4. The all-in-one computer with automatic height adjustment according to claim 3, wherein: the both ends of slide rail are all protruding to be equipped with the dog, the dog be used for with the fixed plate butt.

5. The all-in-one computer with automatic height adjustment according to claim 3, wherein: the support assembly further comprises a cover plate, the cover plate is arranged on the support and forms a second cavity with the fixing plate, and the movable driving cylinder is arranged in the second cavity;

the two sides of the cover plate are provided with a plurality of clamping grooves, the two sides of the bracket are provided with a plurality of bulges, the bulges are assembled in the clamping grooves, and the length of the clamping grooves is greater than that of the bulges; the opening part of the clamping groove is convexly extended with a clamping strip, the bulge is provided with a clamping point, and the clamping strip is provided with a concave point for assembling the clamping point.

6. The all-in-one computer with automatic height adjustment according to claim 3, wherein: the limiting blocks of the rotating shaft comprise triangular limiting blocks and circular limiting blocks, the limiting holes in the fixing plate comprise triangular limiting holes and circular limiting holes, the triangular limiting holes are used for assembling the triangular limiting blocks, and the circular limiting holes are used for assembling the circular limiting blocks;

the rotating shaft mounting piece comprises a connecting shaft and a mounting seat, the mounting seat is fixed on the back of the computer main body, a first through hole and a second through hole are respectively formed in two sides of the mounting seat, a third through hole is formed in the rotating shaft, the connecting shaft sequentially penetrates through the first through hole, the third through hole and the second through hole to connect the rotating part with the mounting seat, the connecting shaft and the rotating shaft synchronously move, and two ends of the connecting shaft are respectively rotatably connected with the inner wall of the first through hole and the inner wall of the second through hole; the two sides of the mounting seat are provided with angle grooves, the two sides of the connecting shaft are provided with clamping blocks, the clamping blocks and the connecting shaft synchronously rotate, and the clamping blocks are arranged in the angle grooves.

7. The all-in-one computer capable of automatically adjusting height as claimed in claim 6, wherein: the mounting seat is provided with a control rod, one end of the control rod is fixed on the mounting seat, the other end of the control rod is provided with a control ball, and the control ball is positioned on the side surface of the computer main body;

the back of the computer main body is convexly provided with a protective cover, a mounting groove is formed between the protective cover and the computer main body, the control rod is positioned in the mounting groove, the back of the computer main body is also provided with a slide way, and the protective cover is connected with the slide way in a sliding way;

the visor is provided with the locking unit, the locking unit includes check lock lever and elastic component, the check lock lever wear to establish the visor and with visor sliding connection, the jack has been seted up on the control lever, two locking grooves have been seted up on the check lock lid, all installed in the locking groove the elastic component, the both ends of elastic component are located the outer one end of visor with the inner wall in locking groove and check lock lever respectively and are connected.

8. The all-in-one computer with automatic height adjustment according to claim 1, wherein: the lifting assembly used for controlling the image collector to lift is arranged in the computer main body and comprises a rotating gear, a sliding piece, a spring and a locking piece, a through groove is formed in the top of the computer main body, the image collector is connected in the through groove in a sliding mode, the sliding piece is connected to the two sides of the image collector in a sliding mode and is connected with the computer main body in a sliding mode, the image collector is provided with a chain, the chain is meshed with the rotating gear, the rotating gear is connected with the computer main body in a rotating mode, a first clamping portion is arranged on the top of the computer main body and provided with a first connecting groove with an upward opening, and two ends of the spring are arranged in the first connecting groove and the bottom of the sliding piece respectively; the image collector is provided with a connecting block, and the connecting block is limited in the locking part after the image collector slides downwards.

9. The all-in-one computer capable of automatically adjusting height as claimed in claim 8, wherein: a first guide block is arranged in the computer main body, the sliding piece is provided with a first guide groove, and the first guide block is limited in the first guide groove and is in sliding connection with the inner wall of the first guide groove; the bottom of slider is protruding to be equipped with second joint portion, second joint portion sets up the second spread groove that the opening is down, the bottom of spring is installed in the second spread groove.

10. The all-in-one computer with automatic height adjustment according to claim 1, wherein: the built-in fine setting subassembly that is used for adjusting the display card position that is equipped with of computer main part, the fine setting subassembly includes the regulating block and installs the second guide block in computer main part, the regulating block is connected with the display card the second guide slot has been seted up to the regulating block, be provided with the screw hole on the second guide block, wear to establish through the screw behind the second guide slot with the mode of screw hole spiro union with regulating block and second guide block locking.

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