CN201326878Y - Bracket of display device - Google Patents

Abstract

The utility model provides a bracket of a display device, which comprises a base plate with X-direction toothed racks, a sliding block component and an upright post. The sliding block component comprises an X-direction slipway and a Y-direction slipway with Y-direction toothed racks, an X-direction driving motor and a Y-direction driving motor on a corresponding motor bracket are arranged on the X-direction slipway, and gear wheels on the corresponding motor bracket are meshed with the X-direction toothed racks and the Y-direction toothed racks respectively; the upright post is sleeved with a sliding sleeve, and a Z-direction driving screw bolt connected with a Z-direction driving motor is matched with a Z-direction transmission nut and fixed inside the sliding sleeve through a Z-direction bearing shift fork; a U-direction driving motor is fixed and borne on the long side wall of the sliding sleeve, and a U-direction driving screw bolt connected with the U-direction driving motor is matched with a U-direction transmission nut and connected with the lower part of a display device connecting plate through a connecting rod; and the upper part thereof is connected with a pivot on the long side wall through a U-direction rotary support; and the relative position between the display equipment and the user is adjusted through controlling the driving motors by a controller, so that the potential hazards on health of people caused by long-time computer use are reduced.

Description

A kind of support bracket of display device

Technical field

The utility model relates to a kind of computer-assisted device, particularly relates to a kind of support bracket of display device.

Background technique

Along with Internet technology is used more and more widely, routine work that people are a lot of and amusement are all carried out on computers.Computer makes people's life more convenient, abundant, and working efficiency is higher, in people's life in occupation of critical role.

People are when using computer, usually with notebook computer or computer monitor fixed placement on worktable, keep a posture to carry out work for a long time, because positions such as people's eyes, neck, waist are in a kind of state for a long time, so can cause people's physical fatigue, visual deterioration, and, the generation of various cervical diseases, LB.At present, this problem has become the biggest obstacle of the long-term user's proper functioning of computer.

Although provide some can supply the support bracket of display device of regulating in the prior art, as the Chinese patent publication number is CN1892921A, the patent application that open day is on January 10th, 2007 discloses a kind of support of video image displaying apparatus, and this support comprises the display bracket that is fixed on the display device; Be connected the display device supporting part that can rotate on the aforementioned display device carriage; Be arranged on the aforementioned display device supporting part, according to the user mode of display device, the rotational angle block of the rotation angle of separate provision aforementioned display device supporting part; Support the pedestal of aforementioned display device supporting part.Promptly different according to display device user modes, the angle of transferring the supporting part of support is to reach the function of the visible angle of adjusting display device.

As publication number is CN101217061A, and open day is the disclosed a kind of adjustable display of Chinese patent application on July 9th, 2008, and this display device comprises a screen assembly and an adjustment seat.This adjustment seat is arranged at a back side of this screen assembly, this adjustment seat has one first support and one second support, this first support and this second support are in order to support and to adjust this screen assembly, wherein this screen assembly and this adjustment seat the two one of them has a plurality of anti-skid structures at least, this each anti-skid structure is in order to keep off this second support, to adjust the visual angle of this screen assembly.Promptly go out a simple adjustment seat structure, replace existing complicated adjusting stand structure, to reach the function of the visible angle of adjusting display device with this first support and this second holder combination.

From above-mentioned support bracket of display device, support bracket of display device of the prior art to the adjusting of vertical displacement and elevation angle displacement all by manually finishing, and people are the position that can not want to start to regulate display device when working long hours intensively, with passive adjustment self posture, so the above-mentioned problem that influences health of people still exists; And the angle adjustable of the support bracket of display device that prior art provides is limited, because each computer user all is Different Individual, the comfort level that computer is used requires also difference, and existing angle adjustable still can not satisfy most of user's demand.

In a word, need the urgent technical problem that solves of those skilled in the art to be exactly: how to regulate the distance and the angle of display device automatically,, reduce the healthy hidden danger that people use computer to bring for a long time with passive adjustment computer user's posture.

The model utility content

Technical problem to be solved in the utility model provides a kind of support bracket of display device, can change display device and user's relative position automatically in good time, to satisfy most of user's demand, and force the user constantly to adjust the use posture, thereby improve cervical vertebra, lumbar vertebrae and the force-bearing situation and the muscular states of muscle on every side, reduce the healthy hidden danger that people use computer to bring for a long time.

In order to address the above problem, the utility model discloses a kind of support bracket of display device, the column that comprises base plate, is installed in the slide block assembly on the described base plate and is connected with described slide block assembly;

Described base plate is provided with X to tooth bar, and described slide block assembly comprises: X to slide unit and be provided with Y to the Y of tooth bar to slide unit, described Y is covered in the periphery of described X to slide unit to slide unit;

Described X is provided with in slide unit and is installed in the X of X on electric machine support to drive motor, and, be installed in the Y of Y on electric machine support to drive motor; Described X is provided with X to gear to an end of electric machine support, and described X meshes to tooth bar to gear and described X; Described Y is provided with Y to gear to an end of electric machine support; Described Y meshes to tooth bar to gear and described Y;

Described column is installed in described Y on slide unit, this column outer cover is connected to a sliding sleeve, this column intracavity bottom is provided with a Z to bearing support, one Z is installed on described Z on bearing support to an end of drive screw, the other end runs through a Z and is connected to drive motor with a Z to the drive motor seat, described Z on drive screw with a Z to the transmission nut thread engagement, described Z to transmission nut embed a Z to the carrying shift fork in, described Z to the carrying shift fork fixedly connected with described sliding sleeve;

Described sliding sleeve has a long sidewall, described long lower sidewall is fixedlyed connected to bearing support with a U, one U is installed in described U on bearing support to an end of drive screw, the other end runs through a U and is connected to drive motor with a U to the drive motor seat, described U to drive screw and a U to the transmission nut thread engagement, described U is connected with the stock end pivoting of a connecting rod to transmission nut, and the quarter butt end of described connecting rod is connected with the bottom of a display device connecting plate; This display device connecting plate top is installed with described U to pivoting support, and described U is pivotally connected to pivoting support and described long side wall upper part;

Described X is connected with controller to drive motor with U to drive motor to drive motor, Z to drive motor, Y, and described controller is used to control described X and rotates to gear to drive motor driving X, drives described slide block assembly and carries out moving on the substantially horizontal; And, be used to control described Y and rotate to gear to drive motor driving Y, drive described Y and carry out at grade perpendicular to moving on the described substantially horizontal to slide unit; And, be used to control described Z and drive Z to drive screw to drive motor, make described Z to drive screw and Z to the transmission nut engagement driving, described Z carries out vertical displacement campaign by Z to carrying shift fork drive sliding sleeve to transmission nut; And, be used to control described U and drive U to drive screw turns to drive motor, described U drives described U to the transmission of transmission nut straight line to drive screw by thread engagement, and described U drives the display device connecting plate to transmission nut by connecting rod and carries out elevation angle displacement movement.

Preferably, described controller control simultaneously described Z to drive motor and U to drive motor, make described sliding sleeve and display device connecting plate on column, carry out the interlock of Vertical direction and elevation direction displacement simultaneously.

Preferably, described controller control simultaneously described X to drive motor, Z to drive motor and U to drive motor, make described slide block assembly carry out moving on the substantially horizontal; Simultaneously, make described sliding sleeve and display device connecting plate on column, carry out the interlock of Vertical direction and elevation direction displacement.

Preferably, described controller control simultaneously described Y to drive motor, Z to drive motor and U to drive motor, described slide block assembly is carried out perpendicular to moving on the described substantially horizontal; Simultaneously, make described sliding sleeve and display device connecting plate on column, carry out the interlock of Vertical direction and elevation direction displacement.

Preferably, described X on slide unit, have place described X to the X of drive motor motor slot, place described Y to the Y of drive motor motor slot with hold described Y to the Y of tooth bar rack chamber, have to the bottom of slide unit at X and hold described X to the X of tooth bar rack chamber.

Preferably, described X is provided with chute to the left and right sides of slide unit, and described Y is provided with the raised line that can embed in the described chute to the left and right sides of slide unit correspondence.

Preferably, described X to the length of slide unit less than the length of described X to tooth bar.

Preferably, described Z is fixed in the column internal chamber wall to the drive motor seat, supports described Z to drive motor.

Preferably, described U is fixed on the described long sidewall to the drive motor seat, supports described U to drive motor.

Preferably, described support bracket of display device also comprises the column outer cover that is covered in described column and sliding sleeve outside.

Preferably, described sliding sleeve inboard is provided with pad in the sliding sleeve, and pad is fitted slidably with the outer wall of the described column left and right sides in the described sliding sleeve.

Preferably, described support bracket of display device also comprise be arranged at described U to bearing support and U the slide rail between the drive motor seat, described U is connected on the described slide rail to the transmission nut moving card.

Preferably, the bottom of described display device connecting plate is provided with connecting rod support, and the quarter butt end of described connecting rod is connected with described connecting rod support bearing pin.

Description of drawings

Fig. 1 is the bottom plate structure schematic representation of the utility model support bracket of display device;

Fig. 2 is the X of the utility model support bracket of display device, the top view of Y transmitting assemblies;

Fig. 3 is the transmission schematic representation of the X of the utility model support bracket of display device to transmitting assemblies;

Fig. 4 is the transmission schematic representation of the Y of the utility model support bracket of display device to transmitting assemblies;

Fig. 5 is the structural representation of the X of the utility model support bracket of display device to slide unit;

Fig. 6 is the structural representation of the Y of the utility model support bracket of display device to slide unit;

Fig. 7 be the utility model support bracket of display device Z to schematic perspective view;

Fig. 8 be the utility model support bracket of display device Z to schematic perspective view;

Fig. 9 be the utility model support bracket of display device Z to plan view;

Figure 10 be the utility model support bracket of display device U to schematic perspective view;

Figure 11 be the utility model support bracket of display device U to right elevation;

Figure 12 is the combination schematic representation of the U of the utility model support bracket of display device to the part assembly;

Figure 13 is the sectional view along A-A line among Figure 12;

Figure 14 is a kind of embodiment's of controller controlling and driving motor a schematic representation;

Figure 15 is the left view of the utility model support bracket of display device.

Embodiment

For above-mentioned purpose of the present utility model, feature and advantage can be become apparent more, the utility model is described in further detail below in conjunction with the drawings and specific embodiments.

With reference to Fig. 1, show the bottom plate structure of the utility model support bracket of display device.The support bracket of display device base plate comprises: base plate 11 and the slide block assembly of being made up of to slide unit 13 to slide unit 12 and Y X.Y covers the periphery of X to slide unit 12 to slide unit 13.Wherein, base plate 11 is provided with X to tooth bar 01, and Y is provided with Y to tooth bar 131 to the inside of slide unit 13.Above-mentioned slide block assembly is used to carry display device and realizes moving on X, the Y direction, be specially, the mobile realization carrying display device of whole slide block assembly is moving on the directions X in the horizontal direction, Y to slide unit 13 at the mobile realization display device on the Y direction perpendicular to moving on the described substantially horizontal.Directions X and Y direction are respectively the represented both direction of plane coordinate system on the table top that display device places.

In like manner, Y also can be set replace above-mentioned X to be positioned on the base plate 11, X is set cover Y to the periphery of slide unit 13 composition sliding assembly to slide unit 12 to slide unit to slide unit 13.Adopt this compound mode, the mobile realization of whole slide block assembly be that the carrying display device is moving on the Y direction in Vertical direction, X to slide unit 12 moving on directions X such as the mobile display devices on the directions X.

From the above description as can be known, the utility model support bracket of display device mobile comprises moving of moving of directions X and Y direction.Mobile on this both direction is that the cooperation by the transmitting assemblies of X, Y direction realizes.

With reference to Fig. 2, show the top view of transmitting assemblies of X, the Y direction of the utility model support bracket of display device.X is installed in X to electric machine support 21 and Y on slide unit 12 to electric machine support 22.X is equipped with X to drive motor 201 on electric machine support 21, with the transmitting assemblies of X to tooth bar 101 composition directions Xs.Y is equipped with Y to drive motor 202 on electric machine support 22, with the transmitting assemblies of Y to tooth bar 131 composition Y directions.X is connected with controller respectively to drive motor 202 with Y to drive motor 201.

With reference to Fig. 3, show the transmission schematic representation of transmitting assemblies of the directions X of the utility model support bracket of display device.The transmitting assemblies of directions X except comprise be installed in X to the X on the electric machine support 21 to drive motor 201 be arranged on X on the base plate 11 to tooth bar 101, also comprise be installed in X to the X of electric machine support 21 1 ends to gear 31.

In the utility model embodiment, preferably, described X is under the control of drive motor 201 at controller, can be on directions X bi-directional drive, realize two-way move of described slide block assembly on directions X, the moving range of slide block assembly is the scope of the central point apart from base plate 11 :-100mm-100mm.Meanwhile, described controller control simultaneously described Z to drive motor 703 and U to drive motor 1013, make described sliding sleeve 702 and display device connecting plate 1010 on column, carry out the interlock of Vertical direction and elevation direction displacement.

With reference to Fig. 4, show the transmission schematic representation of the Y of the utility model support bracket of display device to transmitting assemblies.The transmitting assemblies of Y direction except comprise be installed in the Y of Y on electric machine support 22 to drive motor 202 and Y to tooth bar 131, also comprise be installed in Y to the Y of electric machine support 22 1 ends to gear 41.

In the utility model embodiment, preferably, above-mentioned Y is under the control of drive motor 202 at controller, can be on the Y direction bi-directional drive, realize described Y to two-way move of slide unit 13 on the Y direction, Y is central points of the above-mentioned base plate 11 of distance to the moving range of slide unit 13: the scope of-75mm-75mm.Meanwhile, described controller control simultaneously described Z to drive motor 703 and U to drive motor 1013, described slide block assembly is carried out perpendicular to moving on the described substantially horizontal; Simultaneously, make described sliding sleeve 702 and display device connecting plate 1010 on column, carry out the interlock of Vertical direction and elevation direction displacement.

With reference to Fig. 5, show the structural representation of the X of the utility model support bracket of display device to slide unit.Be used among the utility model embodiment preferably, X on slide unit 12, have place X to the X of drive motor 201 motor slot 501, place Y to the Y of drive motor 202 motor slot 502 with hold Y to the Y of tooth bar 131 rack chamber 503, have to the bottom of slide unit 12 at X and hold X to the Y of tooth bar 101 rack chamber 505.

Preferably, X is provided with chute 504 to the left and right sides of slide unit 12.

Wherein, the shape of X motor slot 501 and size be according to X to the shape of drive motor 201 and size design, just can hold X to drive motor 201.The shape of Y motor slot 502 and size also are to design to the shape and the size of drive motor 202 according to Y, just in time can hold Y to drive motor 202.Such design makes that the support bracket of display device overall structure is compact, has saved the space.In addition, the Y rack chamber 503 that X has to slide unit 12, Y just in time can embed wherein to tooth bar 131, and free therein transmission.Y drives Y when tooth bar 131 slides to drive motor 202 like this, and Y fits together to the upper surface of slide unit 12 to the lower surface and the X of slide unit 13, has both guaranteed that Y to the stationarity of slide unit 13 in transmission process, had saved the space again.Equally, in order to guarantee X when drive motor 201 drives X to tooth bar 101 transmissions, the stationarity of whole slide block assembly, X has X rack chamber 505 to the bottom of slide unit 12.X rack chamber 505 is used to the X on the base plate 11 to provide the transmission space to tooth bar 101, and X just in time can embed wherein to tooth bar 101, and free therein transmission.

Have chute 504 to the left and right sides of slide unit 12 with reference to X shown in Figure 5, its effect is to cooperate slip to slide unit 13 and X for Y between slide unit 12.

With reference to Fig. 6, show the structural representation of Y to slide unit.Y is provided with raised line 601 to the left and right sides of slide unit 13.Raised line 601 is can embed X in the chute 504 of slide unit 12 both sides correspondences.When Y to drive motor 202 drive Y to tooth bar 131 in Y rack chamber 503 during transmission.Be embedded in the chute 504 by raised line 601 to slide unit 13 to the Y that tooth bar 131 is fixedlyed connected with Y, and slide therein, realize that Y just covers the periphery of X to slide unit 12 to slide unit, and the carrying display device moves on the Y direction.

In the utility model embodiment, preferably described X less than the length of described X to tooth bar 101, can effectively save the utility model support bracket of display device occupation space to the length of slide unit 12.Described X is made by the high-molecular polythene material to slide unit 13 to slide unit 12 and Y.This material is easy to polishing, has very high smoothness, can reduce X and cooperate frictional force in the sliding process to slide unit 12 and Y to slide unit.

With reference to Fig. 7 and shown in Figure 8, display bracket Z of the present utility model mainly by column 701, is connected to a sliding sleeve 702 in the outer race of column 701 to driving mechanism, and described sliding sleeve 702 slides along column 701.Preferably, these sliding sleeve 702 inwalls also are provided with pad (not shown) in the sliding sleeve, the shape of pad, width adapt with the outer wall and the sliding sleeve 702 of column 701 left and right sides respectively in this sliding sleeve, pad is fitted slidably with the outer wall of described column 701 left and right sides in the sliding sleeve, to reduce the friction between sliding sleeve 702 and the column 701.

Described Z axially has a groove (not shown) to bearing support 706, and having Z to be positioned in the groove and can to rotate freely to an end of drive screw 704, this Z runs through a Z to the other end of drive screw 704 and is connected to drive motor 703 with a Z to drive motor seat 705.This Z is fixedly connected on the internal chamber wall of column 701 to drive motor seat 705, is used to support described Z to drive motor 703.On drive screw 704, is furnished with Z to transmission nut 707 by Z to the Z that drive motor 703 drives, this Z can move up and down to drive screw 704 along Z to transmission nut 707, described Z embeds Z in carrying shift fork 708 to transmission nut 707, this Z is fixedly connected on the inwall of described sliding sleeve 702 1 sides to carrying shift fork 708, when Z drives Z when transmission nut 707 moves up and down to drive motor 703, can drive sliding sleeve 702 moves up and down, described Z has half axial hole on carrying shift fork 708, this semiaxis is corresponding to transmission nut 707 to the shape and the Z of through hole, be used to hold Z to transmission nut 707, make it to cooperate slip to transmission nut 707 with Z.

With reference to shown in Figure 9, for display bracket Z of the present utility model to plan view; Described column 701 is semi-enclosed cavity structure, the described Z that axially has groove is fixed on the intracavity bottom of this column 701 to bearing support 706, as can be seen from Figure 9, the socket relation between sliding sleeve 702, column 701 and the base plate 11 does not show among this figure that U is to transmission mechanism component.

Described Z can be connected with a controller to drive motor 703, this controller is controlled described Z and is driven Z to drive screw 704 to drive motor 703, make described Z to drive screw 704 and Z to transmission nut 707 engagement driving, this Z drives sliding sleeves 702 by Z to carrying shift fork 708 to transmission nut 707 and carries out the vertical displacement campaign.

In the utility model embodiment, preferably described Z is under the control of drive motor 703 at controller, can move in the Z direction, realize that described Z is to driving mechanism moving in the Z direction, in this simultaneously, described controller is controlled described U simultaneously to drive motor 1013, makes described display device connecting plate 1010 carry out the elevation direction displacement movement on column, thereby realizes that described sliding sleeve 702 and display device connecting plate 1010 carry out the interlock of Vertical direction and elevation direction displacement on column.

In the utility model embodiment, preferably described Z is 0-160mm to the moving range of driving mechanism.In addition, the utility model can also be realized manual tune display device and user's relative position, realizes that two gears of manual tune are respectively 40mm and 80mm, and when realizing that manual speed is regulated, every grade speed can reach 0.25mm/s.

Described sliding sleeve 702 has a long sidewall 1012, can be fixedly connected with U to transmission mechanism component on this long sidewall 1012, the U of support bracket of display device as shown in figure 10 is to the schematic perspective view of driving mechanism, liquid crystal display can be fixed on the display device connecting plate 1010 by sunk screw, and four angles on this display device connecting plate 1010 are provided with the screw (not marking among the figure) of corresponding sunk screw; In the utility model, make the lower limb of liquid crystal display and the upper surface that is positioned over desktop upper plate 11 that certain distance be arranged, this is 5mm apart from minimum; Guarantee this liquid crystal display at U to doing rotation motion, and can not influence other parts.

With reference to Figure 11 and shown in Figure 12, for support bracket of display device U of the present utility model to right elevation and the combination schematic representation of part parts, the upper end, the back side of this display device connecting plate 1010 is provided with the screw of fixedly connected U to pivoting support 1118, can be by the end of the fixedly connected U of sunk screw to pivoting support 1118, its display device connecting plate 1010 lower end screws are in order to an end of stationary links bearing 1119; Can see connecting rod support 1119 and U connection set figure by this figure to pivoting support 1118; Wherein, U is to long sidewall 1012 upper ends of the pivotally connected sliding sleeve 702 of the other end of pivoting support 1118, it mainly can do rotation motion in order to display device connecting plate 1010, described long sidewall 1012 upper ends also are fixed with U to drive motor seat 1214 by sunk screw, in order to support U to drive motor 1013; Described U is through holes to drive motor seat 1214 middle parts, guarantees that U can run through and is connected to the better of drive motor 1013 with U to drive screw 1120.Long sidewall 1012 lower ends of sliding sleeve 702 by the fixedly connected U of sunk screw to bearing support 1016, this U to bearing support 1016 in order to accept U to drive screw 1120 (as shown in figure 13), usually be provided with groove at this U to the center of bearing support 1016, and make U put into this groove and can rotate freely to the other end of drive screw 1120, guarantee that this U can not be offset when drive screw 1120 motion, and can link together with other parts and can not exert an influence.

Described U is connected with the controller (not shown) to drive motor 1013, described controller is controlled described U and is driven U to drive screw 1120 rotations to drive motor 1013, described U drives described U to drive screw 1120 and moves up and down to transmission nut 1221, described U drives display device connecting plate 1010 to transmission nut 1221 by connecting rod 1017 and carries out elevation angle displacement movement, and this elevation angle displacement range is about 90 degree.

Preferably, between drive motor seat 1214, can also be provided with fixing slide rail 22 to bearing support 1016 and U at described U, described U is connected on the described slide rail 22 to transmission nut 1221 moving card, as U during to transmission nut 1221 motion, wherein a side is reduced friction along its slide rail 22, and can not influence the motion of other parts, can realize the interlock with Z-direction motion, satisfy user's different demands.

In addition, the sliding sleeve 702 with long sidewall is socketed on the column 701, and is provided with in the sliding sleeve in sliding sleeve 702 inboards and fills up, and pad can adopt the ultra high molecular polyethylene material in this sliding sleeve.

As Figure 12 and shown in Figure 13, the utility model support bracket of display device U is to the combination schematic representation of part assembly with along the sectional view of A-A line among Figure 12; The other end of wherein said connecting rod support 1119 is connected with the quarter butt end bearing pin of connecting rod 1017, and the stock end and the U of this connecting rod 1017 are pivotally connected to transmission nut 1221, when connecting rod 1017 motion, drive display device connecting plate 1010 at U to doing elevation angle displacement movement.U to transmission nut 1221 with U to drive screw 1120 by the thread engagement transmission, when U drives U when drive screw 1120 rotates to drive motor 1013, drive U to transmission nut 1221 along U to drive screw 1120 upper and lower displacements, and then drivening rod 1017 motions.

As can be seen from Figure 15 being connected of the long sidewall 1012 of slide rail 22 and sliding sleeve in the present embodiment, and the connection of other each parts, this liquid crystal display drives to drive motor 1013 by U, under the drive of connecting rod 1017, to doing elevation angle displacement movement, its elevation limits is-15 degree-80 degree at U.

The left view of support bracket of display device as shown in figure 15, X shown in the figure is to drive motor 201, Z is to drive motor 703, U to drive motor 1013 and the Y that do not mark to drive motor 202, described four motors can work alone, and all be connected on the controller (not shown among Figure 15), described controller can be for controlling the controller of a plurality of motors separately, also can comprise first controller, second controller and the 3rd controller, described first controller control described X to drive motor 201 and Y to drive motor 202, described second controller is controlled described Z to drive motor 703, and described the 3rd controller is controlled described U to drive motor 1013.

No matter adopt which kind of controller, all can control simultaneously described X to drive motor 201, Y to drive motor 202, Z to drive motor 703 and U to drive motor 1013, make described X carries out substantially horizontal on the same plane on the base plate 11 to slide unit 13 to slide unit 12 and Y X to move and perpendicular to the Y on the described substantially horizontal to moving, meanwhile, also make described sliding sleeve 702 and display device connecting plate 1010 on column 701, carry out the interlock of Vertical direction and elevation direction displacement simultaneously.Particularly, controller transmits control signal and gives X to drive motor 201 as sense of rotation, rotational velocity etc., and control X drives X to drive motor 201 and meshes to tooth bar 101 with X to gear 31, realizes whole slide block assembly moving at directions X; Controller transmits control signal and gives Y to drive motor 202 as sense of rotation, rotational velocity etc., control Y drives Y to drive motor 202 and meshes to tooth bar 131 with Y to gear 41, realization be connected Y to the Y on the tooth bar 131 to slide unit perpendicular to moving on the above-mentioned substantially horizontal, i.e. moving on the Y direction; At this moment, described Z is subjected to the triggering of controller to drive motor 703, can drive Z to drive screw 704, make this Z to drive screw 704 and Z to transmission nut 707 engagement driving, described Z drives sliding sleeves 702 by Z to carrying shift fork 708 to transmission nut 707 and carries out the vertical displacement campaign; Simultaneously, described U is subjected to the triggering of controller to drive motor 1013, can drive U rotates to drive screw 1120, this U drives described U to transmission nut 1221 straight line transmissions to drive screw 1120 by thread engagement, described U drives display device connecting plate 1010 to transmission nut 1221 by connecting rod 1017 and carries out elevation angle displacement movement, thereby has realized two-way (Vertical direction and elevation direction) of the present utility model interlock.

Described controller is a kind of device of controlling motor speed, turning to, it comes manually or the running state of automatic control motor according to the operation conditions of user's needs, can control many motors that speed is different simultaneously, and, also can carry out corresponding intelligent behaviour according to the variation of setting track.In the utility model embodiment, controller can be a conventional controller, is used for control and will exchanges (AC) power supply and be applied to induction machine.This controller is controlled with solid-state converter AC line voltage is applied on the motor, and this transducer can be a thyristor, as silicon controlled rectifier (SCR) or bidirectional triode thyristor.Conventional controller comprises a shell, is sealing described solid-state converter and is being used to control the control circuit that solid-state converter is operated.For the operation of Configuration Control Unit, controller can comprise that numeral selects transducer to be used for set-up function and scope, and tutorial light as LED, can be used for the state indication.

Embodiment's schematic representation with reference to a kind of controller controlling and driving motor shown in Figure 14.Controller includes signal receiving module 2, preamplifier 5, modular converter 6, wired control module 9, wireless control module 3, central processing unit (CPU) 7, display modular 8, supply module 4, drive motor 10 and image acquisition device 1.In the present embodiment, drive motor 10 comprise X to drive motor, Y to drive motor, Z to drive motor and U to drive motor.Central processing unit (CPU) 7 possesses central authorities' control and carries out analog-to-digital function, is the intelligent centre of entire controller.Signal receiving module 2 is used to receive control signal such as the direction signal of controlling and driving motor steering, the rate signal of controlling and driving motor speed etc. of controlling and driving motor.Signal receiving module 2 connects preamplifier 5.After the signal shaping that preamplifier 5 receives signal receiving module 2, filtering, the amplification, connection modular converter 6 is delivered to central processing unit (CPU) 7 and is handled, and modular converter 6 is an ad/da converter, automaticallyes switch according to instruction.Image acquisition device 1 is sent to 5 preamplifiers with the state of drive motor 10 mode by image, preamplifier 5 connection modular converters 6 are sent to central processing unit (CPU) 7 with picture signal and carry out the picture signal processing, show, and adjust the working state of drive motor 10 as required.Central processing unit (CPU) 7 is connected with display modular 8, and display modular 8 can show the result who handles for LED shows, again result displayed is fed back to central processing unit (CPU) 7 simultaneously, and the result of 7 pairs of processing of central processing unit (CPU) revises.Drive motor 10 connects central processing unit (CPU) 7, and the result who handles according to central processing unit (CPU) 7 carries out various motions.Wired control module 9 connects modular converter 6, carries out system's control, makes Executive Module 10 carry out the operation of various states.Wireless control module 3 is by sending remote control command, be delivered to central processing unit (CPU) 7 after, make drive motor 10 carry out the operation of various states.Supply module 4 provides electric energy for drive motor 10, display modular 8, signal receiving module 2, central processing unit (CPU) 7, preamplifier 5 and the image acquisition device 1 of controller.

This controller control X rotates to drive motor 202 to drive motor 201 and Y, make X carry out moving of directions X, Y direction to slide unit 13 to slide unit 12, Y, and be used to control Z to drive motor 703 rotations, make Z rise or descend to transmission nut 707, drive sliding sleeve 702, make display device connecting plate 1010 do the vertical motion of rising or descending.Described display device connecting plate 10 is to be determined to the position of transmission nut 707 by Z in the position of Z direction displacement movement.The scope of this displacement can realize required height to the length of drive screw 704 by adjusting Z.

The angular distribution of these display device connecting plate 1010 rise and fall allows according to practical set-up design to adjust, movement locus can by the user when the design according to Demand Design.

Support bracket of display device of the present utility model can be used for any video image displaying apparatus, and plasma television for example only need be connected to video image displaying apparatus on the display device connecting plate 1010 and gets final product.

The advantage that support bracket of display device of the present utility model has is as follows:

1, the support bracket of display device of the present utility model distance and the angle of regulator solution crystal display device automatically, and can set different tracks, make this display device motion, thereby the computer user constantly adjusts the use posture, thereby alleviates eye fatigue, improves cervical vertebra, lumbar vertebrae and the force-bearing situation and the muscular states of muscle on every side.

2, support bracket of display device of the present utility model uses micro-machine can realize driving, and controller adopts single-chip to control, and cost is lower, and practicability is higher.

3, support bracket of display device described in the utility model is very convenient in installation and maintenance, and can realize interlock with the motion of a plurality of directions simultaneously.

Used specific case herein principle of the present utility model and mode of execution are set forth, above embodiment's explanation just is used for helping to understand method of the present utility model and core concept thereof; Simultaneously, for one of ordinary skill in the art, according to thought of the present utility model, the part that all can change in specific embodiments and applications, in sum, this description should not be construed as restriction of the present utility model.

Claims (13)

1, a kind of support bracket of display device is characterized in that, the column that comprises base plate, is installed in the slide block assembly on the described base plate and is connected with described slide block assembly;

Described base plate is provided with X to tooth bar, and described slide block assembly comprises: X to slide unit and be provided with Y to the Y of tooth bar to slide unit, described Y is covered in the periphery of described X to slide unit to slide unit;

Described X is provided with in slide unit and is installed in the X of X on electric machine support to drive motor, and, be installed in the Y of Y on electric machine support to drive motor; Described X is provided with X to gear to an end of electric machine support, and described X meshes to tooth bar to gear and described X; Described Y is provided with Y to gear to an end of electric machine support; Described Y meshes to tooth bar to gear and described Y;

Described column is installed in described Y on slide unit, this column outer cover is connected to a sliding sleeve, this column intracavity bottom is provided with a Z to bearing support, one Z is installed on described Z on bearing support to an end of drive screw, the other end runs through a Z and is connected to drive motor with a Z to the drive motor seat, described Z on drive screw with a Z to the transmission nut thread engagement, described Z to transmission nut embed a Z to the carrying shift fork in, described Z to the carrying shift fork fixedly connected with described sliding sleeve;

Described sliding sleeve has a long sidewall, described long lower sidewall is fixedlyed connected to bearing support with a U, one U is installed in described U on bearing support to an end of drive screw, the other end runs through a U and is connected to drive motor with a U to the drive motor seat, described U to drive screw and a U to the transmission nut thread engagement, described U is connected with the stock end pivoting of a connecting rod to transmission nut, and the quarter butt end of described connecting rod is connected with the bottom of a display device connecting plate; This display device connecting plate top is installed with described U to pivoting support, and described U is pivotally connected to pivoting support and described long side wall upper part;

Described X is connected with controller to drive motor with U to drive motor to drive motor, Z to drive motor, Y, and described controller is used to control described X and rotates to gear to drive motor driving X, drives described slide block assembly and carries out moving on the substantially horizontal; And, be used to control described Y and rotate to gear to drive motor driving Y, drive described Y and carry out at grade perpendicular to moving on the described substantially horizontal to slide unit; And, be used to control described Z and drive Z to drive screw to drive motor, make described Z to drive screw and Z to the transmission nut engagement driving, described Z carries out vertical displacement campaign by Z to carrying shift fork drive sliding sleeve to transmission nut; And, be used to control described U and drive U to drive screw turns to drive motor, described U drives described U to the transmission of transmission nut straight line to drive screw by thread engagement, and described U drives the display device connecting plate to transmission nut by connecting rod and carries out elevation angle displacement movement.

2, support bracket of display device according to claim 1, it is characterized in that, described controller control simultaneously described Z to drive motor and U to drive motor, make described sliding sleeve and display device connecting plate on column, carry out the interlock of Vertical direction and elevation direction displacement simultaneously.

3, support bracket of display device according to claim 1 is characterized in that, described controller control simultaneously described X to drive motor, Z to drive motor and U to drive motor, make described slide block assembly carry out moving on the substantially horizontal; Simultaneously, make described sliding sleeve and display device connecting plate on column, carry out the interlock of Vertical direction and elevation direction displacement.

4, support bracket of display device according to claim 1 is characterized in that, described controller control simultaneously described Y to drive motor, Z to drive motor and U to drive motor, described slide block assembly is carried out perpendicular to moving on the described substantially horizontal; Simultaneously, make described sliding sleeve and display device connecting plate on column, carry out the interlock of Vertical direction and elevation direction displacement.

5, support bracket of display device according to claim 1, it is characterized in that, described X on slide unit, have place described X to the X of drive motor motor slot, place described Y to the Y of drive motor motor slot, with hold described Y to the Y of tooth bar rack chamber, have to the bottom of slide unit at X and hold described X to the X of tooth bar rack chamber.

6, support bracket of display device according to claim 1 is characterized in that, described X is provided with chute to the left and right sides of slide unit, and described Y is provided with the raised line that can embed in the described chute to the left and right sides of slide unit correspondence.

7, support bracket of display device according to claim 1 is characterized in that, described X to the length of slide unit less than the length of described X to tooth bar.

8, support bracket of display device according to claim 1 is characterized in that, described Z is fixed in the column internal chamber wall to the drive motor seat, supports described Z to drive motor.

9, support bracket of display device according to claim 1 is characterized in that, described U is fixed on the described long sidewall to the drive motor seat, supports described U to drive motor.

10, support bracket of display device according to claim 1 is characterized in that, also comprises: the column outer cover that is covered in described column and sliding sleeve outside.

11, support bracket of display device according to claim 1 is characterized in that, described sliding sleeve inboard is provided with pad in the sliding sleeve, and pad is fitted slidably with the outer wall of the described column left and right sides in the described sliding sleeve.

12, support bracket of display device according to claim 1 is characterized in that, also comprises: be arranged at described U to bearing support and U the slide rail between the drive motor seat, described U is connected on the described slide rail to the transmission nut moving card.

13, support bracket of display device according to claim 1 is characterized in that, the bottom of described display device connecting plate is provided with connecting rod support, and the quarter butt end of described connecting rod is connected with described connecting rod support bearing pin.

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