CN201004329Y - Azimuth-adjustable supporting device - Google Patents

Abstract

The utility model relates to a support device which is able to adjust the direction automatically and used for the assembly of the display element, including a base, a sensing unit, a support arm, a micro-controller arranged in the base and a driven unit connected with the micro-controller through electricity. One end of the support arm is pivoted with the base and the other end is used for the arrangement of the display element. The driven unit is arranged on the base and is coupled with one end of the support end to drive the revolving of the support arm. The sensing unit is arranged on the display element so as to detect the object approaching the display element and sends sensed signals for the analysis of the micro-controller to generate control signals. The driven unit drives the support to move at the same level with the base so that the support arm moves to the place which is needed by the user without any hand adjustment of the user.

Description

Can adjust the bracing or strutting arrangement in orientation automatically

Technical field

The utility model relates to a kind of bracing or strutting arrangement, particularly relates to a kind of bracing or strutting arrangement that can adjust the orientation automatically in order to support displays.

Background technology

At present the display of conventional example such as LCD TV or monitor on the market is installed on the supporting seat more, and the user can horizontally rotate angle, height and luffing angle according to what supporting seat was adjusted in actual demand, the position that makes display be positioned to make things convenient for the user to watch.Yet the supporting seat of general display is to adopt mechanical structure to there is no self-adjusting function, and the user needs manual adjustment supporting seat voluntarily, can make display in the optimum position so that watch.In addition, in some public arena, display is installed in higher position or the enclosure space via supporting seat, and the beholder can't touch, and therefore, for the content that is clear that display is shown, the beholder often need adjust posture or the shift position of self.Therefore,, make display be positioned at suitable viewing location, will help to improve the convenience that the beholder watches display if the supporting seat of display can the person of being used be adjusted the orientation of display automatically.

The utility model content

The purpose of this utility model is to provide a kind of person of being used to adjust the bracing or strutting arrangement in orientation automatically.

The utility model can be adjusted the bracing or strutting arrangement in orientation automatically, establishes for a displaying group of objects, and comprises: a base, an and sway brace, one end of this sway brace and this base articulate, and can rotate on a surface level relative to this base, and this sway brace other end is installed this displaying object; Its unique point is: this bracing or strutting arrangement also comprises a sensing cell, a microcontroller, and a driver element; This sensing cell is installed on this displaying object, shows an object of object in order to detecting near this, and exports a sensing signal; This microcontroller is located in this base, receives this sensing signal and analyzes, to produce a controlling signal; This driver element is mounted on this base, with this sway brace one end interlock, rotates to drive this sway brace, and is electrically connected this microcontroller to receive this controlling signal, rotates on this surface level relative to this base and drive this sway brace according to this controlling signal.

Preferably, this bracing or strutting arrangement also comprises a bearing part, and this bearing part is located between this sway brace and this displaying object, in order to connect this sway brace other end and this displaying object.

Preferably, this bracing or strutting arrangement also comprises a height control unit, this height control unit is mounted between this bearing part and this sway brace, make this bearing part be fixed on this sway brace other end movably along this sway brace bearing of trend, and be electrically connected this microcontroller to receive this controlling signal, move relative to this sway brace and drive this bearing part according to this controlling signal.

Preferably, this bracing or strutting arrangement also comprises a carrier and an angle of pitch adjustment unit, this carrier is located at this bearing part and is showed between object, in order to connect this bearing part and to show object, this angle of pitch adjustment unit is mounted between this bearing part and this carrier, this carrier is rotatably mounted on this bearing part, and is electrically connected this microcontroller, rotate up and down relative to this bearing part and drive this carrier according to this controlling signal to receive this controlling signal.

Wherein, this driver element comprises that one is electrically connected first motor and one first transmission component of this microcontroller, this first transmission component is located between this sway brace and base, this first motor drives this first transmission component according to this controlling signal, makes this first transmission component drive this sway brace and rotates on this surface level relative to this base.This first motor is connected with sway brace, and this first transmission component has one and is connected with in this first motor first gear for this first motor driven, and the rack rails of end face in order to be meshed with this first gear of being located at this base.

Wherein, this height control unit comprises this microcontroller of electrical connection and is positioned at second motor and one second transmission component of this bearing part, this second transmission component is located between this sway brace and second motor, this second motor drives this second transmission component according to this controlling signal, makes this second transmission component drive this bearing part and moves relative to this sway brace.This second transmission component has is located at second gear of this bearing part for this second motor driven, and one is located at the toothrow of this sway brace in order to be meshed with this second gear.This toothrow is the length direction extension along this sway brace, and this sway brace also is formed with a chute that extends in the same way with this toothrow, limiting section for this bearing part wears therebetween movably, this second motor drives this second gear according to this controlling signal and meshes this toothrow rotationally, makes the limiting section of this bearing part move between the chute of this sway brace.

Wherein, this angle of pitch adjustment unit comprises this microcontroller of electrical connection and is positioned at the 3rd motor and one the 3rd transmission component of this bearing part, the 3rd transmission component is located between this carrier and the 3rd motor, the 3rd motor drives the 3rd transmission component according to this controlling signal, makes the 3rd transmission component drive this carrier and rotates relative to this bearing part.The 3rd transmission component has is located at three gear of this bearing part for the 3rd motor driven, and one is located at four gear of this carrier in order to be meshed with the 3rd gear set.

The beneficial effects of the utility model are: show on the object by sensing cell is installed on, to detect near the user who shows object, and output sensing signal is for the microcontroller analysis, microcontroller output controlling signal is to driver element, height control unit and angle of pitch adjustment unit, horizontally rotate angle, height and luffing angle with what adjust to show object respectively, make and show that object does not need user's manual adjustment, promptly be adjustable to the person's of being used orientation.

Description of drawings

Fig. 1 is a synoptic diagram, illustrates that the utility model can adjust the assembled state that object is showed in the preferred embodiment and of the bracing or strutting arrangement in orientation automatically;

Fig. 2 is a side view, illustrates that the utility model can adjust this preferred embodiment of the bracing or strutting arrangement in orientation automatically;

Fig. 3 is a synoptic diagram, and the binding style of a driver element and a sway brace of this preferred embodiment is described;

Fig. 4 is a synoptic diagram, and a height control unit of this preferred embodiment and the binding style of this sway brace are described;

Fig. 5 is a synoptic diagram, and an angle of pitch adjustment unit of this preferred embodiment and the binding style of this displaying object are described.

Embodiment

The bracing or strutting arrangement that can adjust the orientation automatically to the utility model below in conjunction with drawings and Examples is elaborated:

Consulting Fig. 1 and Fig. 2 is the preferred embodiment that the utility model can be adjusted the bracing or strutting arrangement 1 in orientation automatically, bracing or strutting arrangement 1 is established for 2 groups for a displaying object, and comprise a base 11, a sway brace 12, a sensing cell 13, a microcontroller 14, a driver element 15, a bearing part 16, a height control unit 17, a carrier 18, reach an angle of pitch adjustment unit 19.

Two end opposite of sway brace 12 are respectively one first end 121 and one second end 122, and first end 121 of sway brace 12 articulates with base 11, and sway brace 12 is stood on the base 11, and 122 at second end of sway brace 12 is installed and showed object 2.Sensing cell 13 is installed on to be showed on the object 2, the approaching object of showing object 2 of detecting, and export a sensing signal.14 of microcontrollers are located in the base 11, receive the sensing signal of sensing cell 13 outputs and analyze to produce a controlling signal.

Consult Fig. 2 and Fig. 3, driver element 15 is mounted on the base 11, and with first end, 121 interlocks of sway brace 12, make sway brace 12 on a surface level, to rotate relative to base 11.Driver element 15 comprises that one is electrically connected first motor 151 of microcontroller 14, and one first transmission component 152.In the present embodiment, first motor 151 is connected with sway brace 12,152 of first transmission components are located at 11 of first motor 151 and bases, and have one and be connected with, an and end face and a rack rails 154 of being located at base 11 in order to be meshed with first gear 153 in first motor 151 and first gear 153 that drives for first motor 151.First motor 151 drives first gear 153 according to the controlling signal from microcontroller 14 and rotates, so first gear 153 meshes rack rails 154 rotationally, makes sway brace 12 rotate on surface level relative to base 11.See through control first motor 151 forward or reverse, can drive first gear 153 rotates clockwise or counterclockwise, make sway brace 12 on surface level, rotate along counterclockwise or clockwise direction, so be connected with on sway brace 12 displaying object 2 relative to base 11 in the surface level upper edge counterclockwise or clockwise direction rotate, whereby, can adjust the horizontally rotate angle of displaying object 2 with respect to base 11.

In the present embodiment, rack rails 154 extends the end face of base 11 with being circular arc, in fact not as limit, also extensible semicircular in shape of rack rails 154 or ring-type, depend on the amplitude that rack rails 154 extends owing to show object 2 at the rotatable angular range of surface level, rack rails 154 is if extend semicircular in shape, show that object 2 can horizontally rotate in the scope of 180 degree, rack rails 154 is if extend in the form of a ring, show that 2 of objects can horizontally rotate in the scope of 360 deg, can design the amplitude that rack rails 154 extends according to actual demand.

Consult Fig. 2 and Fig. 4, bearing part 16 is located at sway brace 12 and is showed 2 of objects, in order to connect second end 122 of showing object 2 and sway brace 12.Height control unit 17 is mounted on 12 of bearing part 16 and sway braces, and comprises that one is electrically connected microcontroller 14 and is positioned at second motor 171 and one second transmission component 172 of bearing part 16.In the present embodiment, second transmission component 172 is located at 171 in sway brace 12 and second motor, and have one and be connected with second gear 173 that drives for second motor 171 in bearing part 16, and a toothrow 174 in order to be meshed with second gear 173, and toothrow 174 is that length direction along sway brace 12 extends.Sway brace 12 also is formed with a chute 123 that extends in the same way with toothrow 174, and a limiting section 161 of confession bearing part 16 wears therebetween movably, and bearing part 16 can be fixed on the sway brace 12 movably along sway brace 12 bearing of trends.Second motor 171 drives second gear 173 according to the controlling signal from microcontroller 14 and rotates, so second gear 173 meshes toothrow 174 rotationally, the limiting section 161 that drives bearing part 16 moves at 123 of the chutes of sway brace 12.Seeing through control second motor 171 is just changeing or is reversing, can drive second gear 173 rotates clockwise or counterclockwise, so second gear, 173 relative bases 11 up or down mesh toothrow 174 rotationally, make and show that object 2 moves down in vertical direction relative to base 11, whereby, can adjust the height of displaying object 2 with respect to base 11.

Consult Fig. 2 and Fig. 5, carrier 18 is located at bearing part 16 and is showed 2 of objects, and in order to connect bearing part 16 and to show object 2, a junction 162 of bearing part 16 articulates with carrier 18, makes carrier 18 be rotatably mounted on the bearing part 16.19 of angle of pitch adjustment units are mounted between bearing part 16 and carrier 18, and carrier 18 can be rotated up and down relative to bearing part 16.Angle of pitch adjustment unit 19 comprises an electrical connection microcontroller 14 and is positioned at the 3rd motor 191 and one the 3rd transmission component 192 of bearing part 16.In the present embodiment, the 3rd transmission component 192 is located at 191 in carrier 18 and the 3rd motor, and has and be located at the 3rd gear 193 that bearing part 16 drives for the 3rd motor 191, and one is located at four gear 194 of carrier 18 in order to be meshed with the 3rd gear set 193.The 3rd motor 191 drives the 3rd gear 193 according to the controlling signal from microcontroller 14 and rotates, and the 3rd gear 193 and then drive the 4th gear 194 and rotate makes carrier 18 rotate up and down relative to bearing part 16.See through control the 3rd motor 191 forward or reverse, can drive the 3rd gear 193 rotates clockwise or counterclockwise, driving the 4th gear 194 rotates along counterclockwise or clockwise direction, carrier 18 rotates along counterclockwise or clockwise direction with the 4th gear 194, so be connected with on carrier 18 displaying object 2 relative to base 11 in a vertical plane upper edge counterclockwise or clockwise direction rotate, whereby, can adjust the luffing angle of displaying object 2 with respect to base 11.

In the present embodiment, show that object 2 is a LCD, but, show that object 2 can also be other object of watching for the user in fact not as limit.Sensing cell 13 is installed on the display panel 21 of LCD, in order to the beholder of detecting near display panel 21, sensing cell 13 is a passive infrared sensor (PIR Sensor), because human body is that hot body can distribute a kind of infrared ray, and passive infrared sensor can sense this ultrared variation and output voltage signal, learns that whereby whether human body is near showing object 2.

The utility model bracing or strutting arrangement 1 can the person of being used be adjusted the orientation of displaying object 2 so that the user watches automatically, in the present embodiment, at first, microcontroller 14 output controlling signal drive first motor 151, make to show object 2 relative bases 11 with fixed speed along rack rails 154 in the surface level left rotation and right rotation, when showing object 2 rotations, microcontroller 14 regularly captures the voltage signal of sensing cell 13 outputs, to obtain a plurality of voltage signals, microcontroller 14 compares these voltage signals and finds out the maximum voltage signal, export controlling signal to the first motor 151 then, make and show that object 2 horizontally rotates to the position that corresponds to the maximum voltage signal.

Then, microcontroller 14 output controlling signal drive second motor 171, make and show that object 2 relative bases 11 move up and down along chute 123 with fixed speed, when showing that object 2 moves up and down, microcontroller 14 regularly captures the voltage signal of sensing cell 13 outputs, to obtain a plurality of voltage signals, microcontroller 14 compares these voltage signals and finds out the maximum voltage signal, export controlling signal to the second motor 171 then, make and show that object 2 moves to the height that corresponds to the maximum voltage signal along chute 123.

Then, microcontroller 14 output controlling signal drive the 3rd motor 191, make to show that the relative base of object 2 11 turns to the maximum depression with fixed speed from maximum elevation, when showing that object 2 rotates up and down, microcontroller 14 regularly captures the voltage signal of sensing cell 13 outputs, to obtain a plurality of voltage signals, microcontroller 14 compares these voltage signals and finds out the maximum voltage signal, export controlling signal to the three motors 191 then, make and show that object 2 turns to the luffing angle that corresponds to the maximum voltage signal.

In the present embodiment, driver element 15, height control unit 17, reaching angle of pitch adjustment unit 19 is to see through motor and gear realization, in fact not as limit, also can utilize dissimilar gears or other physical construction to reach identical effect.In addition, be control revolution speed, train of reduction gears is used in the motor of present embodiment, makes displaying object 2 not show high-speed rotation or mobile.

Conclude above-mentioned, the utility model can be adjusted the bracing or strutting arrangement 1 in orientation automatically, by being installed on, shows on the object 2 sensing cell 13, to detect near the user who shows object 2, and output sensing signal is analyzed for microcontroller 14, microcontroller 14 output controlling signal are to driver element 15, height control unit 17 and angle of pitch adjustment unit 19, to adjust the angle that horizontally rotates of showing object 2 respectively, height and luffing angle, make and show that object need not see through user's manual adjustment, promptly be adjustable to the person's of being used orientation, can reach the purpose of this utility model really.

Claims (11)

1. the bracing or strutting arrangement that can adjust the orientation is automatically established for a displaying group of objects, and is comprised: a base, and sway brace, one end of this sway brace and this base articulate, and can rotate on a surface level relative to this base, and this sway brace other end is installed this displaying object; It is characterized in that: this bracing or strutting arrangement also comprises a sensing cell, a microcontroller, and a driver element; This sensing cell is installed on this displaying object, and detecting is showed an object of object near this, and exports a sensing signal; This microcontroller is located in this base, receives this sensing signal and analyze to produce a controlling signal; This driver element is mounted on this base, with this sway brace one end interlock, drives this sway brace and rotates, and be electrically connected this microcontroller to receive this controlling signal, rotates on this surface level relative to this base and drive this sway brace according to this controlling signal.

2. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 1, it is characterized in that: this driver element comprises first motor and one group of first transmission component that are electrically connected this microcontroller, this first transmission component is located between this sway brace and base, this first motor drives this first transmission component according to this controlling signal, and this first transmission component drives this sway brace and rotates on this surface level relative to this base.

3. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 2, it is characterized in that: this first motor is connected with sway brace, this first transmission component has one and is connected with in first gear of this first motor for this first motor driven, and is located at the rack rails of end face in order to be meshed with this first gear of this base together.

4. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 1 or 2 is characterized in that: this bracing or strutting arrangement also comprises a bearing part, and this bearing part is located between this sway brace and this displaying object, connects this sway brace other end and this displaying object.

5. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 4, it is characterized in that: this bracing or strutting arrangement also comprises a height control unit, this height control unit is mounted between this bearing part and this sway brace, this bearing part is fixed on this sway brace other end movably along this sway brace bearing of trend, and be electrically connected this microcontroller and receive this controlling signal, move relative to this sway brace and drive this bearing part according to this controlling signal.

6. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 5, it is characterized in that: this height control unit comprises second motor and one group of second transmission component that are electrically connected this microcontroller and are positioned at this bearing part, this second transmission component is located between this sway brace and second motor, this second motor drives this second transmission component according to this controlling signal, and this second transmission component drives this bearing part and moves relative to this sway brace.

7. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 6, it is characterized in that: this second transmission component has second gear of being located at this bearing part for this second motor driven, and is located at the toothrow that this sway brace is meshed with this second gear together.

8. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 7, it is characterized in that: this toothrow is the length direction extension along this sway brace, and this sway brace also is formed with a chute that extends in the same way with this toothrow, one limiting section of this bearing part wears therebetween movably, this second motor drives this second gear according to this controlling signal and meshes this toothrow rotationally, and the limiting section of this bearing part moves between the chute of this sway brace.

9. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 4, it is characterized in that: this bracing or strutting arrangement also comprises a carrier and an angle of pitch adjustment unit, this carrier is located at this bearing part and is showed between object, connect this bearing part and show object, this angle of pitch adjustment unit is mounted between this bearing part and this carrier, this carrier is rotatably mounted on this bearing part, and be electrically connected this microcontroller to receive this controlling signal, rotate up and down relative to this bearing part and drive this carrier according to this controlling signal.

10. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 9, it is characterized in that: this angle of pitch adjustment unit comprises the 3rd motor and one group of the 3rd transmission component that are electrically connected this microcontroller and are positioned at this bearing part, the 3rd transmission component is located between this carrier and the 3rd motor, the 3rd motor drives the 3rd transmission component according to this controlling signal, and the 3rd transmission component drives this carrier and rotates relative to this bearing part.

11. the bracing or strutting arrangement that can adjust the orientation automatically as claimed in claim 10, it is characterized in that: the 3rd transmission component has the 3rd gear of being located at this bearing part for the 3rd motor driven, and one is located at four gear of this carrier in order to be meshed with the 3rd gear set.

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