CN216344879U - Rotating structure of all-in-one machine support - Google Patents

Abstract

The utility model discloses a rotating structure of an all-in-one machine bracket, which comprises: the touch integrated machine comprises a rotating back plate and a rotating middle back plate, wherein an upper arc-shaped sliding groove and a lower arc-shaped sliding groove are formed in the rotating middle back plate, a rotating shaft penetrates through the center of the rotating back plate and the center of the rotating back plate, the rotating middle back plate can rotate around the rotating shaft relative to the rotating back plate, an upper rotating guide rod and a lower rotating guide rod penetrate between the rotating back plate and the rotating middle back plate, the upper rotating guide rod can move along the upper arc-shaped sliding groove, the lower rotating guide rod can move along the lower arc-shaped sliding groove, and the upper rotating guide rod and the lower rotating guide rod form central symmetry with respect to the center of the rotating back plate.

Description

Rotating structure of all-in-one machine support

Technical Field

The utility model relates to the technical field, in particular to a rotating structure of an all-in-one machine support.

Background

With the continuous development and progress of the touch screen technology, the touch control brings great convenience to the daily life and work of people, and the touch screen is convenient to operate, high in humanization degree and popular with people. The touch all-in-one machine is an interactive multimedia teaching all-in-one machine integrating a computer, a projector, a curtain and an interactive electronic whiteboard, and has been widely applied in the life of people.

The existing touch all-in-one machine is fixedly arranged on a wall through an all-in-one machine support and a wall hanging plate, in order to enable the content displayed by the touch all-in-one machine to be convenient for people to watch in the use process of the touch all-in-one machine, the all-in-one machine support is connected with the wall hanging plate through a single rotating shaft, the touch all-in-one machine can rotate relative to the wall hanging plate, the content displayed by the touch all-in-one machine is adjusted to be suitable for the watching angle of people, and the defects that the touch all-in-one machine is unstable in rotation and the touch all-in-one machine is easy to shake in the rotation process exist.

In view of the above, the present inventors have studied and improved the above-mentioned disadvantages and inconveniences, and finally developed and designed the present invention.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a rotating structure of an all-in-one machine support, which has the characteristics that a touch all-in-one machine is stable in rotation and is not easy to shake in the rotating process.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a rotational structure of a stand for a kiosk, comprising: the back plate rotating mechanism comprises a rotating back plate and a rotating middle back plate, wherein an upper arc-shaped sliding groove and a lower arc-shaped sliding groove are formed in the rotating middle back plate, a rotating shaft penetrates through the center of the rotating back plate and the center of the rotating back plate, the rotating middle back plate can rotate around the rotating shaft relative to the rotating back plate, an upper rotating guide rod and a lower rotating guide rod penetrate between the rotating back plate and the rotating middle back plate, the upper rotating guide rod can move along the upper arc-shaped sliding groove, the lower rotating guide rod can move along the lower arc-shaped sliding groove, and the upper rotating guide rod and the lower rotating guide rod form central symmetry about the center of the rotating middle back plate.

The rotary middle back plate is provided with at least two limiting holes, the distance between the limiting holes and the center of the rotary middle back plate is equal, the rotary back plate is fixedly provided with at least two wave beads, the distance between the wave beads and the center of the rotary back plate is equal, and the wave beads and the limiting holes are arranged in a one-to-one alignment mode.

The quantity of spacing hole and the quantity of ripples pearl are four, evenly spaced arrangement between the spacing hole, evenly spaced arrangement between the ripples pearl.

The fixed positions of the rotary back plate and the wave beads are respectively provided with a nylon gasket for the corresponding wave beads to penetrate through.

The rotary middle back plate is further provided with a left arc-shaped sliding groove and a right arc-shaped sliding groove, the left arc-shaped sliding groove and the right arc-shaped sliding groove are located between the upper arc-shaped sliding groove and the lower arc-shaped sliding groove, a left rotary guide rod and a right rotary guide rod penetrate through the rotary middle back plate, the left rotary guide rod can move along the left arc-shaped sliding groove, the right rotary guide rod can move along the right arc-shaped sliding groove, and the left rotary guide rod and the right rotary guide rod form central symmetry about the center of the rotary middle back plate.

The rotary middle back plate is further provided with a limiting column, the limiting column is located between the left arc-shaped sliding groove and the center of the rotary middle back plate, and a tension spring is hooked between the limiting column and the right rotary guide rod.

The upper rotating guide rod is provided with a nylon gasket clamped outside the upper arc-shaped chute in a penetrating manner, the lower rotating guide rod is provided with a nylon gasket clamped outside the lower arc-shaped chute in a penetrating manner, and the left rotating guide rod is provided with a nylon gasket clamped outside the left arc-shaped chute in a penetrating manner.

The pivot is the pivot screw, the terminal spiral shell of pivot closes a locknut, set up a nylon gasket that supplies the pivot to wear to establish respectively between locknut and the rotatory backplate, between pivot and the rotatory backplate and between rotatory backplate and the rotatory backplate.

The utility model provides a revolution mechanic of all-in-one machine support, still includes wall link plate and rotatory front panel, the wall link plate sets firmly in rotatory backplate keep away from the one side of rotatory backplate, rotatory front panel sets firmly in the rotatory backplate keep away from the one side of rotatory backplate.

The positioning column is penetrated through the screw on the face of the wall hanging plate facing the rotary back plate, the tail end of the screw protrudes out of the face of the wall hanging plate far away from the rotary back plate, the surface of the rotary front panel and the surface of the rotary middle back plate are fixed through the screw, and the side face of the rotary front panel and the side face of the rotary middle back plate are fixed through the screw.

By adopting the technical scheme, through the structural design of the rotary back plate and the rotary middle back plate, because the rotating middle back plate is provided with the upper arc-shaped sliding groove and the lower arc-shaped sliding groove, the rotating middle back plate can rotate around the rotating shaft relatively and then the back plate rotates, an upper rotating guide rod and a lower rotating guide rod are arranged between the rotating back plate and the rotating middle plate in a penetrating way, when the touch integrated machine arranged on the rotating middle back plate rotates, the upper rotating guide rod moves along the upper arc-shaped sliding groove, the lower rotating guide rod moves along the lower arc-shaped sliding groove, thereby leading the upper rotating guide rod and the upper arc-shaped sliding groove to be matched and the lower rotating guide rod and the lower arc-shaped sliding groove to be matched for limiting the rotation and leading the rotation to be stable, and because the upper rotating guide rod and the lower rotating guide rod form central symmetry about the center of the rotating middle back plate, the touch integrated machine is not easy to shake in the rotating process.

Drawings

FIG. 1 is a perspective view of the assembled rotating backplate and rotating backplate of the present invention;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a perspective view of the wall cladding of the present invention;

FIG. 4 is an exploded view of FIG. 3;

FIG. 5 is an assembled view of FIG. 1 and a rotating front plate;

FIG. 6 is a state diagram of the touch screen assembly of the present invention when the touch screen assembly is rotated to a landscape configuration;

FIG. 7 is a state diagram of the touch screen assembly of the present invention when the touch screen assembly is rotated to a portrait position;

fig. 8 is a side view of fig. 6.

[ notation ] to show

Rotating backboard 1

Wave bead 11

Rotating middle back plate 2

Upper arc chute 21 and lower arc chute 22

Limiting hole 23

Left arc chute 24 and right arc chute 25

Spacing post 26

Rotating shaft 31 q1

Upper rotation guide 41 and lower rotation guide 42

Left rotary guide 43 and right rotary guide 44

Nylon gasket 5

Tension spring 6

Locknut 7

Wall hanging board 8

Rotating front panel 9

Screw 01 locating column 02

The touch all-in-one machine 03.

Detailed Description

To achieve the above objects and advantages, the present invention provides a novel and improved technical means and structure, which will be described in detail in connection with the preferred embodiments of the present invention.

Referring to fig. 1 to 8, the present invention discloses a rotation structure of an all-in-one machine support, including: the back plate comprises a rotating back plate 1 and a rotating middle plate 2, wherein an upper arc-shaped sliding groove 21 and a lower arc-shaped sliding groove 22 are formed in the rotating middle plate 2, a rotating shaft 31 penetrates through the center of the rotating back plate 2 and the center of the rotating back plate 1, the rotating middle plate 2 can rotate relative to the rotating back plate 1 around the rotating shaft 31, an upper rotating guide rod 41 and a lower rotating guide rod 42 penetrate between the rotating back plate 1 and the rotating middle plate 2, the upper rotating guide rod 41 can move along the upper arc-shaped sliding groove 21, the lower rotating guide rod 42 can move along the lower arc-shaped sliding groove 22, and the upper rotating guide rod 41 and the lower rotating guide rod 42 form central symmetry with respect to the center of the rotating back plate 2.

Therefore, according to the structural design of the rotating backboard 1 and the rotating middle backboard 2, since the rotating middle backboard 2 is provided with the upper arc-shaped chute 21 and the lower arc-shaped chute 22, the rotating middle backboard 2 can rotate relative to the rotating backboard 1 around the rotating shaft 31, the upper rotating guide rod 41 and the lower rotating guide rod 42 are arranged between the rotating backboard 1 and the rotating middle backboard 2 in a penetrating way, when the touch integrated machine 03 arranged on the rotating middle backboard 2 of the utility model rotates, the upper rotating guide rod 41 moves along the upper arc-shaped chute 21, the lower rotating guide rod 42 moves along the lower arc-shaped chute 22, so that the upper rotating guide rod 41 is matched with the upper arc-shaped chute 21 and the lower rotating guide rod 42 is matched with the lower arc-shaped chute 22 to limit the rotation, the rotation is stable, and since the upper rotating guide rod 41 and the lower rotating guide rod 42 form central symmetry with the center of the rotating middle backboard 2, the touch integrated machine 03 is not easy to shake in the rotating process; as shown in fig. 6, the touch all-in-one machine 03 can be rotated into a horizontal screen, and as shown in fig. 7, the touch all-in-one machine 03 can be rotated into a vertical screen.

Further, in order to enable the rotating middle back plate 2 to be rotated and stably positioned, at least two limiting holes 23 may be formed in the rotating middle back plate 2, the distance between the limiting holes 23 and the center of the rotating middle back plate 2 is equal, at least two beads 11 may be fixedly arranged on the rotating back plate 1, the distance between the beads 11 and the center of the rotating back plate 1 is equal, and the beads 11 and the limiting holes 23 are arranged in one-to-one alignment; in this embodiment, the number of the limiting holes 23 and the number of the beads 11 are four, the limiting holes 23 are uniformly spaced, and the beads 11 are uniformly spaced; but not limited thereto.

Furthermore, in order to make the rotating middle back plate 2 rotate more stably, a left arc-shaped sliding groove 24 and a right arc-shaped sliding groove 25 may be further disposed on the rotating middle back plate 2, the left arc-shaped sliding groove 24 and the right arc-shaped sliding groove 25 are located between the upper arc-shaped sliding groove 21 and the lower arc-shaped sliding groove 22, a left rotating guide rod 43 and a right rotating guide rod 44 are disposed between the rotating back plate 1 and the rotating middle back plate 2 in a penetrating manner, the left rotating guide rod 43 may move along the left arc-shaped sliding groove 24, the right rotating guide rod 44 may move along the right arc-shaped sliding groove 25, and the left rotating guide rod 43 and the right rotating guide rod 44 form central symmetry with respect to the center of the rotating middle back plate 2; the end part of the left arc-shaped sliding chute 24, the end part of the upper arc-shaped sliding chute 21 and the end part of the lower arc-shaped sliding chute 22 are arranged in a staggered manner, the end part of the right arc-shaped sliding chute 25, the end part of the upper arc-shaped sliding chute 21 and the end part of the lower arc-shaped sliding chute 22 are arranged in a staggered manner, and the distance between the left arc-shaped sliding chute 24 and the center of the rotating back plate 2 and the distance between the right arc-shaped sliding chute 25 and the center of the rotating back plate 2 are smaller than the distance between the upper arc-shaped sliding chute 21 and the center of the rotating back plate 2 and the distance between the lower arc-shaped sliding chute 22 and the center of the rotating back plate 2; in addition, the limiting holes 23 are respectively arranged in the middle of the left arc-shaped sliding chute 24, the middle of the right arc-shaped sliding chute 25, the middle of the upper arc-shaped sliding chute 21 and the middle of the lower arc-shaped sliding chute 22 in an aligned mode; the upper rotation guide rod 41, the lower rotation guide rod 42, the left rotation guide rod 43, and the right rotation guide rod 44 may be screws, but not limited thereto.

Further, a limiting column 26 can be further arranged on the rotating middle back plate 2, the limiting column 26 is located between the left arc-shaped sliding groove 24 and the center of the rotating middle back plate 2, and a tension spring 6 can be hooked between the limiting column 26 and the right rotating guide rod 44; therefore, when the integrated rotary touch machine 03 crosses the middle of the right rotary guide rod 44 and crosses the right arc-shaped sliding groove 25, the tension spring 6 can contract to enable the right rotary guide rod 44 to rapidly move towards the end close to the right arc-shaped sliding groove 25, and the right rotary guide rod 44 is not easy to move back under the action of the tension force of the tension spring 6, so that the phenomenon that the rotation is not in place is avoided.

Furthermore, in order to reduce the abrasion of the touch integrated machine 03 in the rotating process, the upper rotating guide rod 41 can be provided with a nylon gasket 5 clamped outside the upper arc-shaped chute 21 in a penetrating manner, the lower rotating guide rod 42 can be provided with a nylon gasket 5 clamped outside the lower arc-shaped chute 22 in a penetrating manner, and the left rotating guide rod 43 can be provided with a nylon gasket 5 clamped outside the left arc-shaped chute 24 in a penetrating manner; the fixed positions of the wave beads 11 of the rotary back plate 1 are respectively provided with a nylon gasket 5 for the corresponding wave beads 11 to penetrate through.

In order to facilitate firm assembly, the rotating shaft 31 may be a rotating shaft screw, the tail end of the rotating shaft 31 is screwed with a locknut 7, and in order to reduce abrasion in the rotating process of the touch integrated machine 03, nylon gaskets 5 for the rotating shaft 31 to penetrate through are respectively arranged between the locknut 7 and the rotating back plate 1, between the rotating shaft 31 and the rotating middle back plate 2, and between the rotating back plate 1 and the rotating middle back plate 2.

Further, in order to facilitate the fixation with the wall and touch integrated machine 03, the utility model may further include a wall hanging plate 8 and a rotating front panel 9, wherein the wall hanging plate 8 is fixedly arranged on one side of the rotating backboard 1 away from the rotating middle backboard 2, and the rotating front panel 9 is fixedly arranged on one side of the rotating middle backboard 2 away from the rotating back backboard 1.

Wherein, for the convenience of the equipment of wall link plate 8 and be convenient for rotatory front panel 9 and rotatory backplate 2 equipment, reference column 02 can be worn to establish through screw 01 on the face of wall link plate 8 orientation rotatory backplate 1, the terminal of screw 01 is protruding to be stretched out the face that rotatory backplate 1 was kept away from to wall link plate 8, the screw 01 is worn to establish fixedly on the surface of rotatory front panel 9 and the rotatory surface of backplate 2, the screw 01 is worn to establish fixedly in the side of rotatory front panel 9 and the rotatory side of backplate 2.

While the utility model has been described with reference to specific embodiments, it will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the utility model. Therefore, the scope of the present invention should not be limited to the embodiments disclosed, but includes various alternatives and modifications without departing from the present invention, which are encompassed by the claims.

Claims (10)

1. A revolution mechanic of all-in-one machine support, its characterized in that includes: the back plate rotating mechanism comprises a rotating back plate and a rotating middle back plate, wherein an upper arc-shaped sliding groove and a lower arc-shaped sliding groove are formed in the rotating middle back plate, a rotating shaft penetrates through the center of the rotating back plate and the center of the rotating back plate, the rotating middle back plate can rotate around the rotating shaft relative to the rotating back plate, an upper rotating guide rod and a lower rotating guide rod penetrate between the rotating back plate and the rotating middle back plate, the upper rotating guide rod can move along the upper arc-shaped sliding groove, the lower rotating guide rod can move along the lower arc-shaped sliding groove, and the upper rotating guide rod and the lower rotating guide rod form central symmetry about the center of the rotating middle back plate.

2. The rotating structure of the all-in-one machine support of claim 1, wherein: the rotary middle back plate is provided with at least two limiting holes, the distance between the limiting holes and the center of the rotary middle back plate is equal, the rotary back plate is fixedly provided with at least two wave beads, the distance between the wave beads and the center of the rotary back plate is equal, and the wave beads and the limiting holes are arranged in a one-to-one alignment mode.

3. The rotating structure of the all-in-one machine support of claim 2, wherein: the quantity of spacing hole and the quantity of ripples pearl are four, evenly spaced arrangement between the spacing hole, evenly spaced arrangement between the ripples pearl.

4. The rotating structure of the all-in-one machine support of claim 2, wherein: the fixed positions of the rotary back plate and the wave beads are respectively provided with a nylon gasket for the corresponding wave beads to penetrate through.

5. The rotating structure of the all-in-one machine support of claim 1, wherein: the rotary middle back plate is further provided with a left arc-shaped sliding groove and a right arc-shaped sliding groove, the left arc-shaped sliding groove and the right arc-shaped sliding groove are located between the upper arc-shaped sliding groove and the lower arc-shaped sliding groove, a left rotary guide rod and a right rotary guide rod penetrate through the rotary middle back plate, the left rotary guide rod can move along the left arc-shaped sliding groove, the right rotary guide rod can move along the right arc-shaped sliding groove, and the left rotary guide rod and the right rotary guide rod form central symmetry about the center of the rotary middle back plate.

6. The rotating structure of the all-in-one machine support of claim 5, wherein: the rotary middle back plate is further provided with a limiting column, the limiting column is located between the left arc-shaped sliding groove and the center of the rotary middle back plate, and a tension spring is hooked between the limiting column and the right rotary guide rod.

7. The rotating structure of the all-in-one machine support of claim 5, wherein: the upper rotating guide rod is provided with a nylon gasket clamped outside the upper arc-shaped chute in a penetrating manner, the lower rotating guide rod is provided with a nylon gasket clamped outside the lower arc-shaped chute in a penetrating manner, and the left rotating guide rod is provided with a nylon gasket clamped outside the left arc-shaped chute in a penetrating manner.

8. The rotating structure of the all-in-one machine support of any one of claims 1 to 7, wherein: the pivot is the pivot screw, the terminal spiral shell of pivot closes a locknut, set up a nylon gasket that supplies the pivot to wear to establish respectively between locknut and the rotatory backplate, between pivot and the rotatory backplate and between rotatory backplate and the rotatory backplate.

9. The rotating structure of the all-in-one machine support of any one of claims 1 to 7, wherein: the rotary backboard comprises a rotary backboard body, and is characterized by further comprising a wall hanging plate and a rotary front panel, wherein the wall hanging plate is fixedly arranged on one side, away from the rotary backboard, of the rotary backboard, and the rotary front panel is fixedly arranged on one side, away from the rotary backboard, of the rotary backboard.

10. The rotating structure of the all-in-one machine support of claim 9, wherein: the positioning column is penetrated through the screw on the face of the wall hanging plate facing the rotary back plate, the tail end of the screw protrudes out of the face of the wall hanging plate far away from the rotary back plate, the surface of the rotary front panel and the surface of the rotary middle back plate are fixed through the screw, and the side face of the rotary front panel and the side face of the rotary middle back plate are fixed through the screw.

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