CN220228567U - Touch-control lift all-in-one - Google Patents

Abstract

The utility model discloses a touch lifting integrated machine, and belongs to the technical field of touch integrated machines; the touch control integrated machine comprises a touch control integrated machine body and a base, wherein the base is used for supporting the whole device; the touch control integrated machine body is positioned between the pair of main support frames and is rotationally connected with the pair of main support frames; the back of the touch control integrated machine body is rotationally connected with the pair of auxiliary supporting legs, and the main support is positioned between the pair of auxiliary supporting legs; the touch control lifting integrated machine provided by the utility model can be conveniently operated by a single person in an upright state and can be conveniently used by a plurality of people in a horizontal state or used by a table game; and the automatic switching device can be switched freely according to actual use conditions, is simple in switching operation, can be easily switched by a single person, is convenient to use and is suitable for popularization.

Description

Touch-control lift all-in-one

Technical Field

The utility model relates to a touch lifting integrated machine, and belongs to the technical field of touch integrated machines.

Background

The touch control integrated machine is an electronic display component which combines a touch screen, a liquid crystal screen, an industrial PC unit module and an integrated machine shell together, and finally can realize touch control operation through one power line, and is called as the touch control integrated machine. The touch control integrated machine comprises a display function, a man-machine interaction function and the like, but the conventional touch control integrated machine is usually designed to be fixed, such as vertical or horizontal, and cannot be switched between two states, so that the touch control integrated machine cannot be suitable for various scenes and is inconvenient to use.

The utility model provides a touch lifting all-in-one machine, which can be used in an upright state or in a horizontal state and can be switched freely according to actual use conditions. The touch lifting integrated machine provided by the utility model is simple in switching operation, can be easily switched by a single person, is convenient to use and is suitable for popularization.

Disclosure of Invention

The technical problems to be solved by the utility model are as follows: the utility model provides a touch-control lift all-in-one, it has solved current touch-control all-in-one and can't realize carrying out the technical problem that switches in these two kinds of states of vertical type and person's horizontal type.

The technical problems to be solved by the utility model are realized by adopting the following technical scheme:

scheme one: the utility model provides a touch-control lift all-in-one, includes the touch-control all-in-one body, still includes:

a base for supporting the entire device;

the touch control integrated machine body is positioned between the pair of main support frames and is rotationally connected with the pair of main support frames;

the back of the touch control integrated machine body is rotationally connected with a pair of auxiliary supporting legs, and the main support is positioned between the pair of auxiliary supporting legs.

The touch control lifting integrated machine provided by the utility model can be used in an upright state or in a horizontal state, and can be switched freely according to actual use conditions.

Scheme two, based on scheme one, in order to prevent touch-control all-in-one body from rotating by oneself, set up the part that is used for restricting to prevent touch-control all-in-one body pivoted. The method comprises the following steps:

preferably, the base is provided with a height-fixed limiting plate and a height-adjustable movable limiting plate, when the touch integrated machine body is in an upright state, the bottom end of the touch integrated machine body is clamped between the fixed limiting plate and the movable limiting plate, and the touch integrated machine body is prevented from rotating automatically under the condition of external acting force.

Further, a groove is formed in the base, the lower end face of the movable limiting plate is connected with the bottom face of the groove through a spring, and the movable limiting plate can reciprocate up and down along the groove; when the spring is in a natural state, the upper end face of the movable limiting plate is higher than the bottom end of the touch control integrated machine body, and when the spring is compressed to the maximum limit, the upper end face of the movable limiting plate is lower than the bottom end of the touch control integrated machine body. The movable limiting plate cannot be separated from the groove in the reciprocating movement process, and the height adjusting operation is more convenient.

Further, the movable limiting plate comprises a treading part and a blocking part, and the treading part is positioned at the outer side of the touch control integrated machine body. The touch control integrated machine body is not prevented from being rotated out, the foot is not bumped, and the use is safer and more comfortable.

Further, friction lines are formed on the upper end face of the treading part. Can avoid skidding when the movable limiting plate is stepped on by foot.

In the third aspect, based on the first aspect, in order to improve the support stability, the structure of the main support frame is defined and a support palm that increases the support area is provided. The method comprises the following steps:

preferably, the main support frame is V-shaped, and both ends of the main support frame are fixedly connected with the base. The main support frame is V-shaped, so that the support stability in two states of vertical and horizontal can be improved simultaneously.

Preferably, the lower ends of the auxiliary supporting legs are fixedly connected with supporting palms. The supporting palm can improve the supporting stability in horizontal type.

According to the third scheme, based on the first scheme, in order to reduce the impact between the auxiliary supporting legs and the back surface of the touch control integrated machine body, a buffer cushion is further arranged. The method comprises the following steps:

preferably, a buffer pad for buffering the collision between the auxiliary supporting leg and the touch control integrated machine body is fixedly connected to the position corresponding to the auxiliary supporting leg on the back surface of the touch control integrated machine body.

The beneficial effects of the utility model are as follows:

the touch control lifting integrated machine provided by the utility model can be used in an upright state or in a horizontal state, and can be switched freely according to actual use conditions. The touch lifting integrated machine provided by the utility model is simple in switching operation, can be easily switched by a single person, is convenient to use and is suitable for popularization.

Drawings

FIG. 1 is a perspective view of a first view of the present utility model;

FIG. 2 is an enlarged schematic view of the structure A in FIG. 1;

FIG. 3 is a schematic view of a second perspective view of the present utility model;

FIG. 4 is an enlarged schematic view of the structure shown at B in FIG. 3;

FIG. 5 is a perspective view showing a first view of the present utility model when the main support 3 is V-shaped;

FIG. 6 is a perspective view of the second view of the present utility model when the main support 3 is V-shaped;

FIG. 7 is a schematic diagram of the front view structure of FIG. 1;

FIG. 8 is an enlarged schematic view of the structure of FIG. 7 at C;

fig. 9 is an enlarged schematic view of the structure at D in fig. 7.

In the figure: 1. the touch control integrated machine body; 2. a base; 3. a main support frame; 4. a first shaft groove; 5. a bearing; 6. a second shaft groove; 7. a connecting shaft; 8. auxiliary support legs; 9. a bearing sleeve; 10. a cushion pad; 11. a supporting palm; 12. fixing a limiting plate; 13. a movable limiting plate; 1301. a tread portion; 1302. a blocking part; 14. a groove; 15. a spring; 16. rubbing lines.

Detailed Description

The utility model will be further described with reference to the following embodiments in order to make the technical means, the creation features, the achievement of the objects and the effects of the utility model easy to understand.

In the description of the present utility model, it should be understood that the terms "transverse", "longitudinal", "end", "edge", "side wall", "upper", "lower", "directly above", "surface", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", "end", "head", "tail", etc. refer to the orientation or positional relationship based on the drawings, are merely for convenience of describing the technical solution of the present utility model and for simplifying the description, and do not indicate or imply that the apparatus or element referred to must have a specific orientation, be configured and operated in a specific orientation, and therefore should not be construed as limiting the present utility model.

As shown in fig. 1 and 2, this embodiment provides a touch lifting integrated machine, including a touch integrated machine body 1, further including:

a base 2 for supporting the entire apparatus;

the pair of main support frames 3 are fixedly connected with the base 2, and the base 2 and the main support frames 3 can be fixedly connected through bolts; the touch control integrated machine body 1 is positioned between the pair of main support frames 3, one side of the touch control integrated machine body 1 is rotationally connected with one main support frame 3, and the other side of the touch control integrated machine body 1 is rotationally connected with the other main support frame 3.

As shown in fig. 8, the rotational connection may be achieved as follows: the first shaft groove 4 is formed in the touch control integrated machine body 1, the bearing 5 is arranged in the first shaft groove 4, the first shaft groove 4 can be formed in any position on the side face of the touch control integrated machine body 1, preferably, the first shaft groove is formed in the middle position along the height direction on the side face of the touch control integrated machine body 1, and after the touch control integrated machine body 1 is leveled, the two sides can be kept balanced. The main support 3 is provided with a second shaft groove 6, a bearing 5 is arranged in the second shaft groove 6, the first shaft groove 4 and the second shaft groove 6 are connected through a connecting shaft 7, one end of the connecting shaft 7 is inserted into the bearing 5 in the first shaft groove 4, and the other end of the connecting shaft 7 is inserted into the bearing 5 in the second shaft groove 6, so that the main support 3 is rotationally connected with the touch control integrated machine body 1. So the touch control integrated machine body 1 can freely rotate around the supporting frame.

The back of the touch control integrated machine body 1 is rotatably connected with the pair of auxiliary supporting legs 8, and the main support frame 3 is positioned between the pair of auxiliary supporting legs 8. Here, the side surface of the touch-sensitive integrated body 1 that is displayed and touched is defined as a front surface, and the side surface opposite to the front surface is defined as a rear surface.

As shown in fig. 4, the rotation connection manner between the auxiliary supporting leg 8 and the touch integrated machine body 1 may be as follows: the touch control integrated machine body 1 is fixedly connected with a bearing sleeve 9 through bolts, and auxiliary supporting legs 8 are rotatably sleeved in the bearing sleeve 9. When the whole touch control integrated machine body 1 rotates to a horizontal state, a pair of auxiliary supporting legs 8 rotate to enable the auxiliary supporting legs 8 to land, the auxiliary supporting legs 8 are matched with the main support frame 3 for use, and the touch control integrated machine body 1 rotates to the horizontal state is stably supported. For example, the auxiliary supporting leg 8 may be a U-shaped supporting leg, and the middle part of the U-shaped supporting leg is rotatably sleeved in the bearing sleeve 9.

The touch control integrated machine body 1 is rotated to a vertical state, the main support frame 3 and the base 2 support the touch control integrated machine body 1 together, meanwhile, in the process of rotating the touch control integrated machine body 1 to the vertical state, the pair of auxiliary support legs 8 also gradually rotate towards the back of the touch control integrated machine body 1 under the action of self gravity, and finally the pair of auxiliary support legs 8 are attached to the back of the touch control integrated machine body 1. At this time, the touch control integrated machine body 1 is in an upright state; the rotary touch integrated machine body 1 is positioned in a horizontal state, and the pair of auxiliary supporting legs 8 also gradually rotate to the lower end for grounding under the action of self gravity, so that the rotary touch integrated machine body 1 is supported in an auxiliary mode. At this time, the touch-control integrated machine body 1 can be used as a desktop with a display function, and is suitable for being used by multiple people around the touch-control integrated machine body 1, such as a multi-person conference or a desktop game.

In other embodiments, as shown in fig. 5 and 6, the main support 3 is V-shaped, and both ends of the main support 3 are fixedly connected to the base 2. The main support 3 and the base 2 form a triangle, and the support structure is stable. Because the touch control integrated machine body 1 is heavier, the main support frame 3 and the base 2 form a triangular support structure, so that the support is more stable, and the touch control integrated machine body 1 cannot topple and shake when rotating.

In other embodiments, as shown in fig. 4, the lower ends of the auxiliary supporting legs 8 are fixedly connected with a supporting palm 11. The supporting palm 11 can increase the supporting area and improve the supporting stability of the auxiliary supporting leg 8. For example, when the auxiliary supporting leg 8 may be a U-shaped supporting leg, two ends of the U-shaped supporting leg are fixedly connected with one supporting palm 11.

As shown in fig. 4, in other embodiments, a cushion pad 10 is disposed at a position corresponding to the auxiliary support leg 8 on the back surface of the touch-control integrated machine body 1. In the process of rotating the touch control integrated machine body 1 from the horizontal direction to the vertical direction, the auxiliary supporting legs 8 and the touch control integrated machine body 1 have impact force at the moment of being attached to the back surface of the touch control integrated machine body 1, so that the buffer pad 10 is arranged to buffer the impact force, and noise caused by the impact is reduced.

As shown in fig. 1, 3, 5 and 6, in other embodiments, a fixed limiting plate 12 with a fixed height and a movable limiting plate 13 with an adjustable height are fixedly connected to the base 2, wherein the fixed limiting plate 12 is higher than the bottom end of the touch-control integrated machine body 1; the height of the movable limiting plate 13 can be adjusted to be higher than the bottom end of the touch control integrated machine body 1, and also can be adjusted to be lower than the bottom end of the touch control integrated machine body 1. The bottom end of the touch control integrated machine body 1 is clamped between the fixed limiting plate 12 and the movable limiting plate 13; when the touch control integrated machine body 1 is in an upright state, the bottom end of the touch control integrated machine body 1 is clamped between the fixed limiting plate 12 and the movable limiting plate 13, so that the touch control integrated machine body 1 can be prevented from rotating by itself.

When the touch control integrated machine body 1 is in an upright state, a gap can be reserved between the fixed limiting plate 12 and the touch control integrated machine body 1, or the gap can be not reserved; a gap can be reserved between the movable limiting plate 13 and the touch control integrated machine body 1 in the same way, and the gap can also be not reserved; preferably, no gap is reserved between the fixed limiting plate 12 and the touch control integrated machine body 1, and no gap is reserved between the movable limiting plate 13 and the touch control integrated machine body 1; namely, the fixed limiting plate 12 and the movable limiting plate 13 are propped against the touch control integrated machine body 1, and the fixed limiting plate 12 and the movable limiting plate 13 are propped against the touch control integrated machine body 1; at this time, when the touch control integrated machine body 1 is in an upright state, the touch control integrated machine body cannot shake, and damage caused by collision of the touch control integrated machine body 1 due to shake is avoided.

As shown in fig. 9, in other embodiments, a recess 14 is formed on an end surface of the base 2 facing the touch-control integrated machine body 1, and the end surface is also an upper end surface of the base. The lower end face of the movable limiting plate 13 is connected with the bottom face of the groove 14 through a spring 15, one end of the spring 15 is fixedly connected with the lower end face of the movable limiting plate 13, and the other end of the spring 15 is fixedly connected with the bottom face of the groove 14; when the spring 15 is in a natural state, the upper end surface of the movable limiting plate 13 is higher than the bottom end of the touch control integrated machine body 1.

When the touch control integrated machine body 1 is adjusted from the vertical state to the horizontal state: the foot is stepped on the movable limiting plate 13, the height of the movable limiting plate 13 can be adjusted to be lower than the lower end of the touch control integrated machine body 1, the touch control integrated machine body 1 is rotated by hand, when the touch control integrated machine body 1 passes over the upper end of the movable limiting plate 13, the movable limiting plate 13 is loosened, and the movable limiting plate 13 automatically returns to the original position under the action of a reset spring.

When the touch control integrated machine body 1 is adjusted from a horizontal state to an upright state: when the hand rotates the touch control all-in-one body 1, and the bottom of the touch control all-in-one body 1 rotates to the front of the movable limiting plate 13, the movable limiting plate 13 is stepped on by foot, so that the height of the movable limiting plate 13 is adjusted to be lower than the lower end of the touch control all-in-one body 1, the touch control all-in-one body 1 is continuously rotated, and when the touch control all-in-one body 1 passes over the upper end of the movable limiting plate 13, the movable limiting plate 13 is loosened, and the movable limiting plate 13 is higher than the bottom of the touch control all-in-one body 1 under the action of a reset spring. The touch control integrated machine body 1 is clamped between the fixed limiting plate 12 and the movable limiting plate 13 and cannot rotate.

In other embodiments, it is preferred that the movable stop plate 13 is partially located within the recess 14 when the spring 15 is in its natural state. Because the groove 14 has a guiding function on the movable limiting plate 13, the movable limiting plate 13 cannot be separated from the groove 14 in the reciprocating movement process, and the reciprocating movement is smoother.

As shown in fig. 2, in other embodiments, the movable limiting plate 13 includes a tread portion 1301 and a blocking portion 1302, and the upper end surface of the tread portion 1301 is provided with friction lines 16, so that the friction force of stepping on the movable limiting plate 13 can be increased, and the foot slip can be prevented.

As shown in fig. 7, in other embodiments, the tread portion 1301 is located outside the touch-control all-in-one machine body 1. Thus, when the foot steps on the stepping portion 1301, the foot does not block the touch-control integrated machine body 1 from being turned out, and at the same time, the foot is not bumped.

The foregoing has shown and described the basic principles, principal features and advantages of the utility model. It will be appreciated by persons skilled in the art that the present utility model is not limited to the embodiments described above, but is capable of numerous variations and modifications without departing from the spirit and scope of the utility model as hereinafter claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (7)

1. The utility model provides a touch-control lift all-in-one, includes touch-control all-in-one body, its characterized in that still includes: a base for supporting the entire device;

the touch control integrated machine body is positioned between the pair of main support frames and is rotationally connected with the pair of main support frames;

the back of the touch control integrated machine body is rotationally connected with a pair of auxiliary supporting legs, and the main support is positioned between the pair of auxiliary supporting legs;

the base is provided with a height-fixed limiting plate and a height-adjustable movable limiting plate, and when the touch control integrated machine body is in an upright state, the bottom end of the touch control integrated machine body is clamped between the fixed limiting plate and the movable limiting plate.

2. The touch lifting integrated machine according to claim 1, wherein the base is provided with a groove, the lower end surface of the movable limiting plate is connected with the bottom surface of the groove through a spring, and the movable limiting plate can reciprocate up and down along the groove; when the spring is in a natural state, the upper end face of the movable limiting plate is higher than the bottom end of the touch control integrated machine body, and when the spring is compressed to the maximum limit, the upper end face of the movable limiting plate is lower than the bottom end of the touch control integrated machine body.

3. The touch lifting all-in-one machine according to claim 2, wherein the movable limiting plate comprises a tread portion and a blocking portion, and the tread portion is located on the outer side of the touch all-in-one machine body.

4. The touch lifting integrated machine according to claim 3, wherein friction lines are formed on the upper end surface of the tread portion.

5. The touch lifting integrated machine according to claim 1, wherein the main support frame is V-shaped, and both ends of the main support frame are fixedly connected with the base.

6. The touch lifting integrated machine according to claim 1, wherein the lower ends of the auxiliary supporting legs are fixedly connected with supporting palms.

7. The touch lifting all-in-one machine according to claim 1, wherein a buffer pad for buffering collision between the auxiliary support leg and the touch all-in-one machine body is fixedly connected to the back of the touch all-in-one machine body at a position corresponding to the auxiliary support leg.