CN220651603U - Three-dimensional regulation and control formula building identification means - Google Patents

Abstract

The utility model discloses a three-dimensional regulation type building identification device, which comprises a vertical frame fixed in an external environment and a signboard arranged in the external space of the vertical frame; 1. flexible shape and size adjustment: the technology of the utility model can realize folding, unfolding and angle adjustment of the signboard through the operation of the stretching mechanism and the adjusting mechanism. The shape and the size of the advertising signboard can be flexibly adjusted according to the requirement, and the advertising signboard is suitable for different display scenes and space limitations. 2. Multi-faceted display and rich information delivery: the technology of the utility model provides the capability of multi-face display by forming a complete signboard assembly by a plurality of signboard hinges. Therefore, more advertisement contents and information can be displayed at the same time, the information transmission effect is enhanced, the attention of audiences is attracted, and a richer display experience is provided.

Description

Three-dimensional regulation and control formula building identification means

Technical Field

The utility model relates to the technical field of identification plates, in particular to a three-dimensional regulation type building identification device.

Background

The building advertisement signboard refers to a sign or a plaque arranged on a building and used for displaying advertisement information. They are commonly used in commercial buildings, public places, tall buildings, etc. to attract attention and convey specific information. Building billboards are often of a large size to ensure that they are also attractive to pedestrians, vehicles and passers-by at a distance.

Building advertising signs are used to display various advertising content, such as product promotions, brand promotions, special campaigns, or marketing. The information on the sign is often concisely and clearly understood to ensure that people can quickly understand the purpose and gist of the advertisement. The building advertisement signboard can be made of various materials, such as metal, plastic, acrylic plate, glass and the like.

Building advertisement signboard is an effectual advertising mode, can be through showing advertising information in the city view prominently, attracts people's eyeball and promotes brand awareness. However, when designing and setting up building advertising signboards, local regulations and laws and regulations need to be followed to ensure safety, legitimacy and environmental protection.

However, as long as the inventor works and researches, the following technical problems need to be solved in the conventional technology:

(1) Limiting shape and size: conventional billboard technology is often limited in shape and size. The design of the sign is usually fixed and flexible shape and size adjustment is difficult to achieve.

(2) Limited display surface and information transfer effect: conventional advertising signs typically display information on only one plane, with limited display surfaces.

(3) Lack of angular adjustment capability: conventional advertising signs often have difficulty in angular adjustment. The angle of the signboard cannot be flexibly adjusted according to the viewing angle and the demand of the audience, so that the information display effect is limited.

For this purpose, a three-dimensional control type building identification device is proposed.

Disclosure of Invention

In view of the above, the embodiments of the present utility model wish to provide a three-dimensional regulation type building identification device, so as to solve or alleviate the technical problems existing in the prior art, that is, the shape and the size are limited, and flexible adjustment is difficult to realize; the display surface is limited, and the information transmission effect is limited; lack of angular adjustment capability, inability to make angular adjustments according to viewer needs, and at least one beneficial choice for this;

the technical scheme of the embodiment of the utility model is realized as follows: a three-dimensional regulation type building identification device comprises a vertical frame fixed in an external environment and a signboard arranged in the external space of the vertical frame; further, an adjusting mechanism for adjusting the pitching angle of the signboard is arranged on the vertical frame; the adjusting mechanism establishes a connection relation with the identification plates through the stretching mechanism, and the number of the identification plates is at least four and is hinged with each other through hinges; normally, the signboard is unfolded by the stretching mechanism to form a complete signboard assembly; in the non-use state, the signboard is folded back by the stretching mechanism to form a folding assembly.

In the above embodiment, the three-dimensional regulation type building identification device comprises the following components: a stand and a signboard. The stand is fixed in the external environment of the building, and the signboard is positioned in the external space of the stand. In addition, the stand is also provided with an adjusting mechanism for adjusting the pitching angle of the signboard. The adjusting mechanism is connected with the signboard through the extending mechanism, the number of the signboard is at least four, and the signboard is hinged with each other through a hinge.

Wherein in one embodiment: the adjusting mechanism comprises a first linear actuator for adjusting the pitching angles of the stretching mechanism and all the signboards; the stretching mechanism is arranged on the base frame, one end of the base frame is hinged to the frame, and the frame is arranged on the stand.

In the above embodiment, the pitch mechanism includes a first linear actuator for adjusting the pitch angle of the extension mechanism and all of the signs. The stretching mechanism is arranged on the base frame, one end of the base frame is connected with the frame through a hinge, and the frame is arranged on the vertical frame. The accurate adjustment of the signboard can be realized according to different requirements and viewing angles so as to show the best advertising effect and information transfer effect.

Wherein in one embodiment: the first linear actuator is preferably a first servo electric cylinder, and a cylinder body and a piston rod of the first servo electric cylinder are respectively hinged to one end of the frame and the other end of the base frame through fish eye joints.

In the above embodiment, the first linear actuator is preferably a first servo cylinder. The cylinder body and the piston rod of the first servo electric cylinder are respectively hinged with one end of the frame and the other end of the base frame through fish eye joints. Therefore, the accurate display of the signboard can be realized according to the requirements and the viewing angle, and better advertisement display effect and information transmission effect are provided.

Wherein in one embodiment: the vertical frame is also provided with a rotary executing piece for adjusting the horizontal rotation angle of the adjusting mechanism, and the rotary executing piece is in driving connection with the frame.

In the above embodiment, the stand is further provided with a rotation actuator for adjusting the horizontal rotation angle of the adjusting mechanism. The rotary actuator is drivingly connected to the frame. Such a functional design provides more display possibilities and customizability, enabling the sign to display advertising information at different angles.

Wherein in one embodiment: the rotary executing piece is preferably a servo motor, the servo motor is fixedly arranged on the vertical frame, and an output shaft of the servo motor is fixedly connected with the frame.

In the above embodiment, the rotation actuator is preferably a servo motor. The servo motor is fixedly arranged on the vertical frame, and an output shaft of the servo motor is fixedly connected with the frame. The design enables the signboard to realize fine angle adjustment in the horizontal direction as required so as to adapt to different display requirements and viewing angles of audiences.

Wherein in one embodiment: the stretching mechanism comprises a second linear actuator fixedly connected to the base frame, and the second linear actuator is used for driving all the signboard to fold. Such a design allows the sign to be folded when needed to save space or to be protected and to be unfolded at any time to display advertising content or information.

In the above embodiment, the stretching mechanism includes a second linear actuator fixedly connected to the base frame for driving all the signboard to be folded.

Wherein in one embodiment: the second linear actuator is preferably a second servo electric cylinder, the cylinder body of the second servo electric cylinder is fixedly connected with the base frame, and the outer surface of a piston rod of the second servo electric cylinder is hinged to a hinge point where every two signboard hinges are hinged through a plurality of hinge shafts.

In the above embodiment, the second linear actuator is preferably a second servo cylinder. The cylinder body of the second servo electric cylinder is fixedly connected to the base frame, and the outer surface of a piston rod of the second servo electric cylinder is hinged to a hinge point where every two signboard hinges are hinged through a plurality of hinge shafts. The precise control of the signboard can be realized by controlling the contraction and the extension of the servo electric cylinder through the motor. The design of the hinge point enables the signboard to have stable movement performance in the folding and unfolding processes.

Wherein in one embodiment: the stretching mechanism further comprises an X-shaped hinge frame, one end of the X-shaped hinge frame is hinged to the base frame, and the other end of the X-shaped hinge frame is hinged to the end portion of the outermost signboard. The X-shaped hinge frame is similar to an X-shaped hinge frame assembly used by a lifter or an X-shaped hinge frame assembly used by a household clothes hanger, can synchronously fold or unfold along with all the identification plates in a folded or unfolded state, and mainly plays a supporting role.

In the above embodiment, the stretching mechanism further includes an X-shaped hinge frame. One end of the X-shaped hinge frame is hinged on the base frame, and the other end is hinged on the end part of the outermost signboard. The X-shaped hinge frame is similar to an X-shaped hinge frame assembly used for a lifter or a household clothes hanger, can synchronously fold or unfold along with all the identification plates in a folded or unfolded state, and mainly plays a supporting role.

Wherein in one embodiment: the stretching mechanism further comprises an oil pressure buffer, a cylinder body of the oil pressure buffer is hinged to the base frame, and a piston rod of the oil pressure buffer abuts against the X-shaped hinge frame. Playing a role of buffering.

In the above embodiment, the stretching mechanism further includes a hydraulic damper. The cylinder body of the hydraulic buffer is hinged on the base frame, and the piston rod is propped against the X-shaped hinge frame. The function of the hydraulic damper is to provide a damping function.

Compared with the prior art, the utility model has the beneficial effects that:

1. flexible shape and size adjustment: the technology of the utility model can realize folding, unfolding and angle adjustment of the signboard through the operation of the stretching mechanism and the adjusting mechanism. The shape and the size of the advertising signboard can be flexibly adjusted according to the requirement, and the advertising signboard is suitable for different display scenes and space limitations.

2. Multi-faceted display and rich information delivery: the technology of the utility model provides the capability of multi-face display by forming a complete signboard assembly by a plurality of signboard hinges. Therefore, more advertisement contents and information can be displayed at the same time, the information transmission effect is enhanced, the attention of audiences is attracted, and a richer display experience is provided.

3. Flexibility of angle adjustment: the pitch angle and the horizontal rotation angle of the signboard can be adjusted by the aid of the adjusting mechanism and the rotary executing piece. The signboard can flexibly adjust angles according to the positions and demands of audiences, so that advertising content is ensured to be displayed to the audiences at the optimal viewing angle, and better viewing experience is provided.

4. Convenience of folding and unfolding: the technology of the utility model realizes the folding and unfolding functions of the signboard through the stretching mechanism and the hydraulic buffer. The signboard can be folded into a compact folding assembly in a non-use state, so that the signboard is convenient to store and protect; when in use, the advertising board can be unfolded into a complete signboard assembly to display advertising content.

5. Promoted display effect and viewing experience: through the advantages, the technology of the utility model can provide more flexible, various and adjustable advertisement display modes. This can enhance the attractiveness and influence of advertisements, and improve the information transfer effect. Meanwhile, the audience can obtain better watching experience according to own requirements and viewing angles, so that user satisfaction is improved.

Drawings

In order to more clearly illustrate the embodiments of the present application or the technical solutions in the prior art, the drawings that are required in the embodiments or the technical descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

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

FIG. 2 is a schematic perspective view of an adjustment mechanism according to the present utility model;

fig. 3 is a schematic perspective view of the stretching mechanism of the present utility model.

Reference numerals: 1. a vertical frame; 2. a signboard; 3. rotating the actuator; 4. an adjusting mechanism; 401. a frame; 402. a first linear actuator; 403. a base frame; 5. an extension mechanism; 501. a second linear actuator; 502. an X-shaped hinge frame; 503. and a hydraulic buffer.

Detailed Description

In order that the above objects, features and advantages of the utility model will be readily understood, a more particular description of the utility model will be rendered by reference to the appended drawings. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present utility model. This utility model may be embodied in many other forms than described herein and similarly modified by those skilled in the art without departing from the spirit of the utility model, whereby the utility model is not limited to the specific embodiments disclosed below;

it should be noted that the terms "first," "second," "symmetric," "array," and the like are used merely for distinguishing between description and location descriptions, and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of features indicated. Thus, a feature defining "first," "symmetry," or the like, may explicitly or implicitly include one or more such feature; also, where certain features are not limited in number by words such as "two," "three," etc., it should be noted that the feature likewise pertains to the explicit or implicit inclusion of one or more feature quantities;

it is noted that terms like "degree of freedom" refer to a relationship of connection and application of a force of at least one component, e.g. "linear degree of freedom" refers to a relationship in which a component is connected to and applies a force to another component or components through the linear degree of freedom such that it is capable of sliding fit or application of a force in a straight direction; "rotational freedom" means that a component is free to rotate about at least one axis of rotation and can apply or receive torque.

In the present utility model, unless expressly stated or limited otherwise, a first feature "up" or "down" a second feature may be the first and second features in direct contact, or the first and second features in indirect contact via an intervening medium. Moreover, a first feature being "above," "over" and "on" a second feature may be a first feature being directly above or obliquely above the second feature, or simply indicating that the first feature is level higher than the second feature. The first feature being "under", "below" and "beneath" the second feature may be the first feature being directly under or obliquely below the second feature, or simply indicating that the first feature is less level than the second feature; meanwhile, all axial descriptions such as X-axis, Y-axis, Z-axis, one end of X-axis, the other end of Y-axis, or the other end of Z-axis are based on a cartesian coordinate system.

In the present utility model, unless explicitly specified and limited otherwise, terms such as "mounted," "connected," "secured," and the like are to be construed broadly; for example, the connection can be fixed connection, detachable connection or integrated molding; the connection may be mechanical, direct, welded, indirect via an intermediate medium, internal communication between two elements, or interaction between two elements. The specific meaning of the terms described above in the present utility model will be understood by those skilled in the art from the specification and drawings in combination with specific cases.

In the prior art, people receive a large amount of advertisement information every day, and the attention of audiences becomes more and more distracted. Conventional billboards need to be innovated to draw interest and attention to viewers, thereby increasing attractiveness and impact of advertising. Only by providing attractive, unique and memorable advertising content can an impressive impression be left in the audience and motivate them to take action; for this reason, referring to fig. 1-3, the present embodiment provides related technical solutions to meet the above needs: a three-dimensional regulation type building identification device comprises a vertical frame 1 fixed in the external environment and a signboard 2 arranged in the external space of the vertical frame 1; further, the vertical frame 1 is provided with an adjusting mechanism 4 for adjusting the pitching angle of the signboard 2; the adjusting mechanism 4 establishes a connection relation with the signboard 2 through the stretching mechanism 5, and the number of the signboard 2 is at least four and is hinged with each other through hinges; normally, the signboard 2 is unfolded by the stretching mechanism 5 to form a complete signboard assembly; in the non-use state, the signboard 2 is folded back by the stretching mechanism 5 to form a folding assembly.

In the scheme, the method comprises the following steps: the three-dimensional regulation and control type building identification device comprises the following components: a vertical frame 1 and a signboard 2. The stand 1 is fixed in the external environment of the building, and the signboard 2 is located in the external space of the stand 1. In addition, the stand 1 is also provided with an adjusting mechanism 4 for adjusting the pitching angle of the signboard 2. The adjusting mechanism 4 is connected with the signboard 2 through the stretching mechanism 5, and the number of the signboard 2 is at least four and is hinged with each other through a hinge.

Specific: the design principle of the device is that the pitching angle of the signboard 2 is adjusted through the adjusting mechanism 4 and the stretching mechanism 5. The adjustment mechanism 4 allows the user to change the angle of the sign 2 as desired to present advertisements or information at different viewing angles. The extension mechanism 5 allows the sign 2 to be normally extended to form a complete sign assembly, while in the non-use condition the extension mechanism 5 may fold the sign 2 back to form a fold-like assembly for stowing or protecting when required.

It will be appreciated that in this embodiment: through adjustment mechanism 4, the user can change the pitch angle of signboard 2 in a flexible way to adapt to different viewing needs and viewing angles. The number of the signboard 2 is at least four, and the signboard 2 is hinged with each other through a hinge, so that a signboard assembly with multiple surfaces for displaying can be formed, and more advertisement displaying surfaces and information transmission effects are provided. By means of the stretching mechanism 5, the signboard 2 can be unfolded normally to form a complete signboard assembly to attract people's attention. In the non-use state, the extension mechanism 5 can fold the signboard 2 back into a folding assembly, so that the signboard is convenient to store and protect. This three-dimensional regulation and control formula building identification device provides more designs and uses the selection through its nimble adjustment mechanism, multiaspect show's signboard subassembly and folding function that can accomodate for the building sign to satisfy different advertisement show demands and space restriction.

It should be noted that the rectangular form of the sign 2 in the figures is shown by way of example only, and that the sign 2 may be designed by a designer to take on a variety of forms without departing from the scope of the present application, and may be designed to meet a variety of visual impact effects when folded.

Furthermore, a designer can create various identification plates with unique and specific shapes according to the theme of advertisement propaganda, the image characteristics of brands and the preference of target audiences. For example, the sign may take on non-conventional geometric shapes, such as circles, ovals, polygons, or irregular shapes, to highlight distinctive visual effects. In addition, the edges of the sign may be designed to be wavy, curved or otherwise attractive to further enhance visual impact.

When folding, the designer can also utilize the shape characteristics of signboard to carry out creative design to realize more visual impact effects. For example, the folding process of the sign may take on a dynamically changing form, such as overlapping, rotating or combining, etc., giving visual surprise and appeal to the viewer. The design of the creative can increase the uniqueness and attractive force of the signboard, so that the signboard can generate stronger visual impact effect in the folding and unfolding processes, and more attention and attention are attracted.

In summary, under the technical scope of the present embodiment, the shape of the signboard may be designed by the designer, and is not limited to the rectangular form. Through the originality and the play of design, can realize the signboard of various shapes to create more visual impact effect when folding. This design flexibility and innovation provides a larger creative space for the billboard, making the advertisement more attractive and influential in the display process.

In some embodiments of the present application, please refer to fig. 2-3 in combination: the adjusting mechanism 4 comprises a first linear actuator 402 for adjusting the pitching angles of the stretching mechanism 5 and all the signboards 2; the stretching mechanism 5 is mounted on a base frame 403, one end of the base frame 403 is hinged to a frame 401, and the frame 401 is arranged on the stand 1.

In the scheme, the method comprises the following steps: the adjustment mechanism 4 comprises a first linear actuator 402 for adjusting the pitch angle of the extension mechanism 5 and all the signs 2. The stretching mechanism 5 is mounted on the base frame 403, and one end of the base frame 403 is connected to the frame 401 by a hinge, and the frame 401 is provided on the stand 1. The accurate adjustment of the signboard 2 can be realized according to different requirements and viewing angles so as to show the best advertising effect and information transfer effect.

Specific: the adjusting mechanism 4 adopts the first linear actuator 402 as an adjusting device, and adjusts the pitching angles of the stretching mechanism 5 and the signboard 2 by controlling the expansion and contraction of the linear actuator. The stretching mechanism 5 is mounted on a base frame 403, and the base frame 403 is connected to the frame 401 by a hinge. When the first linear actuator 402 is controlled to expand and contract, the base frame 403 moves accordingly, and the angle between the stretching mechanism 5 and the signboard 2 is adjusted.

It will be appreciated that in this embodiment: the technical section of this embodiment describes the composition and principle of the adjustment mechanism 4, mainly for adjusting the pitch angle of the signboard 2. By control of the first linear actuator 402, angular adjustment of the stretching mechanism 5 can be achieved, thereby changing the angle of the signboard 2. This way the identification plate 2 can be angularly adjusted as required to better present advertising content or information. The mounting of the frame 401 on the stand 1 provides stable support for the whole device. The three-dimensional control type building marking device according to this embodiment is provided with a flexible adjustment mechanism, and the pitch angle of the signboard 2 is adjusted by the extension and contraction of the first linear actuator 402. The device can realize accurate adjustment of the signboard 2 according to different requirements and viewing angles so as to show the best advertising effect and information transmission effect.

In some embodiments of the present application, please refer to fig. 2-3 in combination: the first linear actuator 402 is preferably a first servo cylinder, and a cylinder body and a piston rod of the first servo cylinder are hinged to one end of the frame 401 and the other end of the base frame 403 through fish-eye joints, respectively.

In the scheme, the method comprises the following steps: the first linear actuator 402 is preferably a first servo cylinder. The cylinder body and the piston rod of the first servo electric cylinder are respectively hinged at one end of the frame 401 and the other end of the base frame 403 through fish eye joints. Therefore, the accurate display of the signboard 2 can be realized according to the requirements and the viewing angle, and better advertisement display effect and information transmission effect are provided.

Specific: a first servo cylinder is selected as the first linear actuator 402 in the adjustment mechanism. The first servo cylinder is composed of a cylinder body and a piston rod, which are connected to one end of the frame 401 and the other end of the base frame 403 through a fisheye joint. By controlling the motor of the servo cylinder, the piston rod can be extended and contracted, thereby realizing the movement and adjustment of the base frame 403.

It will be appreciated that in this embodiment: by using the first servo cylinder as a part of the adjusting mechanism, the precise adjustment of the pitching angles of the stretching mechanism 5 and the signboard 2 is realized. The use of the first servo cylinder provides for a higher control accuracy and adjustment flexibility. The hinged design of the fish-eye joint enables the frame 401 and the base frame 403 to rotate freely and enables the angle adjustment of the signboard 2 by the telescopic movement of the servo electric cylinder. The first servo electric cylinder is used as a key part of the adjusting mechanism, and the expansion and contraction of the piston rod are controlled by the motor to realize the accurate adjustment of the pitching angle of the signboard 2.

In some embodiments of the present application, please refer to fig. 2-3 in combination: the stand 1 is also provided with a rotation executing piece 3 for adjusting the horizontal rotation angle of the adjusting mechanism 4, and the rotation executing piece 3 is in driving connection with the stand 401.

In the scheme, the method comprises the following steps: the vertical frame 1 is also provided with a rotary executing piece 3 for adjusting the horizontal rotation angle of the adjusting mechanism 4. The rotary actuator 3 is drivingly connected to the frame 401. Such a functional design provides more display possibilities and customizability, enabling the sign 2 to display advertising information at different angles.

Specific: this embodiment allows the adjustment of the horizontal rotation angle of the adjustment mechanism 4 by rotating the actuator 3. The rotary actuator 3 is drivingly connected to the frame 401, and the rotary actuator 3 can be rotated in the horizontal direction by control of the driving means, thereby adjusting the angle of the adjustment mechanism 4.

It will be appreciated that in this embodiment: the rotary actuator 3 in this embodiment provides the function of adjusting the horizontal rotation angle of the mechanism 4. By controlling the rotational movement of the rotary actuator 3, the angle of the signboard 2 in the horizontal direction can be adjusted. In this way, the horizontal angle of the signboard 2 can be flexibly adjusted according to different viewing requirements and display requirements so as to better present advertising content or information. The rotary actuator 3 serves as a part of the adjustment mechanism, increasing the functionality of the adjustment mechanism. By controlling the rotation of the rotary actuator 3, accurate adjustment of the signboard 2 in the horizontal direction can be achieved to meet the demands of different scenes and viewers. Such a functional design provides more display possibilities and customizability, enabling the sign 2 to display advertising information at different angles.

In some embodiments of the present application, please refer to fig. 2-3 in combination: the rotary actuator 3 is preferably a servo motor, the servo motor is fixedly arranged on the vertical frame 1, and an output shaft of the servo motor is fixedly connected with the frame 401.

In the scheme, the method comprises the following steps: the rotary actuator 3 is preferably a servomotor. The servo motor is fixedly mounted on the stand 1, and an output shaft of the servo motor is fixedly connected with the frame 401. The design enables the signboard 2 to realize fine angle adjustment in the horizontal direction as required to adapt to different display requirements and viewing angles of audiences.

Specific: this embodiment selects a servo motor as the rotation actuator 3 for adjusting the horizontal rotation angle of the adjustment mechanism 4. The servo motor is used as an electric actuator, and accurate angle control is realized by controlling an input electric signal and a feedback signal. The output shaft of the servo motor is fixedly connected with the frame 401, and when the servo motor receives a control signal, the rotating executing piece 3 drives the frame 401 to horizontally rotate.

It will be appreciated that in this embodiment: by adopting a servo motor as the rotary actuator 3, accurate control of the horizontal rotation angle of the adjusting mechanism 4 can be achieved. The servo motor has the characteristics of high precision, high controllability and stability, can rapidly respond to an input signal, and transmits rotary motion to the frame 401, so that the horizontal angle of the signboard 2 is adjusted. By using a servo motor as the rotation actuator 3, the adjustment mechanism 4 on the stand 1 can be accurately adjusted in the horizontal direction. The fixed mounting of the servo motor and the connection of the output shaft to the frame 401 ensures a stable transmission and control. The design enables the signboard 2 to realize fine angle adjustment in the horizontal direction as required to adapt to different display requirements and viewing angles of audiences.

In some embodiments of the present application, please refer to fig. 2-3 in combination: the stretching mechanism 5 includes a second linear actuator 501 fixedly connected to the base frame 403, and the second linear actuator 501 is used for driving all the signboard 2 to fold. Such a design allows the sign 2 to be folded when needed to save space or for protection and to be unfolded at any time to display advertising content or information.

In the scheme, the method comprises the following steps: the stretching mechanism 5 includes a second linear actuator 501 fixedly connected to the base frame 403 for driving all the signboard 2 to be folded.

Specific: this embodiment realizes the folding function of the signboard 2 by the second linear actuator 501. The second linear actuator 501 is fixedly connected to the base frame 403, and all the signboard 2 can be folded by controlling the telescopic movement of the linear actuator.

Further, as shown in fig. 3, the surface indicated by the line indicated by the a-zone in fig. 3 may be used as a symmetry plane, and two or more sets of stretching mechanisms 5 are symmetrically disposed at two ends of the base frame 403, so as to meet more requirements of shape change.

It will be appreciated that in this embodiment: the second linear actuator 501 in this embodiment is provided as part of an extension mechanism for performing the folding function of the sign 2. By controlling the telescopic movement of the second linear actuator 501, all the signs 2 can be folded in the non-use state, forming a folded assembly. This makes it possible to conveniently house and protect the signboard 2 while saving space and improving reliability of the device. The second linear actuator 501 has a function of driving all the signboard 2 to fold. By controlling the telescopic movement of the actuator, a rapid and stable folding process of the signboard 2 can be achieved. Such a design allows the sign 2 to be folded when needed to save space or for protection and to be unfolded at any time to display advertising content or information.

In some embodiments of the present application, please refer to fig. 2-3 in combination: the second linear actuator 501 is preferably a second servo electric cylinder, the cylinder body of the second servo electric cylinder is fixedly connected to the base frame 403, and the outer surface of a piston rod of the second servo electric cylinder is hinged to a hinge point where every two signboard 2 hinges.

In the scheme, the method comprises the following steps: the second linear actuator 501 is preferably a second servo cylinder. The cylinder body of the second servo electric cylinder is fixedly connected to the base frame 403, and the outer surface of the piston rod of the second servo electric cylinder is hinged to the hinge point where every two signboard 2 hinges are hinged through a plurality of hinge shafts. By controlling the contraction and expansion of the servo cylinder by the motor, accurate control of the signboard 2 can be achieved. The design of the hinge point allows the sign 2 to have stable movement properties during folding and unfolding.

Specific: in this embodiment, the second servo cylinder serves as a second linear actuator 501 for driving the folding of the signboard 2. The cylinder body of the second servo electric cylinder is fixedly connected to the base frame 403, and the outer surface of the piston rod is connected to the hinge point where each two signboard 2 hinges through a plurality of hinge shafts. When the second servo cylinder is contracted or expanded, the movement of the piston rod will cause the folding or unfolding of the sign 2.

It will be appreciated that in this embodiment: the second servo cylinder in this embodiment has a function of driving the signboard 2 to fold as the second linear actuator 501. Folding and unfolding of the signboard 2 can be achieved by controlling the contraction or expansion of the second servo cylinder. Through the connection of the hinge shafts, the hinge joint of every two signboards 2 forms a stable hinge relation so as to ensure the smooth progress of the folding and unfolding processes. The second servo electric cylinder is adopted as a driving device, so that the folding function of the signboard 2 is realized. By controlling the contraction and expansion of the servo cylinder by the motor, accurate control of the signboard 2 can be achieved. The design of the hinge point allows the sign 2 to have stable movement properties during folding and unfolding. This embodiment provides a convenient folding and unfolding function, so that the signboard 2 can be folded or unfolded rapidly as required to adapt to different use scenes and requirements.

In some embodiments of the present application, please refer to fig. 2-3 in combination: the stretching mechanism 5 further comprises an X-shaped hinge frame 502, one end of the X-shaped hinge frame 502 being hinged to the base frame 403, and the other end of the X-shaped hinge frame 502 being hinged to the end of the outermost signboard 2. The X-shaped hinge frame 502 is similar to an X-shaped hinge frame assembly used for a lifter or an X-shaped hinge frame assembly used for a household clothes hanger, and can be synchronously folded or unfolded along with all the identification plates 2 in a folded or unfolded state, so that the support function is mainly achieved.

In the scheme, the method comprises the following steps: the stretching mechanism 5 further comprises an X-shaped hinge 502. One end of the X-shaped hinge frame 502 is hinged to the base frame 403, and the other end is hinged to the end of the outermost signboard 2. The X-shaped hinge frame 502 is similar to an X-shaped hinge frame assembly used for an elevator or a household clothes hanger, and can be folded or unfolded synchronously along with all the identification plates 2 in a folded or unfolded state, and mainly plays a supporting role.

Specific: the X-shaped hinge mount 502 in this embodiment employs an X-shaped hinge mount assembly similar to an elevator or a household clothes hanger. One end is hinged on the base frame 403 and the other end is hinged on the end of the outermost signboard 2. When the stretching mechanism 5 is contracted or stretched, the X-shaped hinge frame 502 can synchronously follow the folding or unfolding state of the signboard 2, and stable supporting effect is realized.

It will be appreciated that in this embodiment: the X-shaped hinge frame 502 serves primarily as a support as part of the extension mechanism. The hinged design of the X-shaped hinge frame 502 enables it to move synchronously with the folding or unfolding of the sign 2. Like the hinge bracket assembly of an elevator or a household laundry rack, it is capable of achieving stable folded and unfolded states under the control of the stretching mechanism 5. The X-shaped hinge frame 502 plays an important supporting role in achieving folding and unfolding of the signboard 2. It is possible to maintain the stability of the signboard 2 and ensure that the movement of the stretching mechanism 5 is synchronized with the state of the signboard 2. By using the X-shaped hinge frame 502, the entire extension mechanism 5 can be controlled to achieve smooth folding and unfolding of the sign 2, thereby providing more reliable structural support and motion control.

In some embodiments of the present application, please refer to fig. 2-3 in combination: the stretching mechanism 5 further comprises a hydraulic buffer 503, wherein a cylinder body of the hydraulic buffer 503 is hinged on the base frame 403, and a piston rod of the hydraulic buffer 503 abuts against the X-shaped hinge frame 502. Playing a role of buffering.

In the scheme, the method comprises the following steps: the stretching mechanism 5 further includes an oil buffer 503. The cylinder of the hydraulic damper 503 is hinged to the base frame 403, and the piston rod abuts against the X-shaped hinge frame 502. The function of the hydraulic damper 503 is to provide a damping function.

Specific: the hydraulic damper 503 adopts the hydraulic principle, and realizes the damping action by the design of the cylinder body and the piston rod. The cylinder is hinged to the base frame 403 and the piston rod abuts against the X-shaped hinge frame 502. When the stretching mechanism 5 moves to the limit position, the piston rod of the hydraulic buffer 503 will be propped against, so that the movement speed of the stretching mechanism 5 is slowed down by the force of hydraulic buffer, and a stable buffering effect is provided.

It will be appreciated that in this embodiment: the function of the hydraulic damper 503 in this embodiment is to provide a damping function during the movement of the stretching mechanism 5. By the design of the hydraulic buffer 503, when the stretching mechanism 5 moves to the limit position, the piston rod is propped against the X-shaped hinge frame 502, and the movement speed is slowed down by the force of the hydraulic buffer, so that the impact and vibration in the movement process are prevented. The use of the hydraulic damper 503 in the embodiment plays an important role in damping, ensuring smooth movement of the stretching mechanism 5. Through the oil pressure principle, the device can provide deceleration and buffering effects at the tail end of the movement, prevent impact force and vibration caused by sudden stop in the movement process, and improve the reliability and stability of the device.

Summarizing, aiming at the related problems in the prior art, the specific embodiment is based on the three-dimensional regulation type building identification device provided by the above, and the following technical means or characteristics are adopted to realize the solution:

(1) Problem of limited shape and size: the advertising signboard of the conventional art often has a fixed shape and size, and flexible adjustment is difficult to achieve. In the technology provided by the utility model, the folding, unfolding and angle adjustment of the signboard 2 can be realized through the operation of the stretching mechanism 5 and the adjusting mechanism 4. The design enables the shape and the size of the signboard to be adjusted as required, thereby overcoming the limitation in the conventional technology.

(2) Problem of limited presentation surface and information transfer effect: the advertising signboard of the prior art can only display information on one plane, and has limited display surface. In contrast, in the technology provided by the utility model, a plurality of signboards 2 hinged through hinges form a complete signboard assembly. This provides more display surface so that advertising content and information can be displayed in a plurality of upward faces, thereby enhancing the information transfer effect.

(3) Problem of lack of angular adjustment capability: the advertising signboard of the traditional technology is difficult to adjust the angle, and the angle of the signboard cannot be flexibly adjusted according to the viewing angle and the requirement of spectators. In the technology provided by the utility model, the pitching angle and the horizontal rotation angle of the signboard can be adjusted through the functions of the adjusting mechanism 4 and the rotary executing piece 3. Therefore, the angle of the signboard can be flexibly adjusted according to the position and the requirement of the audience, so that advertising content can be better displayed to the audience, and better viewing experience is provided.

The technical features of the above-described embodiments may be combined in any manner, and for brevity, all of the possible combinations of the technical features of the above-described embodiments may not be described, however, they should be considered as the scope of the present description as long as there is no contradiction between the combinations of the technical features.

Claims (9)

1. The utility model provides a three-dimensional regulation and control formula building identification device, includes grudging post (1), and with locate signboard (2) of grudging post (1) outside, its characterized in that: an adjusting mechanism (4) for adjusting the pitching angle of the signboard (2) is arranged on the stand (1);

the adjusting mechanism (4) establishes a connection relation with the signboard (2) through the stretching mechanism (5), and the number of the signboard (2) is at least four and is hinged with each other through hinges; normally, the signboard (2) is unfolded by the stretching mechanism (5); in a non-use state, the signboard (2) is folded back by the stretching mechanism (5);

the sign (2) performs a form exhibiting dynamic changes during folding.

2. The three-dimensional regulating building identification device of claim 1, wherein: the adjusting mechanism (4) comprises a first linear actuator (402) for adjusting the pitching angles of the stretching mechanism (5) and all the signboards (2);

the stretching mechanism (5) is arranged on a base frame (403), one end of the base frame (403) is hinged to a frame (401), and the frame (401) is arranged on the vertical frame (1).

3. The three-dimensional regulating building identification device of claim 2, wherein: the first linear actuator (402) is a first servo electric cylinder, and a cylinder body and a piston rod of the first servo electric cylinder are respectively hinged to one end of the frame (401) and the other end of the base frame (403).

4. The three-dimensional regulating building identification device of claim 2, wherein: the vertical frame (1) is also provided with a rotation executing piece (3) for adjusting the horizontal rotation angle of the adjusting mechanism (4), and the rotation executing piece (3) is in driving connection with the frame (401).

5. The three-dimensional regulating building identification device of claim 4, wherein: the rotary executing piece (3) is a servo motor, and an output shaft of the servo motor is fixedly connected with the frame (401).

6. The three-dimensional regulating building identification device according to any one of claims 2 to 5, wherein: the stretching mechanism (5) comprises a second linear actuator (501) fixedly connected to the base frame (403), and the second linear actuator (501) is used for driving all the identification plates (2) to fold.

7. The three-dimensional regulating building identification device of claim 6, wherein: the second linear actuator (501) is a second servo electric cylinder, and the outer surface of a piston rod of the second servo electric cylinder is hinged to a hinge point where each two signboard (2) hinges through a plurality of hinge shafts.

8. The three-dimensional regulating building identification device of claim 6, wherein: the stretching mechanism (5) further comprises an X-shaped hinge frame (502), one end of the X-shaped hinge frame (502) is hinged to the base frame (403), and the other end of the X-shaped hinge frame (502) is hinged to the end portion of the outermost signboard (2).

9. The three-dimensional regulating building identification device of claim 8, wherein: the stretching mechanism (5) further comprises a hydraulic buffer (503), a cylinder body of the hydraulic buffer (503) is hinged to the base frame (403), and a piston rod of the hydraulic buffer (503) abuts against the X-shaped hinge frame (502).