CN116696404A - Vibrating structure and lining trolley comprising same - Google Patents

Abstract

The application provides a vibrating structure and a lining trolley comprising the same, wherein the vibrating structure comprises a shaping panel, a vibrating panel and a vibrating assembly, a first side of the shaping panel is connected with a main body supporting structure, a second side of the shaping panel is locally connected with the first side of the vibrating panel so that the vibrating panel is attached to the shaping panel and has a vibrating space, the second side of the vibrating panel is contacted with a vibrating object, and the vibrating assembly penetrates through the shaping panel to be connected with the vibrating panel. The lining trolley comprises a template assembly and a trolley framework. According to the application, the vibration working surface is set to be a double-sided structure, and the positions of the working surface except for the rigid connection points can be ensured to vibrate during vibration, and the exciting force reaches the maximum value at the position where the vibrating element is arranged in the middle, so that the whole vibration working surface is vibrated, and the vibration working surface has the characteristics of large vibrating efficiency, wider vibrating range and better mixture forming effect.

Description

Vibrating structure and lining trolley comprising same

Technical Field

The application belongs to the technical field of tunnel lining, and particularly relates to a vibrating structure and a lining trolley comprising the vibrating structure.

Background

In some mix pour molding processes, such as concrete casting, plastic injection molding, sand casting, etc., it is often necessary to agitate or vibrate to remove air bubbles from the mix or to densify the molded structure. The traditional method is to stir the mixture by a tool or vibrate the mixture by a vibrating rod, but in the actual production process, the operation condition is not good, so that the final forming effect is poor. Taking a tunnel secondary lining process as an example, workers put a vibrating rod into poured concrete to vibrate in the secondary lining construction process, but the vibrating rod has the effect that the vibrating rod gradually weakens from a central point to the periphery, and cannot vibrate deeply and widely.

The traditional vibrating mode is plug-in vibrating or stirring by a tool, but the conditions are not met in many fields, the plug-in vibrating mode is weakening around by taking the vibrating tool as the center, and the vibrating range is small; the traditional attached vibrator is arranged on the inner side of a trolley working panel, the panel is connected with a trolley framework, the vibrator transmits exciting force to a vibrating object through the vibrating panel, but the exciting force of the vibrator is transmitted to the trolley framework along with the panel, so that the vibrating force to the vibrating object is weakened, the vibrating object is insufficiently vibrated, namely, the attached vibrator is directly connected with a main structure, and the vibrating force is weakened.

Disclosure of Invention

The application provides a double-layer panel structure and a lining trolley comprising the same, and the lining trolley comprises a shaping panel, a vibrating panel and a vibrating assembly, wherein a first side of the shaping panel is connected with a main body supporting structure, a second side of the shaping panel is partially connected with the first side of the vibrating panel so that the vibrating panel is attached to the shaping panel and has a vibrating space, the second side of the vibrating panel is contacted with a vibrating object, and the vibrating assembly penetrates through the shaping panel to be connected with the vibrating panel.

Optionally, the vibrating panel and the shaping panel are in circumferential rigid connection, and the rest parts are in contact connection.

Optionally, plug welding holes and/or gaps are formed in the periphery of the vibrating panel at intervals, and the shaping panel and the vibrating panel are fixed through spot welding the plug welding holes and/or the gaps.

Optionally, a spacer is further arranged between the vibrating panel and the shaping panel.

Optionally, the spacer is provided as an elastic member or other structural member having an elastic effect.

Optionally, the thickness of the vibrating panel is thinner than the thickness of the shaping panel.

Optionally, a release agent is further coated on the end surface of the vibrating panel, which is used for contacting with the vibrating object.

Optionally, the vibrating component is an attached vibrator or an inserted vibrator;

or, the vibrating component is arranged as a combined structure of an attached vibrator and an inserted vibrator.

The application also provides a lining trolley, which comprises a template assembly and a trolley framework;

the template assembly is arranged on the trolley framework to form a secondary lining outline, and comprises a template framework and the vibrating structure;

the shaping panel is arranged on the template framework, and the vibrating panel is connected to one side, far away from the template framework, of the shaping panel.

Optionally, the template assembly is configured to include a top mold and a side mold that are hinged to each other, and the top mold and the side mold are both provided with a template skeleton and the vibrating structure described above;

or the template assembly is arranged to comprise a top die and a side die which are mutually hinged, wherein the top die is provided with a template framework and the vibrating structure; the side die is provided with a single-layer panel and a vibrating assembly which are connected with each other, the end face, far away from the vibrating assembly, of the single-layer panel is contacted with a vibrating object, and exciting force is transmitted to the vibrating object through the single-layer panel;

or the template assembly is arranged to comprise a top die and a side die which are mutually hinged, the top die is provided with a single-layer panel and a vibrating assembly which are mutually connected, the end face of the single-layer panel, which is far away from the vibrating assembly, is in contact with a vibrating object, and exciting force is transmitted to the vibrating object through the single-layer panel; and the side mold is provided with a template framework and the vibrating structure.

Compared with the prior art, the application has the following beneficial effects:

(1) According to the application, the vibration working surface is set to be a double-sided structure, and the positions of the working surface except for the rigid connection points can be ensured to vibrate during vibration, and the exciting force reaches the maximum value at the position where the vibrating element is arranged in the middle, so that the whole vibration working surface is vibrated, and the vibration working surface has the characteristics of large vibrating efficiency, wider vibrating range and better mixture forming effect.

(2) According to the double-layer panel vibrating type lining trolley provided by the application, the vibrating working surface in the template assembly is set to be a double-layer panel structure comprising the shaping panel and the vibrating panel, and the vibrating element is arranged on the shaping panel but is not contacted with the vibrating panel, so that the exciting force is directly transmitted to a vibrating object through the shaping panel, the exciting force of the vibrating element on the vibrating object reaches the maximum value, and the problems that when the template panel is vibrated, the whole trolley is vibrated by the exciting force of the vibrator through the template due to the fact that the template is connected with the trolley framework, the exciting force of the template on the vibrating object is weakened, the vibrating object structure is not compact, a cavity and a honeycomb twine are generated and the like are solved.

(3) The shaping panel is completely arranged in the vibrating panel, so that the contact surface of the vibrating working surface (namely the shaping panel) and the vibrating object is free from gaps and dislocation, and the forming effect of the vibrating object is ensured.

(4) According to the application, plug welding holes and notches are arranged at corresponding positions around the shaping panel and the vibrating panel for welding and fixing, and the middle part of the vibrating panel is kept in a laminating structure. The template panel can not generate staggered tables due to the double-layer panel, the vibrating panel can be guaranteed to have the maximum degree of freedom, and the vibrating object can be vibrated through the vibrating panel when the vibrator vibrates, so that the best effect is achieved.

(5) According to the application, the vibrating working surfaces in the top die and the side die which are hinged with each other in the template assembly are both arranged to be of a double-layer panel structure; or the vibration working surface arranged on the top die is a double-layer panel, and the vibration working surface arranged on the side die is a single-layer panel; or the vibration working surface arranged on the top die is a single-layer panel, and the vibration working surface arranged on the side die is a double-layer panel; the double-layer panel structure template and the single-layer and double-layer panel mixed template are adopted, so that the double-layer panel can be used for vibrating a key range in a large area, and the single-layer panel can be used for vibrating a local area in a centralized manner by the inserted vibrator. The vibration mode of combining the point and the surface improves the molding quality of the vibration object.

(6) The application sets the vibrating element as an attached vibrator or an inserted vibrator; or the combined structure of the attached vibrator and the inserted vibrator can save the cost of part of the inserted vibrator (the inserted vibrator is the vibration of a point, the scheme is the vibration of a surface), and meanwhile, the vibrator with lower cost can be used (only the vibration of a working surface is needed to be generated, and the requirement on the vibrator is lower under the same requirement); and operators can also be reduced, and each vibrating element is controlled in an electronic control mode.

In addition to the objects, features and advantages described above, the present application has other objects, features and advantages. The present application will be described in further detail with reference to the drawings.

Drawings

The accompanying drawings, which are included to provide a further understanding of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the application. In the drawings:

FIG. 1 is a schematic view of a dual panel vibrating type lining trolley in accordance with an embodiment of the present application;

FIG. 2 is an enlarged partial schematic view of a first structure of the top mold of FIG. 1;

FIG. 3 is an enlarged partial schematic view of a second structure of the top mold of FIG. 1;

FIG. 4 is an enlarged partial schematic view of a third configuration of the top mold of FIG. 1;

fig. 5 is a layout diagram of an attached vibrator and an inserted vibrator combined structure in which a top mold is a double-layer panel and a side mold is a single-layer panel in the embodiment of the present application;

fig. 6 is a schematic diagram of a vibrating structure applied to a girder template according to an embodiment of the present application.

Wherein:

1. the device comprises a template assembly, a trolley framework, a supporting rod assembly, a running mechanism, a shaping panel, a vibrating panel, a vibrator mounting plate, an attached vibrator, a double-layer panel, a single-layer panel, an inserted vibrator, a vibrating plate and a vibrating plate, wherein the template assembly, the trolley framework, the supporting rod assembly, the shaping panel, the vibrating plate and the vibrating plate are sequentially arranged;

01. main body supporting structure, 02, vibrator.

Detailed Description

In order that the above objects, features and advantages of the application will be readily understood, a more particular description of the application will be rendered by reference to specific embodiments thereof which are illustrated in the appended drawings. It should be noted that the drawings of the present application are in simplified form and are not precisely scaled, so as to facilitate the clear and convenient explanation of the implementation of the present application; the application is not limited to the specific numbers mentioned in the examples of the drawings; the directions and positional relationships indicated by the terms "rear", "left", "right", "upper", "lower", "top", "bottom", "middle", etc. in the present application are all based on the directions and positional relationships shown in the drawings of the present application, and do not indicate or imply that the device or component to be referred to must have a specific direction, nor should it be construed as limiting the present application.

Examples:

referring to fig. 1, the vibrating structure provided by the application comprises a shaping panel 5, a vibrating panel 6 and a vibrating assembly, wherein a first side of the shaping panel 5 is connected with the main body supporting structure, a second side of the shaping panel 5 is partially connected with the first side of the vibrating panel 6 so that the vibrating panel 6 is attached to the shaping panel 5 and has a vibrating space, a second side of the vibrating panel 6 is contacted with a vibrating object, and the vibrating assembly penetrates through the shaping panel 5 and is connected with the vibrating panel 6.

Specifically, the vibrating component is set as an attached vibrator 8 or an inserted vibrator 11; alternatively, the vibrating assembly is provided as a combination of an attached vibrator 8 and an inserted vibrator 11.

Specifically, plug welding holes and notches which are formed at equal intervals are formed in the corresponding positions around the shaping panel 5 and the vibrating panel 6, and the shaping panel 5 and the vibrating panel 6 are welded and fixed along the periphery through the plug welding holes and the notches, so that the rigid connection of the vibrating panel 6 and the periphery of the shaping panel 5 is realized, and the other parts are connected in a contact type manner, so that contact points between the vibrating panel 6 and the trolley framework 2 are reduced; meanwhile, the shaping panel 5 and the vibrating panel 6 are welded to each other only along the periphery and other parts are only attached together (i.e. the end surfaces of the shaping panel 5 and the vibrating panel 6 contacting each other are only attached to each other and have no other connection), so that the vibrating panel 6 has the maximum degree of freedom.

Besides the above structure, in order to create a larger agitating space, a spacer is further provided between the shaping panel 5 and the vibrating panel 6, and the spacer is preferably configured as a structural member having an elastic effect (may be specifically configured as a rubber pad, a spring, etc.), so as to increase the amplitude of the vibrating panel 6, and make the vibrating effect better.

In addition to the above structure, in order to secure the releasing effect of the vibrating object, a releasing agent layer is further provided on the end face of the vibrating panel 6 for contact with the vibrating object.

In addition to the above structure, in order to facilitate the deformation of the working surface, the thickness of the vibrating panel 6 is smaller than that of the shaping panel 5.

The application also provides a lining trolley which comprises a template assembly 1, a trolley framework 2, a stay bar assembly 3 and a running mechanism 4; the template assembly 1 is rigidly connected with the trolley framework 2 by bolts; one end of the supporting rod assembly 3 is hinged with the trolley framework 2, the other end of the supporting rod assembly 3 is hinged with the template assembly 1 (namely, a hinge point is arranged between one end of the supporting rod assembly 3 and the trolley framework 2, and a hinge point is arranged between the other end of the supporting rod assembly 3 and the transverse plate assembly 1), so that the supporting rod assembly 3 takes the trolley framework 2 as a bearing point to drive the template assembly 1 to support and recover, and the vertical die and demoulding actions of pouring trolley vibration objects are completed; the trolley framework 2 and the running mechanism 4 are rigidly connected by bolts; the running mechanism 4 is used for displacing the double-deck panel vibrating lining trolley on a working table or the ground. Here, preference is given to: the template assembly 1 is preferably provided to include a top mold and a side mold hinged to each other, wherein the top mold and the side mold are composed of a template framework, a vibrating device and other structural members (specifically, other structures of the top mold and the side mold except the template framework refer to the prior art); the template assembly 1, the trolley framework 2, the stay bar assembly 3 and the running mechanism 4 are mutually connected to form a main body supporting structure.

Referring to fig. 2, the vibrating device includes a shaping panel 5, a vibrating panel 6 and a vibrating assembly, where the shaping panel 5 and the vibrating panel 6 are connected to each other to form a double-layer panel structure, the shaping panel 5 is a main body structure of the template assembly 1, and the shaping panel 5 is connected to the trolley frame 2; the vibrating panel 6 is a working surface of the template assembly 1, and the vibrating panel 6 is used for vibrating object contact;

the shaping panel 5 is provided with mounting holes which are used for being connected with the vibrator mounting plate 7, the attached vibrator 8 is mounted on the vibrator mounting plate 7, the attached vibrator 8 directly vibrates the shaping panel 5 through transmitting exciting force to the shaping panel 5 and is in non-contact with the vibrating panel 6, and therefore exciting force of the attached vibrator 8 to the vibrating object reaches the maximum value.

Optionally, the length dimension and the width dimension of the vibrating panel 6 are smaller than the length dimension and the width dimension of the shaping panel 5, the vibrating panel 6 is provided with a plurality of vibrating panels 6 which are arranged at intervals, the vibrating panels 6 are uniformly arranged along the circumferential direction of the template framework at equal intervals, and after the vibrating panels 6 are respectively connected with the shaping panel 5, gaps and staggered platforms are arranged between the working surfaces of two adjacent templates (namely between the two adjacent vibrating panels 6) of the vibrating lining trolley with the double-layer panel;

the vibrator mounting plate 7 and the attached vibrator 8 are provided with a plurality of groups which are arranged in one-to-one correspondence with the vibrating panels 6.

Optionally, the vibrator mounting plate 7 is welded in the middle of the framework (specifically, the vibrator mounting plate 7 is preferably set to include a first riser, a diaphragm and a second riser that are sequentially connected, the first riser and the second riser are respectively disposed between two adjacent molded panels 5 and fixedly connected with the vibrating panel 6, the attached vibrator 8 is mounted on the diaphragm), and the attached vibrator 8 is mounted so that the vibrating panel 6 generates the largest possible amplitude and acceleration, and the vibrator is vibrated.

Alternatively, since there is no rigid connection in the longitudinal direction between two adjacent vibrating panels 6, the exciting force of the single-piece attached vibrator 8 cannot be transmitted to the adjacent vibrating panels 6, and the vibrating panels 6 without vibration cannot vibrate the vibrating object, so that the forming quality of the vibrating object at the corresponding position is relatively poor. Based on the above, the vibrator mounting plate 7 is welded at the middle position inside two adjacent vibrator panels 6 arranged along the longitudinal direction of the template framework, and the attached vibrator 8 is arranged on the vibrator mounting plate 7, so that each vibrator panel 6 is ensured to have a vibration source, and the forming quality of the vibrator at different positions is ensured.

Alternatively, whether the top mold or the side mold, the attached vibrator 8 is connected only to the vibrating panel 6 and has no connection point with the carriage frame 2, so that the acting force of the attached vibrator 8 on the carriage frame 2 is small.

In addition to the above-described structure, referring to fig. 3, the double-deck panel vibrating type lining trolley may be provided with: the top mold is a double-layer panel and the side mold is a single-layer panel (see fig. 5), or the top mold is a single-layer panel and the side mold is a double-layer panel; the end of the single-layer panel 10 is bonded to the end of the vibrating panel in the double-layer panel 9 (the end of the single-layer panel 10 is not in contact with the molded panel).

In addition to the above-described structure, referring to fig. 4, the vibrating manner in the double-deck panel vibrating type lining trolley may be set as follows, in addition to attaching the attaching vibrator 8 to the vibrating panel of the double-deck panel: the combination of the attachment vibrator 8 and the insertion vibrator 11 is mounted on the single-layer panel 10. The attached vibrator 8 on the single-layer panel 10 performs range vibration (for example, the side mold is single-layer, because the side mold is mainly connected with the trolley frame 2 in a hinged manner through the stay bar assembly, the side mold has large vibration freedom degree, and therefore the effect is only slightly weaker than that of a double-layer panel structure), and the inserted vibrator 11 can perform concentrated vibration on a local part.

Alternatively, the method for installing the insert vibrator 11 on the single-layer panel 10 is specifically as follows:

the single-layer panel 10 is provided with an installation hole position of the inserted vibrator 11, and a vibrating rod of the inserted vibrator 11 extends into a vibrating object to vibrate, and is retracted into the device after the work is finished.

As a further embodiment of the present application, the method for vibrating a double-deck panel vibrating type lining trolley is specifically as follows:

the vibrating element (the vibrating element is any one of the attached vibrator 8 and the inserted vibrator 11 or the combined structure of the attached vibrator 8 and the inserted vibrator 11) vibrates the vibrating object (mixture, such as concrete) through the vibrating working surface (the vibrating working surface is the vibrating panel 6), and the vibrating force reaches the maximum value at the position where the vibrating element is arranged in the middle. Therefore, the contact range of the vibrating object and the working surface can be vibrated, and the phenomenon that vibration is incomplete due to one-point vibration is avoided.

As a further embodiment of the present application, referring to fig. 6, the vibrating structure provided by the present application may also be applied to a girder template, and specifically, the connecting manner of the vibrating structure applied to the girder template is as follows: the shaping panel 5 and the vibrating panel 6 are connected with each other to form a double-layer panel structure, and the shaping panel 5 is connected with the main body supporting structure 01; the vibrating panel 6 is in contact with the vibrating object 02; a vibrator (attached vibrator 8 or insert vibrator 11) is connected to the vibrating panel 6 to transmit exciting force into the vibrating object 02 through the vibrating panel 6. Here, preference is given to: the connection relationship between the vibrating structure applied to the box girder formwork and other structures in the box girder formwork refers to the prior art.

The above description is only of the preferred embodiments of the present application and is not intended to limit the present application, but various modifications and variations can be made to the present application by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a vibrating structure, locates on the main part bearing structure, its characterized in that includes shaping panel, vibrating panel and vibrating subassembly, shaping panel's first side is connected with main part bearing structure, shaping panel's second side is connected with vibrating panel's first side part so that vibrating panel laminating shaping panel and have the space of vibrating, vibrating panel's second side and vibrating thing contact, vibrating subassembly passes shaping panel with vibrating panel connects.

2. The vibrating structure of claim 1, wherein the vibrating panel and the shaping panel are rigidly connected in a circumferential direction and the remaining portions are connected in a contact manner.

3. The vibrating structure according to claim 2, wherein plug welding holes and/or notches are formed in the periphery of the vibrating panel at intervals, and the molded panel and the vibrating panel are fixed by spot welding the plug welding holes and/or notches.

4. The vibrating structure of claim 1, wherein a spacer is further provided between the vibrating panel and the shaping panel.

5. The vibrating structure of claim 4, wherein the spacer is provided as an elastic member or other structure having an elastic effect.

6. The vibrating structure of any of claims 1-5, wherein the thickness of the vibrating panel is thinner than the thickness of the shaped panel.

7. The vibrating structure according to any one of claims 1 to 5, wherein a releasing agent is further coated on an end surface of the vibrating panel for contacting the vibrating object.

8. The double-deck panel vibrating type lining trolley according to claim 7, wherein the vibrating assembly is provided as an attached vibrator (8) or an inserted vibrator (11);

or the vibrating component is arranged as a combined structure of an attached vibrator (8) and an inserted vibrator (11).

9. The lining trolley is characterized by comprising a template assembly (1) and a trolley framework (2);

the template assembly (1) is arranged on the trolley framework (2) to form a secondary lining outline, and the template assembly (1) comprises a template framework and the vibrating structure as claimed in claim 1;

the shaping panel is arranged on the template framework, and the vibrating panel is connected to one side, far away from the template framework, of the shaping panel.

10. A lining trolley according to claim 9, characterized in that the formwork assembly (1) is arranged to comprise a top and a side formwork hinged to each other, on which both the formwork framework and the vibrating structure according to claim 1 are arranged;

alternatively, the template assembly (1) is provided with a top die and a side die which are hinged with each other, and a template framework and the vibrating structure as claimed in claim 1 are arranged on the top die; the side die is provided with a single-layer panel and a vibrating assembly which are connected with each other, the end face, far away from the vibrating assembly, of the single-layer panel is contacted with a vibrating object, and exciting force is transmitted to the vibrating object through the single-layer panel;

or the template assembly (1) is arranged to comprise a top die and a side die which are mutually hinged, the top die is provided with a single-layer panel and a vibrating assembly which are mutually connected, the end face of the single-layer panel, which is far away from the vibrating assembly, is in contact with a vibrating object, and exciting force is transmitted to the vibrating object through the single-layer panel; a template skeleton is provided on the side mold, and the vibrating structure according to claim 1 is provided.