CN216852611U - Auxiliary mounting mechanism for box - Google Patents

Abstract

The application discloses an auxiliary mounting mechanism for a box body, which comprises a ground infrastructure module, a fixed limiting mechanism and a movable limiting mechanism; the fixed limiting mechanism and the movable limiting mechanism are respectively detachably connected at two opposite angles of the ground infrastructure module and are oppositely arranged; the fixed limiting mechanism is a fixed right-angle V-shaped plate; the movable limiting mechanism comprises a movable right-angle V-shaped plate and a moving mechanism, the moving mechanism drives the movable right-angle V-shaped plate to move towards the fixed limiting mechanism, and the moving route of the movable right-angle V-shaped plate moves along a diagonal connecting line where the movable right-angle V-shaped plate and the fixed limiting mechanism are located. The application provides a technical scheme can solve the box installation inefficiency, the inconvenient problem of operation.

Description

Auxiliary mounting mechanism for box

Technical Field

The application relates to the field of data center container installation, in particular to an auxiliary installation mechanism for a box body.

Background

The container data center is an important product in a data center product family, is used for supplementing the requirement of rapid deployment, and is the first choice of rapid online business, outdoor deployment and field application.

At present, to the mode of container location installation construction, adopt four hole sites of the bottom surface of container body simultaneously with four positioning mechanism simultaneous contact location on the ground capital construction, in the operation process, because the cooperation circumstances between unable direct observation positioning mechanism and the hole site, consequently need adjust many times, also need have high control precision to positioning mechanism and hole site, the operation degree of difficulty is big, inefficiency.

In addition, most of the existing positioning mechanisms are integrally formed by casting parts, so that the manufacturing cost is high and the adjustment cannot be realized.

Therefore, in order to deliver a data center container quickly and easily, an auxiliary mounting mechanism for a box body is needed to solve the above problems.

Disclosure of Invention

The utility model provides an aim at provides a box is with supplementary installation mechanism can solve box installation inefficiency, the inconvenient problem of operation.

In order to achieve the above object, one aspect of the present application provides an auxiliary mounting mechanism for a box, including a ground infrastructure module, a fixed limiting mechanism and a movable limiting mechanism;

the fixed limiting mechanism and the movable limiting mechanism are respectively detachably connected at two opposite angles of the ground infrastructure module and are oppositely arranged;

the fixed limiting mechanism is a fixed right-angle V-shaped plate; the movable limiting mechanism comprises a movable right-angle V-shaped plate and a moving mechanism, the moving mechanism drives the movable right-angle V-shaped plate to move towards the fixed limiting mechanism, and the moving route of the movable right-angle V-shaped plate moves along a diagonal connecting line where the movable right-angle V-shaped plate and the fixed limiting mechanism are located.

As a further improvement of the above technical solution: the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate are respectively provided with a plurality of rollers arranged at intervals on one side close to the ground infrastructure module, and the axes of the rollers are perpendicular to the ground infrastructure module.

As a further improvement of the above technical solution: the two ends of one side, close to the ground infrastructure module, of the fixed right-angle V-shaped plate and the two ends of one side, close to the movable right-angle V-shaped plate, of the ground infrastructure module are respectively provided with a first fillet.

As a further improvement of the above technical solution: the movable limiting mechanism further comprises a connecting plate, and the connecting plate is detachably connected to one pair of corners of the ground infrastructure module; the movable right-angle V-shaped plate is connected to the sliding rail in a sliding mode, the moving mechanism is fixed to the connecting plate, and the moving end of the moving mechanism is connected with the movable right-angle V-shaped plate.

As a further improvement of the technical scheme: two diagonal angles of the ground capital construction module are respectively provided with a threaded hole, and the connecting plate and the fixed right-angle V-shaped plate are respectively connected with the corresponding threaded holes through screws.

As a further improvement of the above technical solution: the box body is provided with a box body bottom, a positioning mechanism and a positioning hole;

the positioning mechanism is connected to the top surface of the ground infrastructure module and is arranged corresponding to the positioning hole; the top surfaces of the fixed limiting mechanism and the movable limiting mechanism are higher than the top surface of the positioning mechanism.

As a further improvement of the technical scheme: the locating hole is a rectangular hole, the locating mechanism is a cross member, and the cross member is matched with the inner side face of the rectangular hole.

As a further improvement of the above technical solution: four ends of the top surface of the cross member are provided with chamfers, and a second fillet is arranged at the inlet of the rectangular hole.

As a further improvement of the above technical solution: the positioning holes and the positioning mechanisms are four in number, the four positioning holes are located at four corners of the bottom surface of the box body respectively, and the four positioning mechanisms are located at four corners of the top surface of the ground infrastructure module respectively.

As a further improvement of the technical scheme: the ground infrastructure module is two supporting base blocks which are arranged in parallel and at intervals; embedded parts are respectively embedded in two ends of the two supporting base blocks; and the four positioning mechanisms are welded with the four embedded parts.

Therefore, according to the technical scheme provided by the application, the fixed limiting mechanism and the movable limiting mechanism can be matched, and the two right-angle V-shaped plates arranged at opposite angles are gradually close to each other, so that the box body is positioned, the working efficiency of positioning and mounting the container is improved, and the operation is simpler; meanwhile, a plurality of rollers which are arranged at intervals are respectively arranged on one sides of the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate, which are close to the ground infrastructure module, so that static friction in contact with the box body is converted into dynamic friction, and the limiting process is simpler and more convenient; simultaneously, adopt two parallel and support basal blocks that the interval set up to support as ground, can effectively place the direct contact on container and ground, realize dampproofing and waterproof effect.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the description of the embodiments are briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without creative efforts.

FIG. 1 is a schematic structural diagram illustrating an auxiliary mounting mechanism for a case according to an embodiment of the present disclosure;

FIG. 2 is a partial block diagram of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 2;

FIG. 4 is an isometric view of the housing in one embodiment provided herein;

FIG. 5 is an isometric view of the movable stop mechanism in one embodiment provided herein;

FIG. 6 is a diagram illustrating a coupling structure between the ground infrastructure module and the positioning mechanism according to an embodiment of the present disclosure;

FIG. 7 is an enlarged view of portion A of FIG. 6;

in the figure: 1. a box body; 11. positioning holes; 111. a second rounded corner; 2. a ground infrastructure module; 21. a threaded hole; 22. embedding parts; 23. supporting the base block; 3. a positioning mechanism; 31. chamfering; 4. fixing a limiting mechanism; 5. a movable limiting mechanism; 51. a movable right-angle V-shaped plate; 52. A moving mechanism; 53. a connecting plate; 531. a slide rail; 6. a drum; 7. a first rounded corner.

Detailed Description

To make the objects, technical solutions and advantages of the present application more clear, embodiments of the present application will be described in further detail below with reference to the accompanying drawings. Terms such as "upper," "above," "lower," "below," "first end," "second end," "one end," "another end," and the like, used herein to denote relative spatial positions, are used for ease of description to describe one element or feature's relationship to another element or feature as illustrated in the figures. The spatially relative positional terms may be intended to encompass different orientations of the device in use or operation in addition to the orientation depicted in the figures. For example, if the device in the figures is turned over, elements described as "below" or "beneath" other elements or features would then be oriented "above" the other elements or features. Thus, the exemplary term "below" can encompass both an orientation of above and below. The device may be otherwise oriented (rotated 90 degrees or at other orientations) and the spatially relative descriptors used herein interpreted accordingly.

Furthermore, the terms "mounted", "disposed", "provided", "connected", "slidably connected", "fixed" and "sleeved" are to be understood in a broad sense. For example, "connected" may be a fixed connection, a detachable connection, or a unitary construction; can be a mechanical connection, or an electrical connection; may be directly connected, or indirectly connected through intervening media, or may be in internal communication between two devices, elements or components. The specific meaning of the above terms in the present application can be understood by those of ordinary skill in the art as appropriate.

At present, to the mode of container location installation construction, adopt four hole sites of the bottom surface of container body simultaneously with four positioning mechanism simultaneous contact location on the ground capital construction, in the operation process, because the cooperation circumstances between unable direct observation positioning mechanism and the hole site, need an operating personnel to lie prone the circumstances of observing positioning mechanism and hole site on the ground, then other operating personnel of commander debug the box, consequently need adjust many times, also need have high accurate nature of control to positioning mechanism and hole site, the operation degree of difficulty is big, low efficiency.

In addition, most of the existing positioning mechanisms are integrally formed by casting parts, so that the manufacturing cost is high and the adjustment cannot be realized.

In the existing implementation mode, the operation is complicated, and the efficiency is influenced; therefore, in order to deliver a data center container quickly and easily, an auxiliary mounting mechanism for a box body is needed to solve the above problems.

The technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings. It should be apparent that the embodiments described in this application are only some embodiments of the present application, and not all embodiments of the present application. All other embodiments, which can be obtained by a person skilled in the art without making any inventive step based on the embodiments in the present application, are within the scope of protection of the present application.

As shown in fig. 1 to 7, in order to improve the efficiency of positioning and installing the container body, an implementation is provided, in which an auxiliary installation mechanism for the container body includes a ground infrastructure module 2, a fixed limit mechanism 4 and a movable limit mechanism 5, wherein the ground infrastructure module 2 is used for supporting the container body, and the fixed limit mechanism 4 and the movable limit mechanism 5 are used for auxiliary limiting when the container body is placed on the ground infrastructure module 2, so that the container body is located at a specified position; fixed stop gear 4 and activity stop gear 5 can dismantle respectively and connect two diagonal departments and relative setting at ground capital construction module 2 to be convenient for used repeatedly and avoid still connecting after using and produce the interference influence to all the other equipment and operation on ground capital construction module 2.

The fixed limiting mechanism 4 is a fixed right-angle V-shaped plate and does not move relative to the ground infrastructure module 2; the movable limiting mechanism 5 comprises a movable right-angle V-shaped plate 51 and a moving mechanism 52, the moving mechanism 52 drives the movable right-angle V-shaped plate 51 to move towards the fixed limiting mechanism 4, and the moving route moves along a connecting line of the diagonal positions where the movable right-angle V-shaped plate 51 and the fixed limiting mechanism 4 are located.

When in use, the fixed limiting mechanism 4 and the movable limiting mechanism 5 are connected at two opposite corners of the ground infrastructure module 2, then the container is hoisted and placed between the fixed limiting mechanism 4 and the movable limiting mechanism 5, and a certain height is kept between the container and the ground infrastructure module 2, at this time, the moving mechanism 52 drives the movable right-angle V-shaped plate 51 to move, the extrusion container moves towards the fixed limiting mechanism 4 (because the container is hoisted by adopting a steel wire rope, the container can be debugged and moved within a certain range) until two included corners of the container are respectively contacted with the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate 51, at this time, the limitation on the container is finished, after the limitation, the container vertically falls along the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate 51, and the positioning and placement between the container and the ground infrastructure module 2 are finished, the fixed and movable limiting mechanisms 4 and 5 are then disassembled.

Preferably, in order to reduce the friction force between the container and the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate 51, so as to achieve a faster and more convenient auxiliary limiting effect, a plurality of rollers 6 arranged at intervals need to be respectively arranged on one sides of the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate 51, which are close to the ground infrastructure module 2, and the axes of the rollers 6 are arranged perpendicular to the ground infrastructure module 2, so that the friction between the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate 51 and the container can be changed into rolling friction through static friction, so as to reduce the friction force; the roller 6 may be a member such as a ball capable of reducing friction.

The two ends of the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate 51 close to one side of the ground infrastructure module 2 are respectively provided with a first fillet 7, so that one corner of the box body can smoothly enter the corresponding V-shaped plate.

Preferably, in order to ensure the integrity and the operation stability of the movable limiting mechanism 5, which are convenient to disassemble and assemble, the movable limiting mechanism 5 should further comprise a connecting plate 53, the connecting plate 53 is detachably connected to a pair of corners of the ground infrastructure module 2, the moving mechanism 52 and the movable right-angle V-shaped plate 51 on the connecting plate 53 are supported by the connecting plate 53 and connected with the bottom infrastructure module 2; in order to make the movable right-angle V-shaped plate 51 run more stably, the connecting plate 53 is provided with a slide rail 531, the movable right-angle V-shaped plate 51 is slidably connected to the slide rail 531 to guide and limit the movement of the movable right-angle V-shaped plate 51, the moving mechanism 52 is fixed on the connecting plate 53, and the moving end of the moving mechanism is connected with the movable right-angle V-shaped plate 51.

Threaded holes 21 are respectively formed in two opposite corners of the ground infrastructure module 2, and the connecting plate 53 and the fixed right-angle V-shaped plate are respectively connected with the corresponding threaded holes 21 through screws, so that the ground infrastructure module is convenient to disassemble; in actual use, the ground infrastructure modules 2 are all formed by casting concrete, so that the threaded holes 21 are formed in the form of embedded threaded pipes.

Because the part of the box body is not positioned by adopting a positioning mechanism but directly welded after being placed on the ground infrastructure module 2, the application file also has two implementation modes for positioning the container by adopting the positioning mechanism;

firstly, a positioning mechanism is not adopted, namely the movable right-angle V-shaped plate 51 and the fixed limiting mechanism 4 are directly adopted on the ground infrastructure module 2 for auxiliary limiting, and then welding is directly carried out;

secondly, the embodiment of the positioning mechanism is adopted, and the positioning mechanism also comprises a positioning mechanism 3 and a positioning hole 11 arranged at the bottom of the box body 1;

the positioning mechanism 3 is connected to the top surface of the ground infrastructure module 2, and the positioning mechanism 3 is arranged corresponding to the positioning hole 11; the top surfaces of the fixed limiting mechanism 4 and the movable limiting mechanism 5 are higher than the top surface of the positioning mechanism 3.

The positioning hole 11 is a rectangular hole, the positioning mechanism 3 is a cross member, and the cross member is matched with the inner side surface of the rectangular hole, so that the X direction and the Y direction are limited, and the box body is positioned; for the cross member, the two plates are spliced and then welded to form the cross member, the manufacturing cost is lower compared with the existing casting part, two corresponding plates can be selected to be spliced and then welded according to the different sizes of the positioning holes 11, and the applicability is higher.

Because, in the process of auxiliary limiting of the movable right-angle V-shaped plate 51 and the fixed limiting mechanism 4, due to assembly precision or other factors, the positioning holes 11 and the positioning mechanisms 3 of the box body 1 have deviation even after auxiliary limiting of the movable right-angle V-shaped plate 51 and the fixed limiting mechanism 4, four ends of the top surface of the cross member are provided with the chamfers 31, and the inlets of the rectangular holes are provided with the second fillets 111, so that existence of the deviation can be allowed and adapted.

In order to ensure the stability of the box after being placed, the number of the positioning holes 11 and the positioning mechanisms 3 is four, the four positioning holes 11 are respectively located at four corners of the bottom surface of the box 1, and the four positioning mechanisms 3 are respectively located at four corners of the top surface of the ground infrastructure module 2.

The ground infrastructure module 2 is composed of two parallel supporting base blocks 23 arranged at intervals, and the two parallel supporting base blocks 23 arranged at intervals are used as ground supports, so that the container can be effectively placed in direct contact with the ground, and the damp-proof and waterproof effects are realized; embedded parts 22 are respectively embedded in two ends of the two supporting base blocks 23; the four positioning mechanisms 3 are welded with the four embedded parts 22, and can be connected in a detachable connection mode.

Therefore, according to the technical scheme provided by the application, the fixed limiting mechanism and the movable limiting mechanism can be matched, and the two right-angle V-shaped plates arranged at opposite angles are gradually close to each other, so that the box body is positioned, the working efficiency of positioning and mounting the container is improved, and the operation is simpler; meanwhile, a plurality of rollers which are arranged at intervals are respectively arranged on one sides of the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate, which are close to the ground infrastructure module, so that static friction in contact with the box body is converted into dynamic friction, and the limiting process is simpler and more convenient; simultaneously, adopt two parallel and support basal blocks that the interval set up to support as ground, can effectively place the direct contact on container and ground, realize dampproofing and waterproof effect.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. An auxiliary mounting mechanism for a box body is characterized by comprising a ground infrastructure module (2), a fixed limiting mechanism (4) and a movable limiting mechanism (5);

the fixed limiting mechanism (4) and the movable limiting mechanism (5) are respectively detachably connected at two opposite angles of the ground infrastructure module (2) and are oppositely arranged;

the fixed limiting mechanism (4) is a fixed right-angle V-shaped plate; the movable limiting mechanism (5) comprises a movable right-angle V-shaped plate (51) and a moving mechanism (52), wherein the moving mechanism (52) drives the movable right-angle V-shaped plate (51) to move towards the fixed limiting mechanism (4), and the moving route of the movable right-angle V-shaped plate moves along a connecting line at the diagonal of the movable right-angle V-shaped plate (51) and the fixed limiting mechanism (4).

2. The auxiliary mounting mechanism for the box body as claimed in claim 1, wherein a plurality of rollers (6) are respectively arranged on one side of the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate (51) close to the ground infrastructure module (2), and the axes of the rollers (6) are perpendicular to the ground infrastructure module (2).

3. The auxiliary mounting mechanism for the box body as claimed in claim 2, wherein the two ends of the fixed right-angle V-shaped plate and the movable right-angle V-shaped plate (51) close to the ground infrastructure module (2) are respectively provided with a first round angle (7).

4. The auxiliary mounting mechanism for the box body as claimed in any one of claims 1 to 3, wherein the movable limiting mechanism (5) further comprises a connecting plate (53), the connecting plate (53) is detachably connected to a pair of corners of the ground infrastructure module (2); the movable right-angle V-shaped plate is characterized in that a sliding rail (531) is arranged on the connecting plate (53), the movable right-angle V-shaped plate (51) is slidably connected onto the sliding rail (531), the moving mechanism (52) is fixed onto the connecting plate (53), and the moving end of the moving mechanism is connected with the movable right-angle V-shaped plate (51).

5. The auxiliary mounting mechanism for the box body as claimed in claim 4, wherein the two opposite corners of the ground infrastructure module (2) are respectively provided with a threaded hole (21), and the connecting plate (53) and the fixed right-angle V-shaped plate are respectively connected with the corresponding threaded holes (21) through screws.

6. The auxiliary mounting mechanism for the box body as claimed in any one of claims 1 to 3, further comprising a positioning mechanism (3) and a positioning hole (11) provided at the bottom of the box body (1);

the positioning mechanism (3) is connected to the top surface of the ground infrastructure module (2), and the positioning mechanism (3) is arranged corresponding to the positioning hole (11); the top surfaces of the fixed limiting mechanism (4) and the movable limiting mechanism (5) are higher than the top surface of the positioning mechanism (3).

7. The auxiliary mounting mechanism for a box body according to claim 6, wherein the positioning hole (11) is a rectangular hole, and the positioning mechanism (3) is a cross member, and the cross member is engaged with an inner side surface of the rectangular hole.

8. The auxiliary mounting mechanism for box body of claim 7, wherein the four ends of the top surface of the cross member are provided with chamfers (31), and the entrance of the rectangular hole is provided with a second round angle (111).

9. The auxiliary mounting mechanism for the box body as claimed in claim 8, wherein the number of the positioning holes (11) and the positioning mechanisms (3) is four, four positioning holes (11) are respectively located at four corners of the bottom surface of the box body (1), and four positioning mechanisms (3) are respectively located at four corners of the top surface of the ground infrastructure module (2).

10. The auxiliary mounting mechanism for the box body according to claim 9, wherein the ground infrastructure module (2) is two parallel and spaced apart supporting base blocks (23); embedded parts (22) are respectively embedded in two ends of the two supporting base blocks (23); the four positioning mechanisms (3) are welded with the four embedded parts (22).

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