CN109353957B - Equipment device of taking one's place - Google Patents

Abstract

The invention discloses a device for positioning equipment, which comprises a plurality of groups of movable bearing modules, wherein all bearing modules bear the equipment together, two adjacent groups of bearing modules are detachably connected through a telescopic connecting frame, one side of each bearing module, which is close to the other group of bearing modules, is hinged with one end of a sliding plate, the other end of the sliding plate is inserted into the other group of bearing modules, when the two adjacent groups of bearing modules are separated, the bearing modules drive the hinged sliding plates to slide out of the other group of bearing modules, and the equipment slides on the sliding plates; as the adjacent sets of carrier modules continue to separate, the equipment slides off the sled and falls onto the in-situ location. The equipment in-place device is simple in structure and convenient to operate, and can effectively transfer equipment to a mounting position.

Description

Equipment device of taking one's place

Technical Field

The invention relates to the technical field of equipment installation, in particular to an equipment in-place device.

Background

When the equipment is installed in place, the equipment is generally installed in place through mechanical hoisting, when the equipment is installed in some narrow spaces, a crane boom is difficult to or cannot reach the place in place, at the moment, the equipment can be moved and positioned only through a mode of assisting a tool by manpower, a large amount of manpower and tools are required, the installation difficulty is high, and the safety risk is high.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the equipment in-place device which is simple in structure, convenient to operate and capable of effectively transferring equipment to an installation position.

The technical scheme adopted by the invention for solving the technical problems is as follows:

a device for positioning equipment comprises a plurality of movable bearing modules, wherein all bearing modules bear the equipment together, two adjacent groups of bearing modules are detachably connected through a telescopic connecting frame, one side of the bearing module, which is close to the other group of bearing modules, is hinged with one end of a sliding plate, the other end of the sliding plate is inserted into the other group of bearing modules, when the two adjacent groups of bearing modules are separated, the bearing modules drive the hinged sliding plate to slide out of the other group of bearing modules, and the equipment slides down on the sliding plate; as the adjacent sets of carrier modules continue to separate, the equipment slides off the sled and falls onto the in-situ location.

As an improvement of the above technical solution, the carrying modules are provided with four groups, the four groups of carrying modules are all connected end to end through the connecting frame, and the sliding plates hinged to the carrying modules are all correspondingly inserted into the other group of carrying modules at the same side.

As the improvement of the technical scheme, the bearing module comprises a bearing plate, a roller wheel which can be installed on the bearing plate in a rolling mode and a rest support used for placing the other end of the upper sliding plate of the adjacent bearing module, and the rest support is arranged at the bottom of the bearing plate.

As an improvement of the technical scheme, the bearing plate is provided with a plurality of slotted holes, the rollers are rotatably arranged on the side walls of the slotted holes through rotating shafts, and the diameter of each roller is larger than the thickness of the bearing plate.

As an improvement of the technical scheme, the rest support is a U-shaped frame, two ends of the rest support are connected to the bottom of the bearing plate respectively, and the bending portion of the rest support is used for bearing one end of the sliding plate.

As the improvement of the technical scheme, the one end of slide articulates the bottom at the loading board, the loading board is located and has seted up the notch on the side edge with slide articulated, it has the wedge board to articulate in the notch, the wedge board can pass through the upper surface of loading board to the upper surface of slide gradually.

As an improvement of the technical scheme, the connecting frame comprises a connecting sleeve and a connecting rod which are arranged at the bottom of the bearing module, one end of the connecting rod is connected to the bearing module, and the other end of the connecting rod is movably inserted into the connecting sleeve corresponding to the bottom of the adjacent bearing module.

As an improvement of the technical scheme, the side wall of the connecting sleeve is provided with a limiting groove, and one end of the connecting rod, corresponding to the connecting sleeve, is detachably provided with a limiting column used for matching with the limiting groove.

As an improvement of the above technical scheme, the bottom of the bearing module is provided with a telescopic elastic wheel, the elastic wheel comprises a roller and an elastic seat, the roller is rotatably mounted on the elastic seat, the elastic seat is provided with a shear frame, and the upper end of the shear frame is hinged to the bottom of the bearing module.

As an improvement of the above technical scheme, the load-bearing module is provided with a retractable push-pull rod, the push-pull rod comprises two groups of L-shaped round rods and a sleeve, and the two groups of L-shaped round rods are respectively movably inserted at two ends of the sleeve to form a U-shaped structure.

The invention has the following beneficial effects:

the equipment in-place device is characterized in that a plurality of bearing modules are spliced with each other to form a platform, and equipment is borne by the platform, wherein two adjacent groups of bearing modules are detachably connected through a telescopic connecting frame, so that the platform is convenient to disassemble and assemble, in addition, the bearing modules are movably connected with another group of bearing modules through sliding plates, the bearing modules drive the hinged sliding plates to slide out of the other group of bearing modules when the two adjacent groups of bearing modules are separated, and the equipment on the bearing modules can slide on the sliding plates; when two adjacent groups of bearing modules are continuously separated, the equipment slides down on the position in place through the sliding plate, the sliding process is stable and reliable, external hoisting equipment is not needed in the process for hoisting, the bearing modules are only needed to be separated from each other, the equipment jointly borne by the bearing modules can be transferred to the position to be in place, and the equipment is simple, convenient and high in safety.

Drawings

The invention is further described with reference to the following detailed description of embodiments and drawings, in which:

FIG. 1 is a first schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a second schematic structural diagram of an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a carrier module according to an embodiment of the present invention;

FIG. 4 is a schematic view of the structure of a slide board according to an embodiment of the present invention;

FIG. 5 is a schematic structural view of a connecting frame according to an embodiment of the present invention;

fig. 6 is a schematic structural diagram of an elastic wheel in an embodiment of the invention.

Detailed Description

Referring to fig. 1 to 6, the device for positioning equipment of the present invention includes a plurality of movable sets of carrier modules 1, all the carrier modules 1 carry the equipment together, two adjacent sets of carrier modules 1 are detachably connected by a telescopic connection frame 2, one side of the carrier module 1 close to another set of carrier module 1 is hinged to one end of a sliding plate 3, the other end of the sliding plate 3 is inserted into another set of carrier module 1, when two adjacent sets of carrier modules 1 are separated, the carrier module 1 drives the hinged sliding plate 3 to slide out of another set of carrier module 1, and the equipment slides down on the sliding plate 3; as the adjacent two sets of carrier modules 1 continue to separate, the equipment slides off the sled 3 and falls onto the in-situ point.

The bearing modules 1 are provided with four groups, the four groups of bearing modules 1 are all connected end to end through the connecting frame 2, and the sliding plates 3 hinged to the bearing modules 1 are all correspondingly inserted into the other group of bearing modules 1 on the same side. When the four groups of bearing modules 1 are used, the corresponding bearing modules 1 respectively move reversely in four directions, so that the separation effect is achieved. In addition, the number of the carrier modules 1 disclosed in the present application may also be two or three, and the specific use manner is the same as that of four sets, and the number of the carrier modules 1 disclosed in the present application may also be more than four sets, and the present application is not described in detail herein. The present application will be described in detail with four sets of carrier modules 1 spliced together.

Referring to fig. 1, 3 and 4, the bearing module 1 includes a bearing plate 11, a roller 12 rotatably mounted on the bearing plate 11, and a resting support 13 for placing the other end of the sliding plate 3 on the adjacent bearing module 1, wherein the resting support 13 is disposed at the bottom of the bearing plate 11. Wherein, rest support 13 is U type frame, the bottom at loading board 11 is connected respectively at rest support 13's both ends, rest support 13's flexion is used for bearing the one end that adjacent bearing module 1 corresponds slide 3, promptly, the other end cartridge of the slide 3 that corresponds among four groups bearing module 1 is on the rest support 13 on corresponding one side bearing module 1, slide 3 is movable cartridge in rest support 13, has made things convenient for assembling. Wherein for simple and convenient dismouting, all only set up a set of slide 3 on every group carrier module 1 in this application, this application is only in the platform that four groups carrier module 1 constitute, and the central line of optional one platform of constituteing carries out the symmetry and sets up slide 3, and the slide 3 in a set of carrier module 1 of central line both sides do not cartridge on the rest support 13 of another group carrier module 1 relatively. Therefore, under the condition that the space is limited, the four groups of bearing modules 1 can be detached from the platform only along the direction of one central line, and equipment on the platform can be conveniently unloaded.

In addition, referring to fig. 3, the carrying plate 11 is provided with a plurality of slots 14, the rollers 12 are rotatably mounted on the side walls of the slots 14 through the rotating shafts 15, and the diameter of the rollers 12 is larger than the thickness of the carrying plate 11, so that the device can easily slide on the carrying plate 11, and the trouble of dismounting the carrying module 1 is reduced.

Referring to fig. 1, 2 and 4, one end of the sliding plate 3 is hinged to the bottom of the bearing plate 11, wherein a mounting seat is arranged on the bottom of the bearing plate 11, and one end of the sliding plate 3 is hinged to the mounting seat. In this embodiment the skillet 3 is a wedge-shaped plate, which facilitates the withdrawal of the skillet 3 from between the equipment and the point of deployment when the equipment is in place. Notch 16 has been seted up on the loading board 11 is located the side edge articulated with slide 3, it has wedge plate 17 to articulate in the notch 16, wedge plate 17 can pass through the upper surface of loading board 11 to the upper surface of slide 3 gradually. The design of the notch 16 is to make the wedge plate 17 smoothly connected with the upper surface of the carrying plate 11, which facilitates the transfer of the equipment. The thick one end of wedge 17 in this application is articulated with loading board 11, and thin one end can be taken on slide 3, makes things convenient for the transition of equipment when shifting.

Referring to fig. 2 and 5, the connecting frame 2 includes a connecting sleeve 21 mounted at the bottom of the bearing module 1 and a connecting rod 22, one end of the connecting rod 22 is connected to the bearing module 1, and the other end is movably inserted into the connecting sleeve 21 corresponding to the bottom of the adjacent bearing module 1. Because this embodiment adopts four groups of bearing module 1, so adapter sleeve 21 and connecting rod 22 in the same group are set up perpendicularly, and the connecting frame 2 among four groups of bearing module 1 carries out end to end and forms a telescopic four frames like this, conveniently tears open and changes.

Wherein, in order to prevent the four-frame separation in the time of shifting equipment, this application has seted up spacing groove 23 on the lateral wall of adapter sleeve 21, connecting rod 22 corresponds one of adapter sleeve 21 and serves detachably and be equipped with the spacing post 24 that is used for cooperating spacing groove 23, utilizes the cooperation of spacing groove 23 and spacing post 24 to lock whole four-frame, can effectively avoid the landing of equipment. The limiting columns 24 are detachable structures, when the whole platform is completely detached, all the limiting columns 24 are detached, and the four groups of bearing modules 1 can be separated from each other.

Referring to fig. 6, the bottom of the carrier module 1 is provided with a retractable elastic wheel 4, the elastic wheel 4 comprises a roller 41 and an elastic seat 42, the roller 41 is rotatably mounted on the elastic seat 42, the elastic seat 42 is provided with a shear frame 43, and the upper end of the shear frame 43 is hinged with the bottom of the carrier module 1. Utilize shear frame 43 can adjust the height that bears module 1, conveniently reach whole assembly platform intercommunication equipment to the point of taking one's place top, install equipment.

In addition, referring to fig. 1 and 2, a retractable push-pull rod 5 is disposed on the carrier module 1, the push-pull rod 5 includes two sets of L-shaped round rods 51 and a sleeve 52, and the two sets of L-shaped round rods 51 are respectively movably inserted into two ends of the sleeve 52 and form a U-shaped structure. Wherein interior a set of L type pole 51 is installed respectively on the corresponding bearing module 1, connects through sleeve 52, because adjacent two sets of L type pole 51 are the activity suit in sleeve 52, so adjacent two sets of bearing module 1 when the separation, L type pole 51 also can separate, conveniently carries out the dismouting.

The operation principle of the positioning device is as follows: during assembly, the equipment can be assembled by installing the mode, and the application mainly explains how to unload the equipment above the positioning point by operating the whole device. Firstly, the platform assembled by all the bearing modules 1 and the equipment are transferred to the position-in-place point or the position-in-place seat, the whole platform can cross the position-in-place point or the position-in-place seat by adjusting the height of the elastic wheels 4, after the platform is transported to the position-in-place point, an operator adjusts the position of the equipment on the platform, after the position is proper, the operator removes all the limiting columns 24, and at the moment, all the bearing modules 1 can be removed. Since the four bearing modules 1 are adopted in the embodiment, the four bearing modules 1 respectively move outwards or move in opposite directions along the diagonal line of the platform, the bearing modules 1 can drive the hinged sliding plates 3 to be drawn out from the adjacent rest supports 13, when all the sliding plates 3 are drawn out from the rest supports 13, the non-hinged ends of the sliding plates 3 can be put on the in-place points or in-place seats, the weight of the equipment can be gradually transferred on all the sliding plates 3, all the bearing modules 1 continue to move outwards at the moment, the sliding plates 3 are gradually drawn out from the equipment and the in-place points or in-place seats until the sliding plates are completely drawn out, and at the moment, the equipment is transferred in place, and the in-place work is completed. In this embodiment, considering that it is not enough to pull out all the carrying modules 1 in four directions in a narrow space, the carrying modules can be pulled out along the pulling-out direction of the sliding plate 3, that is, only along the center line direction of the platform without the sliding plate 3. In the drawing-off process, due to the effect of the wedge-shaped plate 17, when the equipment is transferred from the bearing plate 11 to the sliding plate 3, the transferring process is stable and reliable.

The equipment in-place device is characterized in that a plurality of bearing modules 1 are spliced with one another to form a platform, and equipment is borne by the platform, wherein two adjacent groups of bearing modules 1 are detachably connected through a telescopic connecting frame 2, so that the platform is convenient to disassemble and assemble, in addition, the bearing modules 1 are movably connected with another group of bearing modules 1 through sliding plates 3, the bearing modules 1 drive the hinged sliding plates 3 to slide out of the other group of bearing modules 1 when the two adjacent groups of bearing modules 1 are separated, and the equipment on the bearing modules 1 can slide on the sliding plates 3; when two adjacent groups of bearing modules 1 continue to be separated, the equipment slides on the position in place through the sliding plate 3, the sliding process is stable and reliable, the process does not need external hoisting equipment for hoisting, the bearing modules 1 are separated from each other, the equipment jointly borne by the bearing modules 1 can be transferred to the position to be in place, and the device is simple, convenient and high in safety.

The above description is only a preferred embodiment of the present invention, but the present invention is not limited to the above embodiments, and the present invention shall fall within the protection scope of the present invention as long as the technical effects of the present invention are achieved by any similar or identical means.

Claims (10)

1. An equipment in-place device, characterized by: the device comprises a plurality of movable bearing modules (1), all bearing modules (1) bear equipment together, two adjacent groups of bearing modules (1) are detachably connected through a telescopic connecting frame (2), one side of each bearing module (1), which is close to the other bearing module (1), is hinged with one end of a sliding plate (3), the other end of each sliding plate (3) is inserted into the other bearing module (1), when the two adjacent groups of bearing modules (1) are separated, the bearing modules (1) drive the hinged sliding plates (3) to slide out of the other bearing module (1), and the equipment slides down on the sliding plates (3); when the adjacent two groups of bearing modules (1) continue to separate, the equipment slides away from the sliding plate (3) and falls on the on-site.

2. An equipment in-place device according to claim 1, wherein: the bearing modules (1) are provided with four groups, the four groups of bearing modules (1) are all connected end to end through the connecting frame (2), and the sliding plates (3) hinged to the bearing modules (1) are all correspondingly inserted into the other group of bearing modules (1) on the same side.

3. A device-in-place arrangement according to claim 1 or 2, wherein: the bearing module (1) comprises a bearing plate (11), a roller (12) which can be installed on the bearing plate (11) in a rolling mode and a rest support (13) which is used for placing the other end of the upper sliding plate (3) of the adjacent bearing module (1), wherein the rest support (13) is arranged at the bottom of the bearing plate (11).

4. A device-in-place arrangement according to claim 3, wherein: the bearing plate (11) is provided with a plurality of slotted holes (14), the rollers (12) are rotatably arranged on the side walls of the slotted holes (14) through rotating shafts (15), and the diameters of the rollers (12) are larger than the thickness of the bearing plate (11).

5. A device-in-place arrangement according to claim 3, wherein: the rest support (13) is a U-shaped frame, two ends of the rest support (13) are connected to the bottom of the bearing plate (11) respectively, and the bent portion of the rest support (13) is used for bearing one end of the sliding plate (3).

6. A device-in-place arrangement according to claim 3, wherein: the one end of slide (3) articulates the bottom at loading board (11), notch (16) have been seted up on loading board (11) lie in with slide (3) articulated side edge, it has wedge plate (17) to articulate in notch (16), wedge plate (17) can pass through the upper surface of loading board (11) to the upper surface of slide (3) gradually.

7. A device-in-place arrangement according to claim 1 or 2, wherein: the connecting frame (2) comprises a connecting sleeve (21) and a connecting rod (22) which are arranged at the bottom of the bearing module (1), one end of the connecting rod (22) is connected to the bearing module (1), and the other end of the connecting rod is movably inserted into the connecting sleeve (21) corresponding to the bottom of the adjacent bearing module (1).

8. An equipment in-place device according to claim 7, wherein: the side wall of the connecting sleeve (21) is provided with a limiting groove (23), and one end of the connecting rod (22) corresponding to the connecting sleeve (21) is detachably provided with a limiting column (24) used for being matched with the limiting groove (23).

9. An equipment in-place device according to claim 1, wherein: the bottom of bearing module (1) is equipped with telescopic elastic wheel (4), elastic wheel (4) are including gyro wheel (41) and elastic seat (42), gyro wheel (41) rotatable the installation on elastic seat (42), elastic seat (42) are equipped with shear frame (43), the upper end of shear frame (43) is articulated with the bottom of bearing module (1).

10. An equipment in-place device according to claim 1, wherein: the bearing module (1) is provided with a telescopic push-pull rod (5), the push-pull rod (5) comprises two groups of L-shaped round rods (51) and a sleeve (52), and the two groups of L-shaped round rods (51) are respectively movably inserted at two ends of the sleeve (52) to form a U-shaped structure.

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