CN220389362U - Overturning platform integrating assembly and erection - Google Patents

Abstract

The utility model provides a turnover table integrating assembly and erection, which comprises an underframe, a first bracket and a second bracket, wherein the tail end of the first bracket is hinged to the front part of the underframe; the tail end of the second bracket is hinged to the middle rear part of the underframe, and the first bracket and the second bracket are staggered and crossed; the head of the first bracket and the head of the second bracket are respectively used for supporting and connecting the top and the bottom of the assembled cabinet frame, and the first bracket and the second bracket are respectively provided with a first driving device and a second driving device which are driven to swing independently, wherein the first bracket and the second bracket drive the cabinet to swing and switch between horizontal, inclined and vertical states at different heights under the independent driving of the first driving device and the second driving device.

Description

Overturning platform integrating assembly and erection

Technical Field

The utility model relates to the technical field of installation and assembly mechanisms, in particular to a turnover table integrating assembly and erection.

Background

Along with the continuous development of the electric power industry, the production of clean energy sources such as wind power generation, photovoltaic power generation and the like is still continuously promoted on a large scale in China, and the development of energy storage industry of new energy sources is continuously developed on a large scale, and the high-voltage cabinet body framework and the low-voltage cabinet body framework used in the development of the energy storage industry are mainly standard in size and specification. As for the existing high-voltage and low-voltage cabinets such as HXGN, GGD, GCK, GCS, MNS, BIOKSET and 8PT of the applicant, the standard size specification is not greatly changed. Secondly, the high-low pressure cupboard of present production is because the cabinet body height is 2.2 meters high, surpasses human operating range, and personnel during operation is either bent over or is ascending a height, and is not only hard but also has the potential safety hazard.

In addition, the mounting table assembled by the prior cabinet body has the following problems:

1. the existing mounting table and the overturning table are two components which are separated independently, and the occupied space is large.

2. The existing mounting table is separated from the overturning table, so that the mounted cabinet frame is required to be transferred to the overturning table, and labor pushing is required, so that labor consumption is high.

3. The existing mounting table is designed to be of a certain height, people still need to stand upright and bend down to cross when mounting, and labor intensity of the people is still high.

4. The existing installation table and the overturning table are connected in a pipeline mode, and one installation table occupies one pipeline. If multiple installations are made simultaneously, multiple pipelines are required. The floor area is large, and the investment is high.

5. The traditional overturning platform is pushed by a hydraulic push rod, and is required to be equipped with a hydraulic pump, an electromagnetic valve, a hydraulic pipeline, a pressure regulating valve and other matched equipment, so that the investment is high, the starting noise is high, and the leakage risk is not environment-friendly.

6. When the assembled cabinet frame is turned over, the assembled cabinet frame needs to be manually turned over by hand without fixing measures, such as sudden instability factors, and potential safety hazards exist.

7. The existing assembly line mode is large in occupied area, the placement positions of assembly parts are reduced, and when the assembly is carried out, the material taking path is long in time and low in efficiency.

Therefore, based on the fact that most of the existing cabinet frames are of the same height and dimension specification, only the width and depth are changed, the turnover table integrating assembly and erection is researched, labor intensity is reduced, labor efficiency is improved, and good social benefit and economic benefit can be created for society.

Disclosure of Invention

The utility model aims to overcome the defects of the prior art and provide the overturning platform which integrates assembly and erection, and has the characteristics of small occupied space, simple and convenient operation, low cost and the like.

In order to achieve the above purpose, the utility model provides a turnover table integrated with assembly and erection, which comprises a bottom frame, a first bracket and a second bracket, wherein the tail end of the first bracket is hinged to the front part of the bottom frame; the tail end of the second bracket is hinged to the middle rear part of the underframe, and the first bracket and the second bracket are staggered and crossed; the head of the first bracket and the head of the second bracket are respectively used for supporting and connecting the top and the bottom of the assembled cabinet frame, and the first bracket and the second bracket are respectively provided with a first driving device and a second driving device which are driven to swing independently, wherein the first bracket and the second bracket drive the cabinet to swing and switch between horizontal, inclined and vertical states at different heights under the independent driving of the first driving device and the second driving device.

Further, the first driving device is hinged to the middle position of the underframe, and the telescopic end of the first driving device is hinged to the middle lower position of the first bracket.

Further, the second driving device is hinged to the rear position of the underframe, and the telescopic end of the second driving device is hinged to a swing arm cross beam formed by bending the tail of the second bracket.

Further, the head of the first bracket is provided with at least one pair of fixing clamping pieces which are transversely and oppositely arranged, wherein the fixing clamping pieces are matched with the cabinet body frame in a clamping way.

Further, any one of the fixing clamping pieces can transversely move relative to the first bracket, wherein a guide chute which is used for the fixing clamping piece to be connected in a sliding mode and extends transversely is formed in the head portion of the first bracket.

Further, the head of the first bracket is fixedly provided with a supporting plate for supporting the top end of the cabinet body frame, wherein the outer edge of the supporting plate is bent upwards to form a limiting part for limiting and abutting the top end of the cabinet body frame.

Further, the head fixed mounting of second bracket has the baffle that is used for supporting cabinet body frame bottom, wherein, baffle outward flange upwards buckles and forms supporting part, supporting part is used for lifting and is the cabinet body frame bottom of inclination.

The utility model adopts the scheme, and has the beneficial effects that: 1) The hand sliding seat and the hand supporting seat and the leg sliding seat and the leg supporting seat can be fixedly and vertically connected in a sliding manner so as to adapt to children patients with different ages; 2) The hand sliding seat and the leg sliding seat can be fixedly moved along the sliding way so as to adapt to swing actions of limbs of an infant, so that the crawling training effect is realized, and meanwhile, the hand sliding seat and the leg sliding seat can be correspondingly fixed or unlocked according to training requirements, so that the operation is simple, convenient and quick.

Drawings

Fig. 1 is a schematic view of a flipping table.

Fig. 2 is a top view of the flipping table.

Fig. 3 is a schematic view of the fixing clip.

Fig. 4 is a schematic view of the overturning platform in a horizontal state in which the upper part is mounted.

Fig. 5 is a schematic view of the overturning platform in a horizontal state in which the lower part is mounted.

FIG. 6 is a roll-over table at 30 ⁰ Schematic diagram of the inclined state of the angle.

FIG. 7 shows the flipping table at 60 ⁰ Schematic diagram of the inclined state of the angle.

FIG. 8 shows the flipping table at 90 ⁰ Schematic diagram of the standing state.

The device comprises a 1-underframe, a 2-first bracket, a 3-second bracket, a 4-first driving device, a 5-second driving device, a 6-supporting plate, a 7-baffle plate and an 8-limiting part.

Detailed Description

In order that the utility model may be understood more fully, the utility model will be described with reference to the accompanying drawings. The drawings illustrate preferred embodiments of the utility model. This utility model may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. These embodiments are provided so that this disclosure will be thorough and complete.

Referring to fig. 1-3, in this embodiment, a turnover table integrating assembly and erection comprises a chassis 1, a first bracket 2, a second bracket 3, a first driving device 4 and a second driving device 5, wherein the chassis 1, the first bracket 2 and the second bracket 3 of this embodiment are all provided with a plurality of metal rods which are welded into independent frame structures, and the surface of the turnover table is ensured to be rust-free and wear-resistant by electrostatic powder spraying, and the turnover table is manufactured by sheet metal processing without excessively complex manufacturing process and has low cost.

For convenience of explanation, the present embodiment defines the front and rear positions at both ends of the chassis 1 in the longitudinal direction, respectively.

In this embodiment, the tail end of the first bracket 2 is hinged to the front position of the chassis 1, specifically, two first hinge seats are provided at the front position of the chassis 1, wherein the two first hinge seats are respectively hinged to two sides of the tail end of the first bracket 2 through a preset first rotating shaft, and therefore, the first bracket 2 can perform corresponding overturning actions around the first rotating shaft under the action of external force.

Further, the first carriage 2 is provided with a first driving device 4 for driving it to swing independently, wherein the first driving device 4 is hinged to a middle position of the chassis 1 (specifically, a center position of a middle cross member of the chassis 1), and a telescopic end of the first driving device 4 is hinged to a middle lower position of the first carriage 2 (specifically, a center position of a middle lower cross member of the first carriage 2). Thereby, the first bracket 2 is correspondingly driven to turn up or down around the first rotating shaft along with the telescopic movement of the telescopic end of the first driving device 4; namely: when the telescopic end of the first driving device 4 stretches, the first bracket 2 is driven to turn upwards around the first rotating shaft; conversely, when the telescopic end of the first driving device 4 is retracted, the first bracket 2 is driven to turn down around the first rotating shaft.

In this embodiment, the tail of the second bracket 3 is hinged at the middle-rear position of the chassis 1, specifically, two second hinge seats are provided at the middle-rear position of the chassis 1, wherein the two second hinge seats are respectively hinged with two sides of the tail of the second bracket 3 through a preset second rotating shaft, so that the second bracket 3 can perform corresponding overturning actions on the second rotating shaft under the action of external force.

Further, the second bracket 3 is provided with a second driving device 5 for driving the second bracket 3 to swing independently, wherein the second driving device 5 is hinged at a rear position of the chassis 1 (specifically, a center position of a rear cross beam of the chassis 1), and a telescopic end of the second driving device 5 is hinged with a swing arm cross beam formed by bending a tail of the second bracket 3 (specifically, a center position of the swing arm cross beam). Thereby, the second bracket 3 is correspondingly driven to turn up or down around the second rotating shaft along with the telescopic movement of the telescopic end of the second driving device 5; namely: when the telescopic end of the second driving device 5 stretches, the second bracket 3 is driven to turn upwards around the second rotating shaft; conversely, when the telescopic end of the second driving device 5 is retracted, the first bracket 2 is driven to turn down around the second rotating shaft.

Further, the swing arm beam of the present embodiment is relatively vertically located below the tail end of the second bracket 3.

In the present embodiment, the telescopic stroke of the first driving device 4 is 800mm, and the telescopic stroke of the second driving device 5 is 400mm. Secondly, the first driving device 4 and the second driving device 5 both adopt a push rod structure driven by a worm and gear type motor, and the self-locking function of worm transmission can be utilized to solve the problem that the first bracket 2 and the second bracket 3 cannot easily shift when bearing. The mode is different from the problems that the speed of pushing by the air cylinder is difficult to control and the stroke is difficult to accurately, and the stroke accuracy of hydraulic pushing and the manufacturing cost is high because of matching an oil pump, controlling an electromagnetic valve position and the like. The worm wheel and worm is pushed forward or backward gradually, the stroke is ensured at any time, and the stability is also reliable.

In this embodiment, the first bracket 2 and the second bracket 3 are arranged in a staggered and crossed manner, so that the two brackets can swing independently without interference. Secondly, the head of the first bracket 2 and the head of the second bracket 3 are used to support and connect the top and bottom of the frame of the assembled cabinet, respectively. Specifically, the head of the first bracket 2 is provided with at least one pair of fixing clamping pieces which are transversely and oppositely arranged, wherein the fixing clamping pieces are matched with the cabinet body frame in a clamping manner, namely, the fixing clamping pieces are provided with grooves for accommodating the clamping frames (the upright posts on one side of the cabinet body frame in practice), and after the upright posts on two sides of the cabinet body frame are respectively clamped into the grooves of the pair of fixing clamping pieces, an effective clamping effect is formed, so that the effect of stabilizing the cabinet body frame is achieved.

Further, in order to adapt to the cabinet frames with different width specifications, any one of the fixing clamping pieces of the embodiment can transversely move relative to the first bracket 2, wherein the head of the first bracket 2 is provided with a guide chute for the fixing clamping piece to be connected in a sliding manner and extend transversely, and the fixing clamping piece is connected into the guide chute through a bolt piece with adjustable tightness, so that the fixing clamping piece can relatively move transversely along the guide chute.

In this embodiment, the head of the first bracket 2 is fixedly provided with a supporting plate 6 for supporting the top end of the cabinet frame, the supporting plate 6 is reserved with a sufficient length to adapt to cabinet frames with different length specifications and to adapt to the change of the supporting length of the cabinet frame caused by the overturning action of the first bracket 2 and the second bracket 3, so that the supporting can be kept in contact with the top end of the cabinet frame, and the reserved length can facilitate the movement fine adjustment of the cabinet frame in a horizontal state relative to the overturning table in the front-rear direction. Secondly, the outer edge of the supporting plate 6 is bent upwards to form a limiting part 8 for limiting and abutting the top end of the cabinet frame, so that the cabinet frame is prevented from sliding off one side of the head of the first bracket 2.

In this embodiment, the head of the second bracket 3 is fixedly provided with a baffle 7 for supporting the bottom end of the cabinet frame, the baffle 7 reserves enough length to adapt to cabinet frames with different length specifications and adapt to the change of the supporting length of the cabinet frame caused by the overturning action of the first bracket 2 and the second bracket 3, so that the contact support with the bottom end of the cabinet frame is ensured, and the reserved length can facilitate the movement fine adjustment of the cabinet frame in a horizontal state relative to the overturning table in the front-rear direction. Secondly, the head of the baffle 7 is bent upwards to form a supporting part, and the supporting part is used for lifting the bottom end of the cabinet frame in an inclined state, so that the cabinet frame in an inclined state is prevented from sliding off from one side of the head of the second bracket 3.

In this embodiment, by the independent driving of the first driving device 4 and the second driving device 5, the respective telescopic strokes of the first driving device 4 and the second driving device 5 are correspondingly changed, so that the first bracket 2 and the second bracket 3 drive the cabinet body to swing and switch between the horizontal state, the inclined state and the vertical state at different heights. For ease of understanding, the following is further explained in connection with a specific assembly process.

Before the assembly work, the telescopic ends of the first driving device 4 and the second driving device 5 can be extended to enable the first bracket 2 and the second bracket 3 to swing up to a proper position according to the lifting condition of a workbench and an assembly worker on an assembly site, so that the head of the first bracket 2 and the head of the second bracket 3 are positioned at the same height position. And then the cabinet body frame is horizontally placed on the first bracket 2 and the second bracket 3 (the head of the first bracket 2 is contacted and supported with the top end of the cabinet body frame, and the head of the second bracket 3 is contacted and supported with the bottom end of the cabinet body frame), and then the cabinet body frame is clamped with the two sides of the cabinet body frame through at least one pair of fixing clamping pieces, so that the pre-fixing effect is achieved.

During assembly, the assembly worker correspondingly assembles the wiring elements of the matched electrical components into the cabinet frame in a horizontal state until the assembly operation is completed. In addition, during the assembly, the first driving device 4 and the second driving device 5 can be correspondingly adjusted according to the actual requirement to drive the first bracket 2 and the second bracket 3 to swing up to the proper positions so as to drive the horizontal cabinet frame to rise or fall.

When the assembly is completed, the telescopic end of the first driving device 4 stretches to enable the first bracket 2 to continuously swing upwards, the telescopic end of the second driving device 5 retracts to enable the second bracket 3 to continuously swing downwards, so that the head of the first bracket 2 gradually swings upwards, the head assembly of the second bracket 3 swings downwards, the cabinet frame is enabled to be overturned to an inclined state from a horizontal state assembly, and finally the cabinet frame is overturned to an upright state from the inclined state. In this process, the first driving device 4 and the second driving device 5 can correspondingly adjust the telescopic travel according to actual requirements to adjust the height position of the cabinet frame when the cabinet frame is turned over and switched to the upright state, so that the cabinet frame can be just upright and falls on a workbench with a preset height.

Finally, the assembling worker can unlock the fixing clamp piece and the cabinet body frame, so that the cabinet body frame is separated from the first bracket 2 and the second bracket 3, and the first bracket 2 and the second bracket 3 are driven to reset by the first driving device 4 and the second driving device 5.

In this embodiment, the above-mentioned telescopic travel of the first driving device 4 and the second driving device 5 may be correspondingly controlled by conventional controllers such as a PLC and a single-chip microcomputer, and the controller involves software control of a calculator and its structural principle belongs to conventional technical means, so that no redundant description is given here. In addition, according to the Pythagorean theorem and the actual specification requirements of the first driving device 4 and the second driving device 5, the proportional relation between the telescopic stroke and the overturning angles of the first bracket 2 and the second bracket 3 can be calculated, so that the controller correspondingly controls the telescopic stroke of the first driving device 4 and the telescopic stroke of the second driving device 5 according to the proportional relation.

The above-described embodiments are merely preferred embodiments of the present utility model, and are not intended to limit the present utility model in any way. Any person skilled in the art, using the disclosure above, may make many more possible variations and modifications of the technical solution of the present utility model, or make many more modifications of the equivalent embodiments of the present utility model without departing from the scope of the technical solution of the present utility model. Therefore, all equivalent changes made according to the inventive concept are covered by the protection scope of the utility model without departing from the technical scheme of the utility model.

Claims (7)

1. An overturning platform integrating assembly and erection is characterized in that: the novel lifting device comprises a bottom frame (1), a first bracket (2) and a second bracket (3), wherein the tail end of the first bracket (2) is hinged to the front position of the bottom frame (1); the tail end of the second bracket (3) is hinged to the middle rear part of the underframe (1), and the first bracket (2) and the second bracket (3) are arranged in a staggered and crossed mode; the head of the first bracket (2) and the head of the second bracket (3) are respectively used for supporting and connecting the top and the bottom of an assembled cabinet frame, the first bracket (2) and the second bracket (3) are respectively provided with a first driving device (4) and a second driving device (5) which are used for driving the first bracket and the second bracket to swing independently, and the first bracket (2) and the second bracket (3) are used for driving the cabinet to swing and switch between horizontal, inclined and vertical states at different heights under the independent driving of the first driving device (4) and the second driving device (5).

2. A pallet as defined in claim 1, wherein: the first driving device (4) is hinged to the middle position of the underframe (1), and the telescopic end of the first driving device (4) is hinged to the middle lower position of the first bracket (2).

3. A pallet as defined in claim 1, wherein: the second driving device (5) is hinged to the rear position of the underframe (1), and the telescopic end of the second driving device (5) is hinged to a swing arm cross beam formed by bending the tail of the second bracket (3).

4. A pallet as defined in claim 1, wherein: the head of the first bracket (2) is provided with at least one pair of fixing clamping pieces which are transversely and oppositely arranged, wherein the fixing clamping pieces are matched with the cabinet body frame in a clamping way.

5. A pallet as defined in claim 4, wherein: any one of the fixing clamping pieces can transversely move relative to the first bracket (2), wherein a guide chute which is used for the sliding connection of the fixing clamping pieces and extends transversely is formed in the head of the first bracket (2).

6. A pallet as defined in claim 1, wherein: the head of the first bracket (2) is fixedly provided with a supporting plate (6) for supporting the top end of the cabinet body frame, wherein the outer edge of the supporting plate (6) is bent upwards to form a limiting part (8) for limiting and abutting the top end of the cabinet body frame.

7. A pallet as defined in claim 1, wherein: the head fixed mounting of second bracket (3) has baffle (7) that are used for supporting cabinet body frame bottom, wherein, baffle (7) outward flange upwards buckles and forms supporting part, supporting part is used for lifting and is the cabinet body frame bottom of inclination.