CN210761781U - Support for transporting pressure plate - Google Patents

Abstract

The utility model relates to a support for pressure disk transportation, including underframe that the level set up, vertical bearing frame of locating on the underframe, set up at the supporting component at bearing frame top and a pair of boss flange that sets up side by side at the supporting component both ends and with pressure disk looks adaptation, still be equipped with on the support and strengthen the mechanism. Compared with the prior art, the utility model has the advantages that two pressure plates can be hung on one bracket at the same time, thereby saving the transportation space; the bracket can be repeatedly used, so that the cost of a packaging frame is saved; in the loading and unloading process, the force applying position of the fork is reserved, so that the shoveling and conveying efficiency is high; the pressure disk is in vertical state all the time, and a forklift can accomplish the hoist and mount, has improved assembly efficiency, and need not overturn the pressure disk, and the installation risk is very reduced.

Description

Support for transporting pressure plate

Technical Field

The utility model belongs to the technical field of auto-parts assembly, a support for pressure disk transportation is related to.

Background

The first sealing strip subsides of door pastes the frock that is used for pasting the first sealing strip of door on the door, and the major structure of its pressure disk part is: the contour blocks and the driving cylinders are arranged on the periphery of the two sides of the large bottom plate according to the outline of the vehicle door, and corresponding functional parts are arranged in the large bottom plate; the middle of the large bottom plate is provided with a mounting hole, and the periphery of the large bottom plate is provided with a bolt fixing hole which is arranged on a horizontal flange shaft of the equipment. At present, a pressure plate adopts a flat lying mode during transportation, and a corresponding steel bracket is manufactured by utilizing a gap on a large bottom plate and is fixed on an iron bottom plate. The main disadvantages are:

1. the horizontal lying mode is adopted, so that the occupied transportation area is greatly increased.

2. The iron bottom plate is added with a steel bracket, so that the transportation weight is greatly increased.

3. The new platen is manufactured each time, and the position of the bracket needs to be moved and fixed each time due to different gap positions.

4. During on-site hoisting, the pressure plate needs to be horizontally hoisted away from the fixed support by a forklift, then the pressure plate is turned to the vertical direction by another forklift for final assembly, and the device is low in efficiency and high in risk.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a support for pressure disk transportation in order to overcome the defect that above-mentioned prior art exists, this support is arranged in the fixed stay of pressure disk part when the transportation among the door first sealing strip subsides dress equipment, also is applicable to other appearances complicacies, does not have good fixed position, vertical installation in the side shaft, with the equipment of flange fastening.

The purpose of the utility model can be realized through the following technical scheme:

the utility model provides a support for pressure disk transportation, this support includes the underframe of level setting, vertically locates the bearing frame on the underframe, sets up the supporting component at bearing frame top and a pair of boss flange that sets up side by side at the supporting component both ends and with pressure disk looks adaptation, the support on still be equipped with reinforcing mechanism. The bearing frame is vertically welded in the middle of the bottom frame in the length direction.

Furthermore, the bottom frame comprises a pair of parallel transverse section steels and a pair of parallel longitudinal section steels, and the bearing frame is vertically arranged on the transverse section steels.

Furthermore, two ends of the longitudinal section steel are respectively lapped on the two transverse section steels.

Furthermore, the bearing frame is a rectangular bearing frame, and the vertical plane where the rectangular bearing frame is located is parallel to the length direction of the longitudinal section steel.

Furthermore, the supporting component comprises a supporting plate arranged at the top of the bearing frame and a supporting shaft arranged on the supporting plate along the horizontal direction, and the two boss flanges are respectively arranged at two ends of the supporting shaft.

Further, the axial direction of the supporting shaft is parallel to the length direction of the transverse section steel.

Furthermore, the reinforcing mechanism comprises a pair of reinforcing section steels obliquely arranged in the bearing frame, the tops and the bottoms of the reinforcing section steels are fixedly connected with the bearing frame, and a triangle is formed by the tops of the two reinforcing section steels and the bottom of the bearing frame in a surrounding mode.

Furthermore, the reinforcing mechanism also comprises an inclined strut obliquely arranged between the bearing frame and the transverse section steel.

Furthermore, 4 inclined struts are symmetrically arranged between the bearing frame and the transverse section steel.

Furthermore, fork shaped steel is arranged between the inclined strut and the bearing frame, and the length direction of the fork shaped steel is parallel to the length direction of the transverse shaped steel.

The utility model discloses a shaped steel welding forms, and the underframe includes two horizontal shaped steel, two vertical shaped steel of two horizontal shaped steel tail end top welds, and vertical shaped steel bottom is higher than ground to in forklift fork gets into the shovel fortune. The bearing frame is the rectangle frame that the shaped steel welding formed, and the long limit of rectangle frame equals with the width of underframe, and long limit bottom welding stands in underframe long limit center department. Two reinforcing section steels are welded in the bearing frame, and form a triangular support with the bottom edge of the bearing frame, and the top of the triangular support supports the top center position of the bearing frame, namely the position of the support shaft. Four reinforcing section steels, namely inclined struts, are obliquely welded between the bottom frame and the bearing frame. In the triangle-shaped space that bracing and underframe long limit, bearing frame vertical edge constitute, according to underframe long limit direction, a level welding shaped steel, fork shaped steel promptly, this fork shaped steel has a take the altitude for horizontal shaped steel to make things convenient for the fork transversely to get into the shovel and transport, play the structure additional strengthening simultaneously again. A steel supporting plate is welded at the center of the top of the bearing frame, a supporting shaft is welded on the supporting plate, and two boss flanges are welded or screwed at two ends of the supporting shaft.

The pressure plate is arranged at the boss of the boss flange through a central hole and is fixed on the flange surface through bolts; and the two ends of the supporting shaft are respectively hung with a pressing plate, so that the balance and stability of the support can be ensured in transportation. When the fork is assembled and disassembled on site, the fork opening is arranged in the transverse direction and the longitudinal direction of the bracket, so that the fork is easy to fork. After the transportation targets in place, when equipment assembly, shovel a pressure disk earlier, another pressure disk is because centrobaric position, is far less than the direction on the long limit of underframe, can not take place the pressure disk yet and topple, the hoist and mount of two pressure disks of completion that can be very convenient.

Compared with the prior art, the utility model has the characteristics of it is following:

1) two pressure disks can be hung on one support simultaneously, and the transportation space is saved.

2) The support can be recycled, and the cost of the packaging frame is saved.

3) In the loading and unloading process, the force applying position of the fork is reserved, so that the shoveling and conveying efficiency is high.

4) The pressure disk is in vertical state all the time, and a forklift can accomplish the hoist and mount, has improved assembly efficiency, and need not overturn the pressure disk, and the installation risk is very reduced.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic structural view of the present invention after the platen is installed;

the notation in the figure is:

1-support, 2-pressure plate, 3-horizontal section steel, 4-longitudinal section steel, 5-diagonal brace, 6-bearing frame, 7-reinforcing section steel, 8-supporting shaft, 9-supporting plate, 10-boss flange and 11-fork section steel.

Detailed Description

The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments. The embodiment is implemented on the premise of the technical solution of the present invention, and a detailed implementation manner and a specific operation process are given, but the scope of the present invention is not limited to the following embodiments.

Example 1:

the support for transporting the platen as shown in fig. 1 and 2 has the structure that: the top at two ends of two transverse section steels 3 is welded with longitudinal section steels 4, a rectangular bearing frame 6 is vertically welded at the middle position of the transverse section steel 3 of the bottom frame, and the length of the rectangular bearing frame 6 is equal to the width of the bottom frame. A supporting plate 9 is welded in the middle of the top end of the rectangular bearing frame 6, a supporting shaft 8 is welded on the supporting plate 9, and the axial direction of the supporting shaft 8 is consistent with the long side direction of the transverse section steel 3. Boss flanges 10 are fixed at both ends of the support shaft 8. Two inclined reinforced section steels 7 are arranged in the rectangular bearing frame 6, the two inclined reinforced section steels and the bottom edge of the rectangular bearing frame 6 form a triangle, and the top of the triangular bearing frame is supported below the center of the top edge of the bearing frame 6 below the supporting plate 9. Two sides of two vertical edges of the vertical rectangular bearing frame 6 are connected and reinforced with the transverse section steel 3 through the inclined strut 5, a fork section steel 11 is horizontally welded between the inclined strut 5 and the vertical edge of the straight rectangular bearing frame 6, and the inclined strut 5 and the vertical edge of the straight rectangular bearing frame 6 are connected and reinforced.

In practical application, two transverse section steels 3 of the whole support 1 are placed on the ground, the pressure plate 2 is vertically lifted, a central mounting hole in the pressure plate is aligned to a boss of the boss flange 10 and slowly lifted, and the pressure plate is fixed on the flange surface of the boss flange 10 through bolts after combination. The hoisting of one pressure plate 2 is completed, and because the current gravity center position is far less than the length of the transverse section steel 3 of the bottom frame, at the moment, the whole support 1 and the pressure plate 2 can still be in a balanced state, and the overturning cannot occur. After the second platen 2 is hoisted, the whole support 1 is in a better balance state. At this time, the neutral position between the longitudinal section steel 4 and the ground, and the neutral position formed between the fork section steel 11 and the lateral section steel 3, can very easily perform shovel shipment in both directions.

Example 2:

as shown in fig. 1 and 2, the support for transporting the platen comprises a horizontally arranged bottom frame, a bearing frame 6 vertically arranged on the bottom frame, a support assembly arranged at the top of the bearing frame 6, and a pair of boss flanges 10 arranged at two ends of the support assembly in parallel and matched with the platen 2, wherein the support is further provided with a reinforcing mechanism.

Wherein, the underframe includes a pair of horizontal shaped steel 3 that sets up side by side and a pair of longitudinal section steel 4 that sets up side by side between two horizontal shaped steel 3, and bearing frame 6 is vertical to be located on horizontal shaped steel 3. Two ends of the longitudinal section steel 4 are respectively lapped on the two transverse section steels 3. The bearing frame 6 is a rectangular bearing frame, and the vertical plane where the rectangular bearing frame is located is parallel to the length direction of the longitudinal section steel 4. The supporting component comprises a supporting plate 9 arranged at the top of the bearing frame 6 and a supporting shaft 8 arranged on the supporting plate 9 along the horizontal direction, and two boss flanges 10 are respectively arranged at two ends of the supporting shaft 8. The axial direction of the support shaft 8 is parallel to the longitudinal direction of the transverse section steel 3.

The reinforcing mechanism comprises a pair of reinforcing steel sections 7 obliquely arranged in the bearing frame 6, the top and the bottom of each reinforcing steel section 7 are fixedly connected with the bearing frame 6, and a triangle is formed by the top of each reinforcing steel section 7 and the bottom of the bearing frame 6 in a surrounding mode. The reinforcing mechanism also comprises an inclined strut 5 obliquely arranged between the bearing frame 6 and the transverse section steel 3. 4 inclined struts 5 are symmetrically arranged between the bearing frame 6 and the transverse section steel 3. A fork section steel 11 is arranged between the inclined strut 5 and the bearing frame 6, and the length direction of the fork section steel 11 is parallel to the length direction of the transverse section steel 3.

The embodiments described above are intended to facilitate the understanding and use of the invention by those skilled in the art. It will be readily apparent to those skilled in the art that various modifications to these embodiments may be made, and the generic principles described herein may be applied to other embodiments without the use of the inventive faculty. Therefore, the present invention is not limited to the above embodiments, and those skilled in the art should make improvements and modifications within the scope of the present invention according to the disclosure of the present invention.

Claims (10)

1. The utility model provides a support for pressure disk transportation, its characterized in that, this support includes underframe of level setting, vertical bearing frame (6) of locating on the underframe, set up at the supporting component at bearing frame (6) top and a pair of boss flange (10) that set up side by side at the supporting component both ends and with pressure disk (2) looks adaptation, the support on still be equipped with reinforcing mechanism.

2. A carriage for platen transport according to claim 1, characterized in that said base frame comprises a pair of juxtaposed transverse profiles (3) and a pair of juxtaposed longitudinal profiles (4) between said transverse profiles (3), said load-bearing frame (6) being disposed vertically on the transverse profiles (3).

3. A carriage for platen transport according to claim 2, characterized in that the longitudinal profiles (4) overlap at both ends with the two transverse profiles (3), respectively.

4. The support for transporting the platen according to claim 2, wherein the bearing frame (6) is a rectangular bearing frame, and the vertical plane of the rectangular bearing frame is parallel to the length direction of the longitudinal section steel (4).

5. The support for transporting the platen according to claim 4, wherein the support assembly comprises a support plate (9) disposed on the top of the load-bearing frame (6) and a support shaft (8) disposed on the support plate (9) along the horizontal direction, and two boss flanges (10) are respectively disposed at two ends of the support shaft (8).

6. A carriage for platen transport according to claim 5, characterized in that the axial direction of the support shaft (8) is parallel to the length direction of the transverse steel section (3).

7. The support for transporting the platen according to claim 4, wherein the reinforcing mechanism comprises a pair of reinforcing steel bars (7) obliquely arranged in the bearing frame (6), the top and the bottom of each reinforcing steel bar (7) are fixedly connected with the bearing frame (6), and a triangle is defined between the top of each reinforcing steel bar (7) and the bottom of the bearing frame (6).

8. A carriage for platen transport according to claim 7, characterized in that the reinforcing means further comprise a diagonal brace (5) obliquely arranged between the load-bearing frame (6) and the transverse steel section (3).

9. A support for transporting a platen according to claim 8, wherein 4 diagonal braces (5) are symmetrically arranged between the bearing frame (6) and the transverse steel (3).

10. The support for transporting the platen according to claim 9, wherein a fork-shaped steel (11) is arranged between the inclined strut (5) and the bearing frame (6), and the length direction of the fork-shaped steel (11) is parallel to the length direction of the transverse steel (3).

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