CN215471969U - Energy-saving prefabricated component maintenance structure - Google Patents

Abstract

The utility model relates to the technical field of prefabricated parts, and provides an energy-saving prefabricated part maintenance structure which is convenient for protecting glass fiber reinforced plastics with different heights and cleaning and disassembling the glass fiber reinforced plastics, and comprises two prefabricated plates, wherein a moving assembly and a support plate are arranged on each prefabricated plate, the two support plates are connected with the glass fiber reinforced plastics through a rotating assembly, a support mechanism and two support cylinders are arranged on each prefabricated plate, a motor is arranged on each support mechanism, a spring is arranged in each support cylinder, a support rod is connected between each spring and each support cylinder in a penetrating and sliding manner, a connecting strip is arranged between each support rod, a screw is connected between the output end of each motor and each connecting strip in a threaded manner, a plurality of support rods are respectively connected with the two support plates, a placing box is connected between the two rotating assemblies, and a plurality of positioning plates are connected on the placing box in a sliding manner, a placing plate is arranged between two adjacent positioning plates, and adjusting mechanisms are arranged on the two placing plates.

Description

Energy-saving prefabricated component maintenance structure

Technical Field

The utility model relates to the technical field of prefabricated parts, in particular to an energy-saving prefabricated part maintenance structure.

Background

As is well known, a prefabricated member refers to a steel, wood or concrete member which is previously fabricated in a factory or on site according to design specifications, and in the production process of the prefabricated member, which generally refers to various members fabricated by a pre-forming method, maintenance work is often required to be performed on the prefabricated member in order to improve the strength of the prefabricated member.

Through the retrieval, chinese patent application number is CN 201820375178.8's utility model discloses a continuous maintenance structure of prefabricated component, its roughly description does, including the mounting panel, the bottom of mounting panel is equipped with the prefabricated plate, the inboard of mounting panel is equipped with fixed frame, the equal fixedly connected with connecting rod in both sides of fixed frame, it is when using, one side cover that fixed frame was kept away from to the connecting rod is equipped with the movable sleeve, the one side that the connecting rod was kept away from to the movable sleeve is equipped with the junction fixed connection of mounting panel, the outside of connecting rod runs through to the inner chamber of movable sleeve and swing joint has the bearing, the bearing is kept away from one side of connecting rod and the junction fixed connection of movable sleeve, it can adjust the use angle of glass steel.

Although foretell prior art scheme can adjust glass steel's use angle, its prefabricated component who carries out the maintenance when using highly comparatively fixes, is not convenient for protect the prefabricated component of co-altitude not, and the limitation during the use is higher to fixed mounting when glass steel uses, and glass steel uses the easy adhesion dust of back surface for a long time, is not convenient for clear up, causes the influence to prefabricated component's maintenance efficiency easily.

SUMMERY OF THE UTILITY MODEL

Technical problem to be solved

Aiming at the defects of the prior art, the utility model provides an energy-saving prefabricated part maintenance structure, which aims to solve the problems that prefabricated parts with different heights are inconvenient to protect and glass fiber reinforced plastics are inconvenient to clean and disassemble in the background art.

(II) technical scheme

In order to achieve the purpose, the utility model provides the following technical scheme: an energy-saving prefabricated part maintenance structure comprises two prefabricated plates, wherein a moving assembly and support plates are arranged on each of the two prefabricated plates, the two support plates are connected with glass fiber reinforced plastics through rotating assemblies, a support mechanism and two support cylinders are arranged on each of the two prefabricated plates, a motor is arranged on each of the two support mechanisms, springs are arranged in each of the two support cylinders, a support rod is connected between the spring and the support cylinder in a penetrating and sliding way, a connecting strip is arranged between the two support rods, a screw rod is connected between the output end of the motor and the connecting bar in a threaded manner, a plurality of supporting rods are respectively connected with the two supporting plates, a placing box is connected between the two rotating assemblies, the placing box is connected with a plurality of positioning plates in a sliding mode, a placing plate is arranged between every two adjacent positioning plates in the plurality of positioning plates, and the placing plates are provided with adjusting mechanisms.

Preferably, adjustment mechanism includes two spiral shell strips, two the spiral shell strip all runs through with placing the board and is connected, is provided with opposite direction's screw thread on two spiral shell strips respectively, it is connected with two fixed strips and two location strips on the board to place, is provided with the dwang between two fixed strips, overlap respectively on spiral shell strip and the dwang and be equipped with from driving wheel and two action wheels, action wheel and follow driving wheel meshing, two all be provided with a removal section of thick bamboo on the spiral shell strip, a removal section of thick bamboo and location strip sliding connection, two the bottom of a removal section of thick bamboo all is provided with the stripper plate.

Further, the supporting mechanism comprises two fixing plates, the fixing plates are detachably connected with the prefabricated plates, supporting strips are connected to the fixing plates, and mounting plates are arranged between the supporting strips.

Still further, be connected with the removal strip on the removal section of thick bamboo, the last symmetrical connection of removal strip has two stoppers, set up on the location strip and be used for the stopper to carry out gliding sliding tray.

As a further scheme of the scheme, the positioning plate is detachably connected with a sliding block, the sliding block is symmetrically connected with two moving blocks, and the placing box is provided with a moving groove for the moving blocks to slide.

As a further scheme of the scheme, a screw is in threaded connection between the fixed plate and the precast plate, and a fixed ring is in threaded connection on the screw.

On the basis of the scheme, the support rod is symmetrically connected with two sliding rods, the two sliding rods are symmetrically connected with two limiting rods, and the support cylinder is provided with a limiting groove for the limiting rods to slide.

On the basis of the scheme, the top ends of the two screw rods can be detachably connected with positioning blocks.

(III) advantageous effects

Compared with the prior art, the utility model provides an energy-saving prefabricated part maintenance structure, which has the following beneficial effects:

1. according to the utility model, the prefabricated plate is matched with the moving assembly to facilitate the movement of the glass fiber reinforced plastic, the motor can be installed by connecting the supporting mechanism on the prefabricated plate, the connecting bar can drive the two supporting rods to move simultaneously by connecting the motor and the screw rod, and the spring is arranged in the supporting cylinder to ensure that the supporting rods can stably move the supporting plate to facilitate the movement of the glass fiber reinforced plastic, so that the glass fiber reinforced plastic with different heights can be protected.

2. According to the utility model, the placing box can be supported through the connection of the supporting plate and the rotating assembly, meanwhile, the positioning plate is connected on the placing box in a sliding mode and can be connected in a sliding mode, the glass fiber reinforced plastic can be supported and fixed through the adjusting mechanism connected to the placing plate, and therefore, the glass fiber reinforced plastic can be cleaned and detached conveniently.

Drawings

FIG. 1 is an exploded perspective view of the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1A;

FIG. 3 is a schematic perspective view of the present invention;

fig. 4 is a schematic enlarged view of a portion B in fig. 3 according to the present invention.

In the figure: 1. prefabricating a slab; 2. a moving assembly; 3. a support plate; 4. glass fiber reinforced plastic; 5. a support cylinder; 6. a motor; 7. a spring; 8. a support bar; 9. a screw; 10. placing a box; 11. positioning a plate; 12. a helical strip; 13. a positioning bar; 14. rotating the rod; 15. a driven wheel; 16. a driving wheel; 17. moving the drum; 18. a pressing plate; 19. a fixing plate; 20. a screw; 21. and (5) positioning the blocks.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Examples

Referring to fig. 1-4, an energy-saving prefabricated part maintenance structure comprises two prefabricated panels 1, a moving assembly 2 and a support plate 3 are respectively arranged on the two prefabricated panels 1, the two support plates 3 are respectively connected with a glass fiber reinforced plastic 4 through a rotating assembly, a support mechanism and two support cylinders 5 are respectively arranged on the two prefabricated panels 1, a motor 6 is respectively arranged on the two support mechanisms, each support mechanism comprises two fixed plates 19, the two fixed plates 19 are respectively detachably connected with the prefabricated panels 1, support bars are respectively connected with the two fixed plates 19, a mounting plate is arranged between the two support bars, a screw 20 is in threaded connection between the fixed plate 19 and the prefabricated panel 1, a fixing ring is in threaded connection with the screw 20, the motor 6 is conveniently mounted and dismounted on the prefabricated panel 1, a spring 7 is respectively arranged in the two support cylinders 5, a support rod 8 is in a sliding connection between the spring 7 and the support cylinder 5, symmetrical connection has two slide bars on the bracing piece 8, equal symmetrical connection has two gag lever posts on two slide bars, offer on a support section of thick bamboo 5 and be used for the gag lever post to carry out gliding spacing groove, be provided with the connecting strip between two bracing pieces 8, threaded connection has screw rod 9 between the output of motor 6 and the connecting strip, all detachable connection has locating piece 21 on the top of two screw rods 9, can carry out spacingly to the removal of connecting strip on screw rod 9, a plurality of bracing pieces 8 are connected with two backup pads 3 respectively, rotate screw rod 9 through motor 6, can make the connecting strip drive bracing piece 8 and remove, through be provided with spring 7 in a support section of thick bamboo 5, can increase the stability that bracing piece 8 removed backup pad 3.

It should be further noted that a placing box 10 is connected between two rotating assemblies, a plurality of positioning plates 11 are slidably connected on the placing box 10, sliding blocks are detachably connected on the positioning plates 11, two moving blocks are symmetrically connected on the sliding blocks, moving grooves for the moving blocks to slide are formed in the placing box 10, the positioning plates 11 can stably slide on the placing box 10, a placing plate is arranged between two adjacent positioning plates 11 in the plurality of positioning plates 11, an adjusting mechanism is arranged on each of the two placing plates, the adjusting mechanism comprises two screw bars 12, the two screw bars 12 are in through movable connection with the placing plate, screw threads in opposite directions are respectively arranged on the two screw bars 12, the placing plate is connected with two fixing bars and two positioning bars 13, a rotating rod 14 is arranged between the two fixing bars, a driven wheel 15 and two driving wheels 16 are respectively sleeved on the screw bars 12 and the rotating rod 14, action wheel 16 with follow driving wheel 15 meshing, all be provided with a removal section of thick bamboo 17 on two snail strips 12, remove a section of thick bamboo 17 and location strip 13 sliding connection, be connected with the removal strip on removing a section of thick bamboo 17, the last symmetric connection of removal strip has two stoppers, set up on the location strip 13 and be used for the stopper to carry out gliding sliding tray, the bottom of two removal sections of thick bamboo 17 all is provided with stripper plate 18, dwang 14 can rotate snail strip 12 through master gear and follow driving wheel 15, rotation through snail strip 12, remove a section of thick bamboo 17 and can remove on location strip 13 through removing the strip, so that remove stripper plate 18, thereby can support and fix glass steel 4.

The motor 6 in this embodiment is a conventional device purchased on the market and known to those skilled in the art, and the model can be selected or customized according to actual needs, and we only use it in this patent, and do not improve its structure and function, and its setting mode, installation mode, and electrical connection mode, for those skilled in the art, as long as debug according to the requirements of its use specification, it is not repeated here, and the motor 6 is provided with a control switch matched with it, and the installation position of the control switch is selected according to the actual use requirements, so that the operator can operate and control conveniently.

In summary, the working principle and working process of the energy-saving prefabricated part maintenance structure are that, in use, the fixing plate 19 is firstly connected with the prefabricated plate 1 through the matching of the screw 20 and the fixing ring so as to support the mounting plate through the supporting bar, the motor 6 can be mounted on the prefabricated plate 1, the motor 6 is connected with a forward and reverse circuit according to the specification, then the glass fiber reinforced plastic 4 is placed in the placing box 10, then the rotating rod 14 is rotated, the ribbon 12 can be rotated through the meshing of the main gear and the driven wheel 15, through the rotation of the ribbon 12, the moving cylinder 17 can move on the positioning strip 13 through the moving strip and the limiting block so as to support and fix the glass fiber reinforced plastic 4 through the extrusion plate 18, so as to facilitate the installation and the disassembly of the glass fiber reinforced plastic 4 on the placing box 10, when the prefabricated part needs to be maintained, the prefabricated plate 1 is moved through the moving assembly 2, when the prefabricated plate 1 is moved to the position of the prefabricated part, the screw rod 9 can be rotated by the starting motor 6, the connecting bar can drive the supporting rod 8 to move through the rotation of the screw rod 9, the stability of the supporting rod 8 for moving the supporting plate 3 can be increased through the spring 7 arranged in the supporting cylinder 5, and therefore the protection height can be adjusted according to the height of the prefabricated part.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (8)

1. An energy-saving prefabricated part maintenance structure comprises two prefabricated plates (1), wherein a moving assembly (2) and support plates (3) are arranged on each of the two prefabricated plates (1), and each of the two support plates (3) is connected with glass fiber reinforced plastic (4) through a rotating assembly, the energy-saving prefabricated part maintenance structure is characterized in that a support mechanism and two support cylinders (5) are arranged on each of the two prefabricated plates (1), a motor (6) is mounted on each of the two support mechanisms, a spring (7) is arranged in each of the two support cylinders (5), a support rod (8) is connected between each spring (7) and each support cylinder (5) in a penetrating and sliding manner, a connecting bar is arranged between each support rod (8), a screw rod (9) is connected between the output end of each motor (6) and each connecting bar in a threaded manner, and the plurality of support rods (8) are respectively connected with the two support plates (3), two be connected with between the rotating component and place case (10), it has a plurality of locating plates (11) to place sliding connection on case (10), is provided with between two adjacent locating plates (11) in a plurality of locating plates (11) and places the board, two place and all be provided with adjustment mechanism on the board.

2. The energy-saving prefabricated part curing structure of claim 1, wherein the adjusting mechanism comprises two screw strips (12), two screw strips (12) are connected with a placing plate in a penetrating manner, the two screw strips (12) are respectively provided with threads in opposite directions, the placing plate is connected with two fixing strips and two positioning strips (13), a rotating rod (14) is arranged between the two fixing strips, the screw strips (12) and the rotating rod (14) are respectively sleeved with a driven wheel (15) and two driving wheels (16), the driving wheels (16) are meshed with the driven wheel (15), two moving barrels (17) are arranged on the screw strips (12), the moving barrels (17) are connected with the positioning strips (13) in a sliding manner, and the bottom ends of the moving barrels (17) are respectively provided with an extrusion plate (18).

3. The energy-saving prefabricated part curing structure of claim 2, wherein the supporting mechanism comprises two fixing plates (19), the two fixing plates (19) are detachably connected with the prefabricated plate (1), supporting bars are connected to the two fixing plates (19), and a mounting plate is arranged between the two supporting bars.

4. The energy-saving precast element maintenance structure according to claim 3, characterized in that the moving cylinder (17) is connected with a moving bar, the moving bar is symmetrically connected with two limiting blocks, and the positioning bar (13) is provided with a sliding groove for the limiting blocks to slide.

5. The energy-saving prefabricated part maintenance structure according to claim 4, wherein a sliding block is detachably connected to the positioning plate (11), two moving blocks are symmetrically connected to the sliding block, and a moving groove for the moving blocks to slide is formed in the placing box (10).

6. The energy-saving precast member curing structure according to claim 5, wherein a screw (20) is threadedly connected between the fixing plate (19) and the precast plate (1), and a fixing ring is threadedly connected to the screw (20).

7. The energy-saving maintenance structure for prefabricated parts according to claim 6, wherein said supporting rod (8) is symmetrically connected with two sliding rods, each of said two sliding rods is symmetrically connected with two limiting rods, and said supporting cylinder (5) is provided with limiting grooves for said limiting rods to slide.

8. An energy-saving maintenance structure for prefabricated parts according to claim 7, wherein the top ends of both said screws (9) are detachably connected with positioning blocks (21).

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