CN112678337B

CN112678337B - From carrying formula superimposed sheet of easily getting and depositing equipment

Info

Publication number: CN112678337B
Application number: CN202011524324.7A
Authority: CN
Inventors: 张帆
Original assignee: Anhui Hongteng Residential Technology Co ltd
Current assignee: Anhui Hongteng Residential Technology Co ltd
Priority date: 2020-12-22
Filing date: 2020-12-22
Publication date: 2022-09-06
Anticipated expiration: 2040-12-22
Also published as: CN112678337A

Abstract

The invention relates to the technical field of laminated slab manufacturing, in particular to self-loading easy-taking type laminated slab storage equipment which comprises an underframe plate with supporting legs, wherein storage racks are symmetrically distributed on the left side plate wall and the right side plate wall of the underframe plate in a front-back mode, the lower end parts of the storage racks are hinged to the side plate wall of the underframe plate, a storage inner chamber is arranged in each storage rack, and four limiting supporting cushion blocks are sequentially hinged and distributed in each storage inner chamber from bottom to top. According to the laminated slab stacking device, the laminated slab is limited on the basis of supporting through the limiting supporting cushion blocks with the limiting convex strips, damage to the laminated slab on the lower layer and safety accidents are avoided, manual placement and removal are not needed through the stress transmission mechanism and the power input mechanism which are used for driving the limiting supporting cushion blocks to extend and retract in a rotating mode, potential safety hazards are eliminated, the laminated slab can be placed or taken out quickly, and influences on construction speed and efficiency are reduced.

Description

From carrying formula superimposed sheet of easily getting and depositing equipment

Technical Field

The invention relates to the technical field of laminated slab manufacturing, in particular to self-loading easy-to-take type laminated slab storage equipment.

Background

The composite slab is an assembled integral floor slab formed by overlapping precast slabs and cast-in-place reinforced concrete layers, has the advantages of high rigidity, good crack resistance, no increase of the consumption of reinforcing steel bars, acceleration of construction speed, shortening of construction period and the like, and is commonly used for high-rise buildings and large-bay buildings with higher integral rigidity requirements.

At present most levels of superimposed sheet stack in comparatively spacious indoor or outdoor, implement the wall through the wood system backing plate that distributes around distributing between the upper and lower adjacent superimposed sheet, all need place four wood system backing plates on current superimposed sheet earlier when every up stacks one deck superimposed sheet, during the retrieval and use, except the one deck superimposed sheet of top, all need take off the wood system backing plate on the superimposed sheet of waiting to get earlier when every takes one deck superimposed sheet. The placing and taking down of the wooden base plate are generally implemented manually, certain potential safety hazards exist, the storage and taking processes of the laminated slab become complicated, and the construction speed and efficiency are influenced; in addition, because the effect that the wood system backing plate only played the support, in case the superimposed sheet is placed the position and is improper, will make the superimposed sheet of depositing obtain not supporting, light then lead to the superimposed sheet of upper story directly to press on the superimposed sheet of lower floor, cause the superimposed sheet of lower floor to damage, the superimposed sheet that heavy then leads to the upper story takes place the slope and drops, causes the incident.

Disclosure of Invention

In order to solve the technical problem, the invention provides self-loading easy-to-take type laminated slab storage equipment.

The technical problem to be solved by the invention is realized by adopting the following technical scheme:

a self-loading easy-taking type laminated slab storage device comprises a bottom frame plate with supporting legs and fixed limiting base plates correspondingly distributed on the periphery of the upper end face of the bottom frame plate, wherein storage frames which are symmetrically distributed front and back and of which the lower end parts are hinged to the side plate walls of the bottom frame plate are arranged on the left side plate wall and the right side plate wall of the bottom frame plate, a storage inner chamber is arranged in each storage frame, four limiting supporting cushion blocks which are sequentially hinged and distributed from bottom to top and four stress transmission mechanisms which are positioned on the side edges of the four limiting supporting cushion blocks and correspondingly connected with the four limiting supporting cushion blocks are arranged in each storage inner chamber, the four stress transmission mechanisms are sequentially distributed and only bear unidirectional upward acting force, a power input mechanism is arranged at the hinged end part of each storage frame, and the power input mechanism is connected with the stress transmission mechanism at the lowest side;

after the lowest stressed transmission mechanism is continuously powered by the power input mechanism, the limiting support cushion blocks connected with the lowest stressed transmission mechanism swing clockwise to extend out of the storage cavity, then acting force is transmitted to the other three stressed transmission mechanisms, and the limiting support cushion blocks corresponding to the other stressed transmission mechanisms sequentially swing clockwise to extend out of the storage cavity to support the limiting laminated slab, so that the laminated slab is stored.

Further, the storage rack can be switched between a vertical state and a horizontal state, and limiting mechanisms used for limiting and fixing the storage rack after the states are switched are correspondingly arranged on the storage rack and the bottom frame plate.

Furthermore, the limiting mechanism comprises a limiting through hole arranged at the hinged end part of the storage rack, two limiting insertion holes correspondingly distributed at the side plate wall of the bottom frame plate and the bottom of the bottom frame plate, and a limiting bolt penetrating through the limiting through hole and inserted into the limiting insertion holes, wherein the two limiting insertion holes are concentrically distributed by taking a hinged shaft of the storage rack as a circle center, and the corresponding circle center angle is 90 degrees.

Furthermore, the upper end face of each limit supporting cushion block is provided with a limit raised line with the same width as the limit supporting cushion block.

Furthermore, the four stress transmission mechanisms respectively comprise toothed plates which are arranged in the storage inner cavity in a sliding mode and rotating gears which are coaxially connected with the limiting support cushion blocks which are correspondingly connected, and the toothed plate in the lowest stress transmission mechanism is connected with the power input mechanism.

Furthermore, the upper ends of toothed plates in the stress transmission mechanisms except the stress transmission mechanism at the uppermost side are provided with a transmission guide rod.

Furthermore, the toothed plates of the stress transmission mechanisms except the lowest stress transmission mechanism are correspondingly connected with a return spring, and the other end of the return spring is arranged in the storage inner cavity.

Further, the power input mechanism comprises a rack correspondingly connected with the toothed plate, a driving gear in meshed connection with the rack, and a rotating knob coaxially connected with the driving gear and located outside the storage rack.

The invention has the beneficial effects that:

compared with the prior art, the laminated slab is limited on the basis of supporting the laminated slab by arranging the limiting supporting cushion block with the limiting convex strip, damage to the laminated slab on the lower layer and safety accidents are avoided, the stress transmission mechanism and the power input mechanism which drive the limiting supporting cushion block to extend and retract in a rotating mode are arranged, manual placement and removal are not needed, potential safety hazards are eliminated, the laminated slab can be placed or taken out quickly, and influences on construction speed and efficiency are reduced.

Drawings

The invention is further illustrated with reference to the following figures and examples:

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic top view of the present invention;

FIG. 3 is a left side view of the present invention;

fig. 4 is an enlarged schematic view at I in fig. 1.

In the figure: 1. a chassis plate; 2. a fixed limit base plate; 3. a storage rack; 31. a limiting through hole; 32. limiting jacks; 33. a limiting bolt; 4. storing the inner chamber; 5. limiting and supporting the cushion block; 51. limiting convex strips; 6. a toothed plate; 7. a rotating gear; 8. a drive guide rod; 9. a rack; 10. a drive gear; 11. rotating a knob; 12. a return spring.

Detailed Description

In order to make the technical means, the creation features, the achievement purposes and the effects of the invention easy to understand, the invention is further explained in the following with the accompanying drawings and the embodiments.

As shown in fig. 1 to 4, a self-loading easy-to-take type laminated slab storage device comprises a base plate 1 with supporting legs and fixed limiting base plates 2 correspondingly distributed on the periphery of the upper end face of the base plate 1, wherein storage frames 3 which are symmetrically distributed from front to back and the lower ends of which are hinged on the side plate walls of the base plate 1 are arranged on the left and right side plate walls of the base plate 1, a storage inner chamber 4 is arranged in each storage frame 3, four limiting supporting cushion blocks 5 which are sequentially hinged and distributed from bottom to top and four stress transmission mechanisms which are positioned on the side edges of the four limiting supporting cushion blocks 5 and correspondingly connected with the four limiting supporting cushion blocks are arranged in each storage inner chamber 4, the four stress transmission mechanisms are sequentially distributed and only receive unidirectional upward acting force, a power input mechanism is arranged at the hinged end part of the storage frame 3, and the power input mechanism is connected with the lowest stress transmission mechanism;

after the lowest stressed transmission mechanism is continuously powered by the power input mechanism, the limiting support cushion blocks 5 connected with the lowest stressed transmission mechanism swing clockwise to extend out of the inner storage chamber 4, then acting force is transmitted to the other three stressed transmission mechanisms, and the limiting support cushion blocks 5 corresponding to the other stressed transmission mechanisms sequentially swing clockwise to extend out of the inner storage chamber 4 to support the limiting laminated slab, so that the laminated slab is stored.

Four fixed spacing backing plates 2 all are the bar form, and place along left right direction level. Four storage racks 3 all are long platelike structure, and the structure of its inside deposit interior chamber 4 is rather than the same, and four spacing lip block 5 in four storage racks 3 are the setting of constant height, have guaranteed the stationarity of superimposed sheet like this, avoid appearing the superimposed sheet and can not obtain the condition that spacing lip block 5 supported. Four spacing lip block 5 set up in the outside of depositing interior chamber 4, and four atress drive mechanism settings are depositing the inboard of interior chamber 4. The four limit supporting cushion blocks 5 are all made of wood materials. The interval requirement of the pin joint between the adjacent spacing support cushion blocks 5 guarantees that when the spacing support cushion blocks 5 rotate and stretch out, the lower end face of the spacing support cushion blocks is attached to the upper plate face of the lower laminated slab, and the thickness requirement of the spacing support cushion blocks 5 is slightly larger than the height of the embedded parts on the upper plate face of the laminated slab, so that the embedded parts on the lower laminated slab can not interfere with the placement of the upper laminated slab.

The invention is characterized in that four limit support cushion blocks 5 are arranged in each storage rack 3, and a fixed limit cushion plate 2 on the bottom frame plate 1 is added, which shows that the invention can be used for placing five laminated plates. According to the relevant national regulations, the number of stacked superimposed plates is generally not more than seven, so that the limit supporting cushion blocks 5 in the invention can be set according to the actual use requirements and conditions within the range.

As a further improvement of the present invention, the storage rack 3 can be switched between a vertical state and a horizontal state, and the storage rack 3 and the bottom frame plate 1 are correspondingly provided with a limiting mechanism for limiting and fixing the storage rack 3 after the state is switched. As shown in fig. 1, the storage rack 3 at the left front side among the four storage racks 3 is in a vertical state, and the remaining three storage racks 3 are in a horizontal state, the horizontal state of the storage rack 3 being the non-use state of the present invention, and the vertical state of the storage rack 3 being the use state of the present invention.

As a further improvement of the present invention, the limiting mechanism comprises a limiting through hole 31 arranged at the hinged end of the storage rack 3, two limiting insertion holes 32 correspondingly distributed on the side wall of the chassis plate 1 and the bottom of the chassis plate 1, and a limiting bolt 33 passing through the limiting through hole 31 and inserted into the limiting insertion hole 32, wherein the two limiting insertion holes 32 are concentrically distributed with the hinged shaft of the storage rack 3 as the center of circle and have a corresponding central angle of 90 °.

As a further improvement of the invention, the upper end face of each limit supporting cushion block 5 is provided with a limit convex strip 51 with the same width as the limit convex strip. According to the invention, the limit support cushion block with the limit convex strips is arranged, so that the laminated plate is limited on the basis of supporting, and the damage to the laminated plate at the lower layer and the occurrence of safety accidents are avoided.

As a further improvement of the invention, the four stress transmission mechanisms respectively comprise a toothed plate 6 which is slidably arranged in the inner storage chamber 4 and a rotating gear 7 which is coaxially connected with the limiting support cushion block 5 which is correspondingly connected, wherein the toothed plate 6 in the lowest stress transmission mechanism is connected with the power input mechanism.

As a further improvement of the invention, the upper ends of toothed plates 6 in the stress transmission mechanisms except the uppermost stress transmission mechanism are provided with a transmission guide rod 8. There is a determining deviation between the pinion rack 6 in the pinion rack 6 and the drive guide rod 8 on the pinion rack 6 in every atress drive mechanism, and the length looks adaptation of tooth number on this interval and the pinion rack 6 for after pinion rack 6 and the final drive wheel 7 that corresponds accomplished the meshing rotation, terminal surface laminating under the last pole portion of drive guide rod 8 and the pinion rack 6 in the atress drive mechanism of top. The transmission guide rod 8 is used for transmitting the acting force in the current stress transmission mechanism to the toothed plate 6 in the upper stress transmission mechanism, driving the toothed plate 6 in the upper stress transmission mechanism to slide upwards and further driving the limiting support cushion block 5 correspondingly connected with the toothed plate to swing clockwise to extend out.

As a further improvement of the present invention, the toothed plates 6 of the force-receiving transmission mechanisms except for the lowest force-receiving transmission mechanism are correspondingly connected with a return spring 12, and the other end of the return spring 12 is installed in the storage inner chamber 4. The return spring 12 is used for returning the toothed plate 6 to the original position through the elastic acting force of the return spring 12 when the toothed plate 6 in the stress transmission mechanism except the lowest stress transmission mechanism loses the upward acting force applied to the toothed plate by the transmission guide rod 8, so that the toothed plate 6 is rotated counterclockwise by the limit support cushion block 5 correspondingly connected with the toothed plate and retracted into the storage inner chamber 4, and the laminated plate on the next layer can be used conveniently.

As a further improvement of the present invention, the power input mechanism comprises a rack 9 correspondingly connected with the toothed plate 6, a driving gear 10 in meshed connection with the rack 9, and a rotary knob 11 coaxially connected with the driving gear 10 and located outside the storage rack 3. The length requirement of rack 9 is at least four times of the length of the number of teeth on pinion rack 6 to guarantee that pinion rack 6 in the atress drive mechanism of the top side also can receive the effort that below transmission guide arm 8 promoted upwards.

According to the invention, the stress transmission mechanism and the power input mechanism which drive the limiting support cushion block to extend and retract in a rotating manner are arranged, so that manual placement and removal are not required, potential safety hazards are eliminated, the laminated slab can be rapidly placed or taken, and the influence on the construction speed and efficiency is reduced.

The working principle is as follows:

when the storage rack is not used, the four storage racks 3 are in a horizontal state and are limited and fixed through the limiting bolts 33, and when the storage rack is used, the four storage racks 3 are manually and sequentially rotated to be in a vertical state and then are limited and fixed through the limiting bolts 33.

After the four storage racks 3 are all in the vertical state, the superimposed sheet starts to be placed. The laminated slab of the first layer is directly placed on the fixed type limiting base plate 2, after the first layer is placed, the rotating knobs 11 on the four storage racks 3 are sequentially rotated, the driving gears 10 drive the racks 9 to move upwards by rotating the knobs 11, the racks 9 move upwards while the toothed plates 6 in the lowest stressed transmission mechanism synchronously move upwards and are meshed with the corresponding rotating gears 7 to rotate, the limiting support cushion blocks 5 corresponding to the rotating gears 7 clockwise extend out of the storage inner chamber 4, the lower end faces of the limiting support cushion blocks are attached to the upper plate face of the laminated slab of the first layer, after the lower end faces are attached to the upper plate face of the laminated slab of the first layer, the toothed plates 6 are preliminarily disengaged from the rotating gears 7, the transmission guide rods 8 on the toothed plates 6 in the lowest stressed transmission mechanism are attached to the lower end faces of the toothed plates 6 in the second stressed transmission mechanism, and after the four limiting support cushion blocks 5 of the first layer from bottom to top extend out, the second laminated plywood begins to be placed, after the second laminated plywood is placed, the rotating knobs 11 on the four storage racks 3 are rotated again, the driving gears 10 drive the racks 9 to move upwards again through the rotating knobs 11, the racks 9 move upwards again, meanwhile, the toothed plates 6 in the stress transmission mechanisms on the second layer move upwards through the transmission guide rods 8 and are meshed with the corresponding rotating gears 7 to rotate, the limiting support cushion blocks 5 corresponding to the rotating gears 7 clockwise extend out of the storage inner chamber 4, the lower end faces of the toothed plates are attached to the upper plate faces of the laminated plywood on the second layer, after the lower end faces of the toothed plates are attached to the upper plate faces of the laminated plywood on the second layer, the toothed plates 6 on the current layer are preliminarily disengaged from the corresponding rotating gears 7, the transmission guide rods 8 on the toothed plates 6 in the stress transmission mechanisms on the second layer are attached to the lower end faces of the toothed plates 6 in the stress transmission mechanisms on the third layer, after the four limit supporting cushion blocks 5 on the second layer all extend out, the third layer of laminated slab begins to be placed, after the third layer of laminated slab is placed, the rotating knob 11 on the four storage racks 3 is rotated again, the driving gear 10 drives the rack 9 to move upwards again by rotating the knob 11, the rack 9 moves upwards again while passing through the transmission guide rod 8 on the first layer, the transmission guide rod 8 on the second layer enables the toothed plate 6 in the stress transmission mechanism on the third layer to move upwards and is meshed with the corresponding rotating gear 7 to rotate, the limit supporting cushion block 5 corresponding to the rotating gear 7 clockwise rotates and extends out of the storage inner chamber 4, the lower end face of the limit supporting cushion block is attached to the upper plate face of the laminated slab on the third layer, after the lower end face is attached to the upper plate face of the laminated slab on the third layer, the toothed plate 6 on the current layer is separated from the corresponding rotating gear 7 to be preliminarily meshed with the rotating gear 8 on the toothed plate 6 in the stress transmission mechanism on the third layer, and the toothed guide rod 8 in the stress transmission mechanism on the fourth layer The lower end faces of the plates 6 are attached, after the four limit support cushion blocks 5 on the third layer extend out completely, a fourth laminated plywood is placed, after the fourth laminated plywood is placed, the rotating knob 11 on the four storage racks 3 is rotated again, the rack 9 is driven to move upwards again by the driving gear 10 through the rotating knob 11, the rack 9 moves upwards again, the toothed plate 6 in the stress transmission mechanism on the fourth layer moves upwards through the transmission guide rod 8 on the first layer, the transmission guide rod 8 on the second layer and the transmission guide rod 8 on the third layer, and is meshed with the corresponding rotating gear 7 to rotate, so that the limit support cushion block 5 corresponding to the rotating gear 7 rotates clockwise to extend out of the storage inner chamber 4, the lower end face of the limit support cushion block is attached to the upper plate face of the fourth laminated plywood, after the lower end face is attached to the upper plate face of the laminated plywood on the fourth layer, the four limit support cushion blocks 5 on the fourth layer extend out completely, and (5) starting to place the fifth laminated slab, and completely finishing the placing process after the fifth laminated slab is placed.

In the process that the limiting supporting cushion blocks 5 on the third layer, the fourth layer and the fifth layer rotate clockwise to extend, the reset springs 12 in the corresponding stress transmission mechanisms are stressed to stretch, and in the process of storing the laminated slabs, the reset springs 12 keep the stretching state. After the laminated slab is placed, the knob 11 is rotated reversely, so that the rack 9 drives the toothed plate 6 connected with the rack to synchronously move downwards until the toothed plate 6 is about to be meshed with the limiting support cushion block 5 of the first layer, and the corresponding transmission guide rod 8 synchronously moves downwards, so that the toothed plate 6 in the stress transmission mechanism of the second layer loses the jacking acting force and is about to be meshed with the limiting support cushion block 5 of the second layer under the acting force of the return spring 12; in a similar way, the toothed plate 6 in the third-layer stress transmission mechanism loses the jacking acting force and is meshed with the limit supporting cushion block 5 of the third layer under the acting force of the return spring 12 until the third-layer stress transmission mechanism is about to be meshed; the toothed plate 6 in the fourth layer stress transmission mechanism loses the jacking acting force and is about to be meshed with the limiting supporting cushion block 5 of the fourth layer under the acting force of the return spring 12.

When the superimposed sheet was got and is used, earlier take from fifth layer superimposed sheet, after fifth layer, fourth layer, the superimposed sheet of third layer was taken away, pinion rack 6 among the atress drive mechanism continued downward movement under the effort of reset spring 12 that corresponds, pinion rack 6 rotated with the running gear 7 that corresponds is engaged with again to make running gear 7 anticlockwise rotation, thereby make corresponding spacing lip block 5 anticlockwise rotation receive deposit in interior chamber 4. And after the laminated slab of the second layer is taken away, the corresponding limit supporting cushion block 5 is retracted by reversely rotating the knob 11. After the laminated boards are completely taken away, the four storage racks 3 are manually rotated to be in a horizontal state again, and then are limited and fixed through the limiting bolts 33.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but that various changes and modifications may be made without departing from the spirit and scope of the invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. The utility model provides an equipment is deposited from carrying formula superimposed sheet of easily getting, includes bottom plate board (1) that has the support leg, corresponds fixed spacing backing plate (2) that distribute around bottom plate board (1) up end, its characterized in that: the left side plate wall and the right side plate wall of the bottom frame plate (1) are respectively provided with storage racks (3) which are symmetrically distributed in the front-back direction, the lower end parts of the storage racks are hinged to the side plate walls of the bottom frame plate (1), each storage rack (3) is internally provided with a storage inner chamber (4), each storage inner chamber (4) is internally provided with four limiting supporting cushion blocks (5) which are sequentially hinged and distributed from bottom to top, and four stress transmission mechanisms which are positioned at the side edges of the four limiting supporting cushion blocks (5) and are correspondingly connected with the four limiting supporting cushion blocks, the four stress transmission mechanisms are sequentially distributed and only bear unidirectional upward acting force, the hinged end parts of the storage racks (3) are provided with power input mechanisms, and the power input mechanisms are connected with the stress transmission mechanisms at the lowest side;

the four stress transmission mechanisms respectively comprise toothed plates (6) which are arranged in the inner storage chamber (4) in a sliding mode and rotating gears (7) which are coaxially connected with limiting supporting cushion blocks (5) which are correspondingly connected, wherein the toothed plate (6) in the lowest stress transmission mechanism is connected with the power input mechanism;

the upper ends of toothed plates (6) in the stress transmission mechanisms except the stress transmission mechanism at the uppermost side are provided with a transmission guide rod (8);

the toothed plates (6) in the stress transmission mechanisms except the lowest stress transmission mechanism are correspondingly connected with a return spring (12), and the other end of the return spring (12) is arranged in the storage inner chamber (4);

the power input mechanism comprises a rack (9) correspondingly connected with the toothed plate (6), a driving gear (10) in meshed connection with the rack (9), and a rotating knob (11) which is coaxially connected with the driving gear (10) and is positioned outside the storage rack (3);

after the lowest stressed transmission mechanism is continuously powered by the power input mechanism, the limiting support cushion blocks (5) connected with the lowest stressed transmission mechanism swing clockwise to extend out of the inner cavity (4) for storage, then acting force is transmitted to the other three stressed transmission mechanisms, and the limiting support cushion blocks (5) corresponding to the other stressed transmission mechanisms sequentially swing clockwise to extend out of the inner cavity (4) for storage so as to support the limiting laminated slab, so that the laminated slab is stored.

2. The self-loading easy access stacking system of claim 1, wherein: storage rack (3) can switch between vertical state and the horizontality, be equipped with on storage rack (3) and bottom plate board (1) correspondingly and be used for switching the state after carry out spacing fixed stop gear to storage rack (3).

3. The self-loading easy access stacking unit storage facility of claim 2 further comprising: the limiting mechanism comprises a limiting through hole (31) arranged at the hinged end of the storage rack (3), two limiting insertion holes (32) correspondingly distributed in the side plate wall of the bottom plate (1) and the bottom of the bottom plate (1), and a limiting bolt (33) penetrating through the limiting through hole (31) and inserted into the limiting insertion hole (32), wherein the two limiting insertion holes (32) are concentrically distributed by taking a hinged shaft of the storage rack (3) as a circle center and correspond to the circle center angle of 90 degrees.

4. The self-loading easy access stacking unit storage facility of claim 1 further comprising: the upper end surface of each limiting supporting cushion block (5) is provided with a limiting convex strip (51) with the same width as the limiting supporting cushion block.