CN215045303U - Frame is put in inserting of assembled concrete structure component - Google Patents

Abstract

The utility model discloses a frame is put in inserting of assembled concrete structure component, can be at the bracing piece of horizontal plane internal rotation through setting up, change the angle of bracing piece, support assembled concrete structure prefabricated component and separate the space as a support pad when a pair of bracing piece is parallel to each other, avoid collision or extrusion damage between the adjacent prefabricated component, when a pair of bracing piece is located same straight line, change the elevation of bracing piece through operation hoisting frame cooperation and bracing piece articulated slider, can be applicable to in a flexible way and put with inserting of high size's prefabricated component.

Description

Frame is put in inserting of assembled concrete structure component

Technical Field

The utility model relates to an assembly type structure construction technical field. More specifically, the utility model relates to a frame is put to prefabricated concrete structure component.

Background

The prefabricated building is assembled by a plurality of prefabricated building components, the prefabricated components are processed in a factory and then transported to a construction site, the main types of the prefabricated components mainly comprise wall boards, laminated slabs, balconies, air-conditioning boards, stairs, prefabricated beams and the like, the prefabricated components are usually required to be stored in the construction site, the stacking frames of different types are designed according to the types or sizes of the prefabricated components, the stacking frames cannot be adjusted according to actual conditions, and the universality is poor.

SUMMERY OF THE UTILITY MODEL

The utility model aims at providing a frame is put in inserting of assembled concrete structure component to solve among the prior art assembled concrete structure component insert put the frame flexibility poor, can not carry out the technical problem who adjusts according to the demand of depositing of difference.

To achieve these objects and other advantages in accordance with the purpose of the invention, there is provided a fabricated concrete structure member inserting frame, including:

a bottom plate horizontally disposed;

the supporting frame comprises a pair of vertical rods and a cross rod connected between the upper ends of the vertical rods, the lower ends of the vertical rods are symmetrically fixed at two ends of the bottom plate positioned on the same side, and the middle part of the cross rod is provided with a first vertically-through limiting hole;

the supporting rods are arranged between the vertical rods, one end, which is opposite to each other and far away from each other, of each pair of supporting rods is hinged with a sliding block in the horizontal direction, and each sliding block is connected with the vertical rod on the corresponding side in a sliding mode in the vertical direction;

the hoisting frame, it includes the C shape pole of vertical setting, C shape pole includes upper horizontal part, lower horizontal part and vertical portion, the top surface of upper horizontal part upwards connects and is provided with the gag lever post, the upper end of gag lever post upwards passes first spacing hole, the opening of C shape pole sets up towards the center level of bottom plate, the tip of upper horizontal part is provided with shelves pole downwards, enclose into the groove that link up that holds the tip of bracing piece between shelves pole and the C shape pole, every one end that the bracing piece is close to each other all is located the inslot that links up, the lower extreme of shelves pole is not less than the thickness of a bracing piece and is less than the thickness of two bracing pieces with the distance of lower horizontal part.

Preferably, the ends of each pair of support rods close to each other are respectively provided with a bearing part and a socket part which are matched with each other.

Preferably, the upper end of the limiting rod is provided with a plurality of pin holes which are horizontal in the vertical direction at intervals, and a bolt is inserted into one of the pin holes.

Preferably, a pair of cushion blocks are fixed on the bottom plate, each cushion block is respectively positioned right below the sliding block on one side, and the height of each cushion block is consistent with that of the lower horizontal part.

Preferably, a second vertically through limiting hole is formed in the end portion of the upper horizontal portion, the stop lever penetrates through the second limiting hole downwards, and a stop block with a size larger than that of the second limiting hole is arranged at the upper end of the stop lever.

Preferably, the outer sides of all the sliding blocks positioned at the same side are provided with a vertical side plate, the side plate is arranged close to the outer side of the sliding block, and the lower end of the side plate is fixed on the bottom plate.

Preferably, the bottom plate is provided with a through hole.

The utility model discloses at least, include following beneficial effect: the utility model changes the angle of the supporting rod by arranging the supporting rod which can rotate in the horizontal plane, supports the prefabricated component of the prefabricated concrete structure as a support pad and separates a gap when a pair of supporting rods are parallel to each other, avoids collision or extrusion damage between adjacent prefabricated components, changes the elevation of the supporting rod by operating the lifting frame to match the sliding block hinged with the supporting rod when a pair of supporting rods are positioned on the same straight line, and can be flexibly suitable for inserting and placing the prefabricated component without height and size; the height positions of the lifting frame and the supporting rod in the through groove are conveniently and temporarily fixed by arranging the pin hole and the bolt on the limiting rod; through setting up a grade pole into the structure that can reciprocate relative hoisting frame, change the space length between the lower extreme of grade pole and the lower horizontal part according to the operation needs, make things convenient for spacing and remove many pairs of bracing pieces, improve operating personnel's work efficiency and work convenience.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

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

fig. 2 is a top view structural diagram of the support rod of the present invention when the support rod is located in the through groove;

FIG. 3 is a top view of the supporting rod as a support pad;

fig. 4 is a side view structural diagram of the a-a direction of fig. 3 according to the present invention;

fig. 5 is a schematic structural diagram of the lifting frame of the present invention.

The specification reference numbers indicate: 1. the device comprises a bottom plate, 2, vertical rods, 3, a cross rod, 4, a support rod, 5, a sliding block, 6, an upper horizontal part, 7, a lower horizontal part, 8, a vertical part, 9, a limiting rod, 10, a stop rod, 11, a through groove, 12, a bearing part, 13, a socket part, 14, a pin hole, 15, a cushion block, 16, a stop block, 17, a side plate, 18, a through hole, 19 and a gap.

Detailed Description

The present invention is further described in detail below with reference to the drawings so that those skilled in the art can implement the invention with reference to the description.

In the description of the present invention, the terms "lateral", "longitudinal", "up", "down", "front", "back", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outer", etc. indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplicity of description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore, should not be construed as limiting the present invention.

As shown in fig. 1-5, the present invention provides a frame for inserting and placing prefabricated concrete structural members, comprising:

a base plate 1 disposed horizontally;

the supporting frame comprises a pair of vertical rods 2 and a cross rod 3 connected between the upper ends of the vertical rods 2, the lower ends of the vertical rods 2 are symmetrically fixed at two ends of the bottom plate 1 which are positioned at the same side, and the middle part of the cross rod 3 is provided with a first vertically-through limiting hole;

the supporting rods 4 are arranged between the vertical rods 2, one end, far away from each other, of each pair of supporting rods 4 is hinged with a sliding block 5 in the horizontal direction, and each sliding block 5 is connected with the vertical rod 2 on the corresponding side in a sliding mode in the vertical direction;

the hoisting frame, it includes the C shape pole of vertical setting, C shape pole includes horizontal part 6, horizontal part 7 and vertical portion 8 down, the top surface of going up horizontal part 6 upwards connects and is provided with gag lever post 9, first spacing hole is upwards passed to the upper end of gag lever post 9, the opening of C shape pole sets up towards the center level of bottom plate 1, the tip of going up horizontal part 6 is provided with shelves pole 10 downwards, enclose into the groove 11 that link up that holds the tip of bracing piece 4 between shelves pole 10 and the C shape pole, every one end that bracing piece 4 is close to each other all is located link up the inslot 11, the lower extreme of shelves pole 10 and the distance of horizontal part 7 down are not less than the thickness of a bracing piece 4 and are less than the thickness of two bracing pieces 4.

The utility model is placed on the site where the fabricated concrete structural member is to be stored, a pair of vertical rods 2 are symmetrically arranged on the bottom plate 1, the first limiting hole positioned in the middle of the cross rod 3 is aligned with the central line of the bottom plate 1, before use, as shown in fig. 2, each pair of support rods 4 are horizontally arranged in opposite directions and are positioned on the same straight line, the opposite end of each pair of support rods 4 is positioned in the through groove 11, the height of the through groove 11 is not less than the sum of the thicknesses of all the pairs of support rods 4, all the pairs of support rods 4 are vertically stacked and arranged along the through groove 11, namely, the pair of supporting rods 4 of the upper layer is integrally supported on the pair of supporting rods 4 of the adjacent lower layer, correspondingly, the slide block 5 on the upper layer is supported on the slide block 5 on the lower layer, and a gap 19 for the pair of support rods 4 at the bottommost layer in the through groove 11 to leave outwards is formed between the lower end of the stop rod 10 and the lower horizontal part 7 by the set distance.

Adjusting the lifting frames and the support rods 4 according to the types and sizes of the prefabricated concrete structural components to be stored, if the prefabricated concrete structural components to be stored can be directly superposed on the components themselves, the prefabricated concrete structural components can be directly and sequentially stacked upwards on the bottom plate 1, when most of the prefabricated concrete structural components needing to be provided with the cushion blocks 15 between each layer of components are stored, firstly, a first component is placed on the bottom plate 1, then, the lifting frames are lifted upwards, the through grooves 11 are higher than the surfaces of the first component, the limiting rods 9 move upwards along the first limiting holes so as to limit the lifting frames, one pair of support rods 4 at the lowest layer of the through grooves 11, namely, the ends, close to each other, of the first pair of support rods 4 from bottom to top are horizontally pushed towards the center of the bottom plate 1, the first pair of support rods 4 rotate around the hinged slide blocks 5 in the horizontal plane and outwards leave from the gaps 19 until the support rods 4 rotate 90 degrees and are perpendicular to a connecting line between the pair of vertical rods 2 as shown in figure 1, then the first pair of support rods 4 move downwards under the sliding action between the corresponding slide blocks 5 and the vertical rods 2 until the first pair of support rods fall on the upper surface of the first member to serve as a support pad, so that the support rods have the same function as a support pad used in the traditional stacking of members, then, a second member is placed on the first pair of support rods 4, the lifting frame is lifted upwards to make the through groove 11 higher than the surface of the second member, then the pair of support rods 4 at the lowest layer of the through groove 11, namely, the ends, close to each other, of the second pair of support rods 4 from bottom to top are pushed, the second pair of support rods 4 rotate around the hinged slide block 5 in the horizontal plane and leave the gap 19 until the second pair of support rods are aligned with the first pair of support rods 4 in parallel, the steps are repeated, the members are alternately stacked and the pair of support rods 4 are paid out in sequence to serve as support pads, so that the support rods 4 reach the state shown in fig. 3 and 4, and the stacking work of a plurality of members is completed.

When the components are taken away from top to bottom in sequence, the lifting frame is firstly lifted to the uppermost end, the pair of supporting rods 4 at the uppermost end are aligned with the gap 19, the supporting rods 4 are rotated to enable the ends close to each other to enter the gap 19, then the lifting frame is moved downwards to enable the gap 19 to correspond to the pair of supporting rods 4 at the next upper end, the components at the next upper end are taken away and the corresponding pair of supporting rods 4 are rotated, the pair of supporting rods 4 at the next upper end pass through the gap 19 to enter the through groove 11, due to the stacking effect of the sliding blocks 5, when the lifting frame moves downwards, the sliding blocks 5 hinged with the pair of supporting rods 4 at the uppermost end are abutted by the sliding blocks 5 hinged with the pair of supporting rods 4 at the next upper end to prevent the sliding blocks from moving downwards, all the supporting rods 4 can be accommodated by repeating the steps, the pair of supporting rods 4 at the lowermost layer cannot be easily found to rotate under the gravity action of the supporting rods 4 at the upper supporting rods 4, and other supporting rods 4 are under the action of the blocking rods 10, the rotation in the horizontal plane can not occur, and the rotation only moves along with the lifting frame in the vertical direction.

Through setting up bracing piece 4 that can be at the horizontal plane internal rotation, change the angle of bracing piece 4, support assembled concrete structure prefabricated component and separate out space 19 as a bolster when a pair of bracing piece 4 is parallel to each other, avoid collision or extrusion damage between the prefabricated component, when a pair of bracing piece 4 is located same straight line, through operation hoisting frame cooperation and bracing piece 4 articulated slider 5 change the elevation of bracing piece 4, can be applicable to in a flexible way and put without inserting of height dimension's prefabricated component.

In another technical solution, as shown in fig. 1 to 4, the ends of each pair of support rods 4 close to each other are respectively provided as a socket part 12 and a socket part 13 which are matched with each other.

Through setting up each to bracing piece 4 one end that is close to each other to the structure that can mutually support, when every to bracing piece 4 rotation when being located same straight line, strengthen structure complex steadiness in vertical, make things convenient for the hoisting frame to promote or move down the operation every to bracing piece 4, simultaneously, can also reduce the length of whole device in an appropriate amount, reduce the volume and occupy, be convenient for accomodate.

In another technical scheme, as shown in fig. 5, a plurality of pin holes 14 which are horizontal in the direction are formed in the upper end of the limiting rod 9 at intervals along the vertical direction, and a pin is inserted into one pin hole 14.

Through setting up pinhole 14, when promoting the hoisting frame to being located 3 top part height of horizontal pole through gag lever post 9, insert the bolt and be located 3 tops of horizontal pole and be closest to a pinhole 14 of horizontal pole 3 in, support gag lever post 9, the hoisting frame height this moment is certain, makes things convenient for the manual work to operate bracing piece 4.

In another technical solution, as shown in fig. 1 and 4, a pair of spacers 15 is fixed on the bottom plate 1, each spacer 15 is respectively located right below the slider 5 on one side, and the height of the spacer 15 is the same as the height of the lower horizontal portion 7.

Through the arrangement of the cushion blocks 15, the pair of support rods 4 at the bottom can keep a certain height from the bottom plate 1, and the pair of support rods 4 at the bottom can conveniently rotate to enter the gaps 19.

In another technical solution, as shown in fig. 1 and 5, a second vertically through-going limiting hole is formed in an end portion of the upper horizontal portion 6, the stop lever downwardly penetrates through the second limiting hole, and a stop 16 with a size larger than that of the second limiting hole is disposed at an upper end of the stop lever 10.

Through setting up the spacing hole of second, make shelves pole 10 can follow the spacing up-and-down motion of second, mention a grade pole 10 like this and can control 19 sizes in space, once only operate and get into the position of lining up groove 11 to bracing piece 4 more, then transfer shelves pole 10, dog 16 is spacing to shelves pole 10 blocks bracing piece 4, prevents that bracing piece 4 from taking place to rotate in the surface of water direction.

In another technical scheme, as shown in fig. 2 and 3, a vertical side plate 17 is disposed on the outer sides of all the sliders 5 located on the same side, the side plate 17 is disposed close to the outer side of the slider 5, and the lower end of the side plate is fixed to the bottom plate 1.

Through setting up curb plate 17, make curb plate 17 contact the outside of slider 5 basically but do not influence the rotation of bracing piece 4, when swivelling joint pole 4 like this, the outside of bracing piece 4 is contradicted curb plate 17 and is for rotatory 90 degrees, makes things convenient for the fast turn of all bracing pieces 4 to the position and align.

In another technical scheme, as shown in fig. 2 and 3, a through hole 18 is formed in the bottom plate 1.

Through setting up through-hole 18 and lightening the convenient whole transportation of weight of bottom plate 1, through-hole 18 can design according to the structural feature of concrete structure component, makes partial reinforcing bar be located the position of through-hole 18, avoids causing the damage to the reinforcing bar.

To sum up, the assembled concrete structure member inserting and placing frame of the present invention changes the angle of the supporting rods by arranging the supporting rods capable of rotating in the horizontal plane, supports the assembled concrete structure prefabricated members as a support pad and separates the gap when a pair of supporting rods are parallel to each other, thereby avoiding collision or extrusion damage between adjacent prefabricated members, changes the elevation of the supporting rods by operating the lifting frame to cooperate with the slider hinged to the supporting rods when a pair of supporting rods are positioned on the same straight line, can be flexibly applied to the inserting and placing of the prefabricated members without height dimension, and in addition, facilitates the temporary fixing of the height position of the lifting frame and the supporting rods penetrating through the groove by arranging the pin holes and the pins on the limiting rods, sets the blocking rods into a structure capable of moving up and down relative to the lifting frame, changes the gap length between the lower end of the blocking rods and the lower horizontal part according to the operation requirement, make things convenient for spacing and remove many pairs of bracing pieces, improve operating personnel's work efficiency and work convenience.

While the embodiments of the invention have been disclosed above, it is not limited to the applications set forth in the description and illustrated embodiments, but is capable of being applied in all kinds of fields adapted to the invention, and further modifications may readily be made by those skilled in the art, and the invention is therefore not limited to the details given herein and to the drawings described herein, without departing from the general concept defined by the appended claims and their equivalents.

Claims (7)

1. A fabricated concrete structure member inserting frame, comprising:

a bottom plate horizontally disposed;

the supporting frame comprises a pair of vertical rods and a cross rod connected between the upper ends of the vertical rods, the lower ends of the vertical rods are symmetrically fixed at two ends of the bottom plate positioned on the same side, and the middle part of the cross rod is provided with a first vertically-through limiting hole;

the supporting rods are arranged between the vertical rods, one end, which is opposite to each other and far away from each other, of each pair of supporting rods is hinged with a sliding block in the horizontal direction, and each sliding block is connected with the vertical rod on the corresponding side in a sliding mode in the vertical direction;

the hoisting frame, it includes the C shape pole of vertical setting, C shape pole includes upper horizontal part, lower horizontal part and vertical portion, the top surface of upper horizontal part upwards connects and is provided with the gag lever post, the upper end of gag lever post upwards passes first spacing hole, the opening of C shape pole sets up towards the center level of bottom plate, the tip of upper horizontal part is provided with shelves pole downwards, enclose into the groove that link up that holds the tip of bracing piece between shelves pole and the C shape pole, every one end that the bracing piece is close to each other all is located the inslot that links up, the lower extreme of shelves pole is not less than the thickness of a bracing piece and is less than the thickness of two bracing pieces with the distance of lower horizontal part.

2. A fabricated concrete structure element inserting and placing frame as recited in claim 1, wherein the ends of each pair of supporting rods adjacent to each other are respectively provided as a receiving portion and a receiving portion which are engaged with each other.

3. The fabricated concrete structure element inserting and placing frame as claimed in claim 1, wherein the upper end of the position-limiting rod is provided with a plurality of horizontally oriented pin holes at intervals in the vertical direction, and a pin is inserted and arranged in one of the pin holes.

4. The fabricated concrete structure member inserting and placing frame as set forth in claim 1, wherein a pair of spacers are fixed to said bottom plate, each spacer being located directly below said slider on one side thereof, respectively, and the height of the spacer is identical to the height of said lower horizontal portion.

5. The frame of claim 1, wherein the upper horizontal portion has a second vertical through hole at an end thereof, the stop rod is downwardly inserted into the second through hole, and a stop block having a size larger than that of the second through hole is provided at an upper end of the stop rod.

6. The fabricated concrete structure element inserting and placing frame as claimed in claim 1, wherein a vertical side plate is provided on the outer side of all the sliding blocks located on the same side, the side plate is provided adjacent to the outer side of the sliding blocks and the lower end thereof is fixed to the bottom plate.

7. The fabricated concrete structure element inserting and placing frame as recited in claim 1, wherein said bottom plate is provided with a through hole.

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