CN109760191B - Subassembly and mounting structure are placed to concrete curing box test block - Google Patents

Abstract

The invention discloses a concrete curing box test block placing assembly and a mounting structure, which comprise a limiting piece, a supporting rod and a sliding supporting main body, wherein the lower side of the limiting piece is connected with the sliding supporting main body, a ball is arranged between the sliding supporting main body and the limiting piece, a first supporting piece and the supporting rod are fixed on the inner side of the sliding supporting main body, the supporting rod is positioned on the lower side of the first supporting piece, a second through hole is formed in the second spacing piece, the lower end of the second spacing piece is connected with the second supporting piece through a magnet piece, a fixing groove is formed in the limiting piece, and a first fixing bolt is arranged inside the fixing groove. This subassembly and mounting structure are placed to concrete curing box test block can make things convenient for the dismouting between bracing piece and first space piece and the second backing sheet to conveniently change the support size of this structure to the test block, make this structure can use with not unidimensional test block, thereby improved the use value of this structure.

Description

Subassembly and mounting structure are placed to concrete curing box test block

Technical Field

The invention relates to the technical field of concrete curing boxes, in particular to a concrete curing box test block placing assembly and a mounting structure.

Background

The concrete curing box is used for the constant-temperature and constant-humidity standard curing of a concrete test piece, is an ideal device for curing the concrete test piece in a laboratory and a quality inspection center, and generally needs a specific test block to be matched with the concrete curing box when the concrete curing box is used, but the state of the test block in the concrete curing box also needs to be limited to a certain extent, so that some placing structures are needed to be matched with the test block, but the using functions of some structures for placing the test block are too simple;

for example, some place between the structure simple arrange the test block and place, do not have the structure of restriction test block, just so can't avoid the test block situation that the displacement appears in the concrete curing box to can lead to the service condition of test block to change, influence the normal work of concrete curing box, when meetting the test block of some special dimensions, the conventional structure of placing also can't satisfy the user demand of diversified test block, will just reduce the use value of placing the structure.

We have therefore proposed a concrete curing box test block placing assembly and mounting structure so as to solve the problems set forth above.

Disclosure of Invention

The invention aims to provide a concrete curing box test block placing assembly and a mounting structure, and aims to solve the problems that the existing placing structures in the background technology cannot ensure the stable placing state of test blocks and cannot meet the use requirements of diversified test blocks.

In order to achieve the purpose, the invention provides the following technical scheme: a concrete curing box test block placing component comprises a limiting piece, a supporting rod and a sliding supporting main body, wherein the lower side of the limiting piece is connected with the sliding supporting main body, a ball is arranged between the sliding supporting main body and the limiting piece, the limiting piece is connected with the sliding supporting main body through a first fixing bolt, a first supporting piece and the supporting rod are fixed on the inner side of the sliding supporting main body, the supporting rod is positioned on the lower side of the first supporting piece, a connecting seat is connected onto the supporting rod, a first spacing piece and a second spacing piece are fixed on the upper side of the connecting seat, a first through hole is formed in the second supporting piece, a second spacing piece is arranged on the upper sides of the first spacing piece and the second spacing piece, a concrete test block is arranged between the second spacing piece and the first spacing piece and the second supporting piece, a second through hole is formed in the second spacing piece, and the lower end of the second spacing piece is connected with the second supporting piece through a magnet piece, the connecting seat is provided with a second fixing bolt, the first spacing piece is provided with a third through hole, the sliding support main body is provided with a fourth through hole inside, the limiting piece is provided with a fixing groove, and the fixing groove is provided with a first fixing bolt inside.

Preferably, the limiting pieces and the balls are provided with two groups, the two groups are respectively located on the upper side and the lower side of the sliding support main body, and the fixing grooves in the limiting pieces are embedded into the inner side of the sliding support main body.

Preferably, the balls protrude out of the limiting piece, the middle positions of the balls are located at the connecting position of the limiting piece and the sliding support main body, and the fourth through holes in the sliding support main body correspond to the positions of the balls one to one.

Preferably, first support piece, bracing piece and slip support the main part and constitute the integral structure, and the side of going up of first support piece and second support piece is the parallel and level mutually to first through-hole has all been seted up on first support piece and the second support piece.

Preferably, the support rod is in a regular quadrangular prism shape, the size of the support rod is equal to the size of the inner side of the connecting seat, the connecting seat is in an Jiong shape, and the connecting seat and the support rod are movably sleeved.

Preferably, the connecting seat, the first spacing piece and the second supporting piece are of an integrated structure, and the first spacing piece and the second supporting piece form a reverse-inverted T shape.

Preferably, the size of the inner side through opening of the second spacing sheet is equal to the size of the section of the first spacing sheet, and the thickness of the second spacing sheet and the thickness of the first spacing sheet are both larger than 1 CM.

Preferably, the front end of the second fixing bolt penetrates through the connecting seat and is in contact connection with the supporting rod, the second fixing bolt is an inner hexagon bolt, and the second fixing bolt is staggered with the first spacing piece and the second supporting piece in the upper and lower positions.

The invention also provides the following technical scheme: the utility model provides a concrete curing box test block mounting structure, includes as above the subassembly is placed to concrete curing box test block.

Compared with the prior art, the invention has the beneficial effects that: the concrete curing box test block placing component and the mounting structure;

(1) the upper side and the lower side of the sliding support main body are provided with the limiting pieces and the balls, the whole structure can be conveniently moved through the balls, so that the structure is convenient to use, the balls can be stabilized through the limiting pieces, and the balls can be conveniently replaced;

(3) the inner side of the sliding support main body is provided with the plurality of support rods, so that the support stability effect of the structure on the test block can be ensured, the connecting seat is arranged between the support rods and the first spacing piece and the second support piece, the support rods and the first spacing piece and the second support piece can be conveniently disassembled and assembled, the support size of the structure on the test block can be conveniently changed, the structure can use test blocks with different sizes, and the use value of the structure is improved;

(3) the first supporting sheet and the second supporting sheet are arranged on the structure, so that the stable supporting effect of the test block on the structure can be ensured, the adverse effect of the structure on the use of the test block is reduced by a small contact area, and the normal use effect of the test block is ensured;

(4) the first spacing piece and the second spacing piece are arranged on the structure, so that the distance between the test blocks can be effectively determined, the mutual adverse effect of the test blocks is avoided, and the stable and safe state of each test block on the structure is further ensured.

Drawings

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

FIG. 2 is a schematic view of the structure of the concrete test block on the supporting rod according to the present invention;

FIG. 3 is a schematic view of the connecting base of the present invention on the supporting rod;

FIG. 4 is a schematic diagram of a side view of a concrete block of the present invention on a support rod;

FIG. 5 is a schematic side view of the connecting base of the present invention on the supporting rod;

FIG. 6 is a schematic cross-sectional view of the ball of the present invention on the sliding support body;

FIG. 7 is a schematic view of a connection cross-sectional structure of the limiting plate and the sliding support body according to the present invention.

In the figure: 1. a limiting sheet; 2. a ball bearing; 3. a first securing latch; 4. a first support sheet; 5. a support bar; 6. a connecting seat; 7. a first spacer; 8. a second support sheet; 9. a first through hole; 10. a second spacer; 11. testing concrete blocks; 12. a second through hole; 13. a magnet piece; 14. a second securing latch; 15. a third through hole; 16. a sliding support body; 17. a fourth via hole; 18. and fixing the grooves.

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.

Example one

Referring to fig. 1-7, the concrete curing box test block placing assembly of the present embodiment includes a limiting plate 1, a ball 2, a first fixing bolt 3, a first supporting plate 4, a supporting rod 5, a connecting seat 6, a first spacing plate 7, a second supporting plate 8, a first through hole 9, a second spacing plate 10, a concrete test block 11, a second through hole 12, a magnet plate 13, a second fixing bolt 14, a third through hole 15, a sliding supporting body 16, a fourth through hole 17 and a fixing groove 18, wherein the sliding supporting body 16 is connected to a lower side of the limiting plate 1, the ball 2 is disposed between the sliding supporting body 16 and the limiting plate 1, the limiting plate 1 is connected to the sliding supporting body 16 through the first fixing bolt 3, the first supporting plate 4 and the supporting rod 5 are fixed to an inner side of the sliding supporting body 16, the supporting rod 5 is located at a lower side of the first supporting plate 4, the connecting seat 6 is connected to the supporting rod 5, and the upside of connecting seat 6 is fixed with first spacer 7 and second backing sheet 8, first through-hole 9 has been seted up on the second backing sheet 8, the upside of first spacer 7 and second backing sheet 8 is provided with second spacer 10, and be provided with concrete test block 11 between second spacer 10 and first spacer 7 and the second backing sheet 8, second through-hole 12 has been seted up on second spacer 10, and the lower extreme of second spacer 10 is connected with second backing sheet 8 through magnet piece 13, install second gim peg 14 on the connecting seat 6, third through-hole 15 has been seted up on the first spacer 7, fourth through-hole 17 has been seted up to the inside of sliding support main part 16, fixed slot 18 has been seted up on spacing piece 1, and fixed slot 18 is inside to be provided with first gim peg 3.

Spacing piece 1 and ball 2 are provided with two sets ofly, are located the upper and lower both sides of sliding support main part 16 respectively, and the fixed slot 18 on spacing piece 1 imbeds sliding support main part 16 inboard, can guarantee that sliding support main part 16 stabilizes the efficient slip process, has also guaranteed the firm of spacing piece 1 with sliding support main part 16 connected state.

The ball 2 protrudes out of the limiting sheet 1, the middle position of the ball 2 is located at the joint of the limiting sheet 1 and the sliding support main body 16, and the fourth through hole 17 in the sliding support main body 16 corresponds to the ball 2 in position one to one, so that the normal work of the ball 2 can be guaranteed, and the replacement of the ball 2 is facilitated.

First support sheet 4, bracing piece 5 and slip support subject 16 constitute the integral structure, and the side of going up of first support sheet 4 and second support sheet 8 is the parallel and level mutually to first through-hole 9 has all been seted up on first support sheet 4 and the second support sheet 8, can guarantee this bearing structure's steadiness ability, has also reduced the harmful effects of first support sheet 4 and second support sheet 8 to concrete test block 11.

Bracing piece 5 is positive quadrangular shape, and the overall dimension of bracing piece 5 equals the inboard size of connecting seat 6, and the appearance of connecting seat 6 is "Jiong" type, and cup joints for the activity between connecting seat 6 and the bracing piece 5, can guarantee the stable safety of connection status between connecting seat 6 and the bracing piece 5 to guarantee this stable in structure's supporting effect, also conveniently change the size of this structure simultaneously, improved the performance of this structure.

The connecting seat 6, the first spacing piece 7 and the second supporting piece 8 are of an integrated structure, the first spacing piece 7 and the second supporting piece 8 form a reverse-inverted T shape, and the stable supporting effect of the structure on the concrete test block 11 can be guaranteed.

The inboard opening size of second interval spacer 10 equals the tangent plane size of first interval spacer 7, and the thickness of second interval spacer 10 and first interval spacer 7 all is greater than 1CM, can make things convenient for the size of accurate control concrete test block 11 each other to 11 normal use of concrete test block has been guaranteed.

The front end of the second fixing bolt 14 penetrates through the connecting seat 6 and is in contact connection with the supporting rod 5, the second fixing bolt 14 is an inner hexagon bolt, the second fixing bolt 14 is staggered with the first spacing piece 7 and the second supporting piece 8 in the vertical direction, the stability of the connecting state between the connecting seat 6 and the supporting rod 5 can be guaranteed, and the second fixing bolt 14 is convenient to use.

Example two

Referring to fig. 1-7, a concrete curing box test block mounting structure of this embodiment includes a limiting piece 1, a ball 2, a first fixing bolt 3, a first supporting piece 4, a supporting rod 5, a connecting seat 6, a first spacing piece 7, a second supporting piece 8, a first through hole 9, a second spacing piece 10, a concrete test block 11, a second through hole 12, a magnet piece 13, a second fixing bolt 14, a third through hole 15, a sliding supporting body 16, a fourth through hole 17, and a fixing groove 18, when the concrete curing box is used to mount the concrete test block 11, a mounting structure of the concrete test block 11 needs to be mounted in the concrete curing box first to facilitate the mounting work of the concrete test block 11, the ball 2 needs to be mounted between the limiting piece 1 and the sliding supporting body 16 first, the limiting piece 1 and the sliding supporting body 16 are fixed together by the first fixing bolt 3, the 'Contraband' type sliding groove is fixed in advance in the concrete curing box, so that the sliding support main body 16 is inserted into the 'Contraband' type sliding groove on the concrete curing box, and the stable and efficient sliding work of the sliding support main body 16 in the sliding groove can be ensured through the balls 2 on the upper side and the lower side of the sliding support main body 16, so that the arrangement work of the structure in the concrete curing box can be conveniently completed;

then, the distance between the adjacent first spacing pieces 7 on the support rod 5 is determined according to the size of the concrete test block 11, so that the concrete test block 11 can be stably and safely placed on the second support pieces 8 between the adjacent first spacing pieces 7, when the distance between the adjacent first spacing pieces 7 is determined according to the size of the concrete test block 11, the position of the connecting seat 6 can be fixed on the support rod 5 by rotating the second fixing bolt 14, the distance between the adjacent first spacing pieces 7 can be ensured to be stable and unchanged, then according to the size, the first spacing pieces 7 are sequentially fixed, and after the position of the first spacing piece 7 on the support rod 5 is fixed, the placing work of the concrete test block 11 can be carried out;

when concrete test blocks 11 are placed, according to the use requirement of the concrete curing box, a certain distance needs to exist between the concrete test blocks 11, when the concrete test blocks 11 are fixedly placed on the structure, the distance between the concrete test blocks 11 needs to be fixed, because of the existence of the first spacing pieces 7, the distance between the concrete test blocks 11 at two sides of the first spacing pieces 7 does not need to be considered, when the concrete test blocks 11 are placed between the adjacent first spacing pieces 7, the second supporting pieces 8 on the adjacent first spacing pieces 7 can support the concrete test blocks 11, and when the adjacent concrete test blocks 11 are placed, the second spacing pieces 10 can be clamped on the first spacing pieces 7 and are close to the concrete test blocks 11, so that the second spacing pieces 10 are positioned between 2 concrete test blocks 11, the distance between 2 concrete test blocks 11 can be effectively limited, therefore, the safe distance between the concrete test blocks 11 is ensured, and the structure can be properly pulled out when the concrete test blocks 11 are placed, so that the concrete test blocks 11 can be conveniently placed at all positions of the structure, the use process of the structure is just the above, and the content which is not described in detail in the specification belongs to the prior art which is known by persons skilled in the art.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and/or modifications of the invention can be made, and equivalents and modifications of some features of the invention can be made without departing from the spirit and scope of the invention.

Claims (2)

1. The utility model provides a subassembly is placed to concrete curing box test block, includes spacing piece (1), bracing piece (5) and sliding support main part (16), its characterized in that: the lower side of the limiting sheet (1) is connected with a sliding support main body (16), balls (2) are arranged between the sliding support main body (16) and the limiting sheet (1), the limiting sheet (1) and the sliding support main body (16) are connected through a first fixing bolt (3), a first supporting sheet (4) and a supporting rod (5) are fixed on the inner side of the sliding support main body (16), the supporting rod (5) is located on the lower side of the first supporting sheet (4), the supporting rod (5) is connected with a connecting seat (6), a first spacing sheet (7) and a second supporting sheet (8) are fixed on the upper side of the connecting seat (6), a first through hole (9) is formed in the second supporting sheet (8), a second spacing sheet (10) is arranged on the upper sides of the first spacing sheet (7) and the second supporting sheet (8), and a concrete test block (11) is arranged between the second spacing sheet (10) and the first spacing sheet (7) and the second supporting sheet (8), the second interval spacer (10) is provided with a second through hole (12), the lower end of the second interval spacer (10) is connected with the second supporting sheet (8) through a magnet sheet (13), the connecting seat (6) is provided with a second fixing bolt (14), the first interval spacer (7) is provided with a third through hole (15), the sliding supporting body (16) is internally provided with a fourth through hole (17), the limiting sheet (1) is provided with a fixing groove (18), the fixing groove (18) is internally provided with a first fixing bolt (3), the limiting sheet (1) and the balls (2) are provided with two groups and respectively positioned at the upper side and the lower side of the sliding supporting body (16), the fixing groove (18) on the limiting sheet (1) is embedded into the inner side of the sliding supporting body (16), the balls (2) protrude out of the limiting sheet (1), and the middle position of the balls (2) is positioned at the connecting part of the limiting sheet (1) and the sliding supporting body (16), the positions of the fourth through holes (17) in the sliding support main body (16) correspond to the positions of the balls (2) one by one, the support rod (5) is in a regular quadrangular prism shape, the size of the outer shape of the support rod (5) is equal to the size of the inner side of the connecting seat (6), the shape of the connecting seat (6) is in a Jiong shape, the connecting seat (6) and the support rod (5) are movably sleeved, the connecting seat (6), the first spacing piece (7) and the second support piece (8) are in an integrated structure, the first spacing piece (7) and the second support piece (8) form an inverted T shape, the size of an inner side through hole of the second spacing piece (10) is equal to the size of a tangent plane of the first spacing piece (7), the thicknesses of the second spacing piece (10) and the first spacing piece (7) are both greater than 1CM, and the front end of the second fixing bolt (14) penetrates through the connecting seat (6) and is in contact connection with the support rod (5, the second fixing bolt (14) is an inner hexagon bolt, and the second fixing bolt (14) is staggered with the first spacing sheet (7) and the second supporting sheet (8) in the vertical direction.

2. The concrete curing box test block placing assembly of claim 1, wherein: first support piece (4), bracing piece (5) and slip support main part (16) constitute integral structure, and the side of going up of first support piece (4) and second backing sheet (8) side of going up looks parallel and level to first through-hole (9) have all been seted up on first support piece (4) and second backing sheet (8).

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