CN214925400U - Concrete pouring mould with strong adaptability - Google Patents

Abstract

The utility model provides a concrete placement mould with strong adaptability in the technical field of concrete placement moulds, which comprises a bottom plate, wherein the bottom plate is provided with a first template, the bottom plate is provided with an L-shaped template, the L-shaped template and the bottom plate are provided with fixing bolts, the bottom plate is provided with a position adjusting structure, the position adjusting structure comprises a positioning hole, a second n-shaped plate, a first spring, a circular plate and a square insert block, the positioning hole is arranged at the top of the right side wall of the first template, the second n-shaped plate is provided with the first spring, the first spring is provided with the circular plate, the circular plate is provided with the square insert block, the square is inserted into the positioning hole, the second n-shaped plate is provided with the second template, the second template is provided with a fixing structure, the first template is connected with a groove placement structure, the groove placement structure comprises a Z-shaped plate, a convex block, a threaded rod, a nut, an insert sleeve and a sliding hole, the sliding hole is arranged at the side wall of the first template, the utility model can be conveniently adjusted according to the actual production needs, so that the mold has strong adaptability.

Description

Concrete pouring mould with strong adaptability

Technical Field

The utility model relates to a concrete placement mould technical field especially relates to a strong adaptability's concrete placement mould.

Background

The prefabricated members refer to various members manufactured by adopting a pre-forming method, compared with the field manufacturing, the prefabricated members manufactured by pre-forming are usually manufactured by using templates in a professional factory and then transported to the field for use, and at present, the prefabricated members are mainly used in the field of buildings and can be divided into steel structure prefabricated members, wood structure prefabricated members, concrete prefabricated members, stone prefabricated members and the like according to material properties. The concrete prefabricated elements are most widely used, and the prefabricated elements are generally equal to reinforced concrete prefabricated elements or prefabricated concrete in the building field.

At present, the concrete prefabricated part usually needs to be poured by using a mould when pouring, but the size of the existing concrete pouring mould is fixed and is inconvenient to adjust according to actual production needs, so that the adaptability of the mould is poor.

SUMMERY OF THE UTILITY MODEL

The utility model provides a technical problem lie in providing a strong adaptability's concrete placement mould.

In order to solve the technical problem, the utility model provides a strong adaptability's concrete placement mould, including bottom plate, first template, second template and L shape template, the top right-hand member of bottom plate fixedly connected with first template, the top right-hand member of bottom plate is connected with L shape template slidably, L shape template and bottom plate all have fixing bolt through screw hole threaded connection, the top of bottom plate is connected with the position adjustment structure who is used for the second template position adjustment symmetrically, the position adjustment structure includes locating hole, second n shaped plate, first spring, plectane and square inserted block, the locating hole is evenly seted up at the right side wall top of first template, the outer wall of the outer end upright position of second n shaped plate fixedly connected with first spring, the outer end fixedly connected with plectane of first spring, the inboard end fixedly connected with square inserted block of plectane, the inner end of the square insertion block penetrates through the second n-shaped plate to be inserted into the positioning hole, the upright part of the inner end of the second n-shaped plate is fixedly connected with a second template which is jointed with the first template and the L-shaped template in a sliding manner, the top of the left end of the second template is connected with a fixed structure for fixedly connecting the second template, the first template is connected with a groove pouring structure for groove pouring, the groove pouring structure comprises a Z-shaped plate, a convex block, a threaded rod, a nut, an inserting sleeve and a sliding hole, the sliding hole is formed in the side wall of the first template, the first template is fixedly connected with a Z-shaped plate at the top of the sliding hole, the Z-shaped plate and the first template are rotatably connected with a threaded rod through a bearing which is fixedly connected, the outer end fixedly connected with nut of threaded rod, threaded rod threaded connection has the lug, the bottom fixedly connected with plug bush of lug, plug bush and slide opening laminating sliding connection.

Furthermore, reinforcing plates for reinforcing support are fixedly connected between the upright position and the transverse position of the bottom plate and between the bottom plate and the first template.

Furthermore, the first spring is attached to the first template in a sliding manner.

Furthermore, the distance between the positioning holes is 3-5 cm.

Furthermore, fixed knot constructs including connecting block, screw thread post, first n shaped plate and straight piece, straight piece fixed mounting is at the left end of second template, straight piece rotates through fixed connection's pivot and is connected with first n shaped plate, the outer end upright position threaded connection of first n shaped plate has the screw thread post, the inner end fixedly connected with and the L shape template outer wall laminating sliding connection's of screw thread post connecting block.

Furthermore, when the connecting block is in contact with the L-shaped template in an attaching mode, the first n-shaped plate is in attached sliding connection with the top of the L-shaped template.

Has the advantages that:

the utility model discloses a position control structure's second n shaped plate drives the second template and removes the suitable position, then loosen the plectane, first spring drives the plectane and removes, the plectane drives square inserted block and removes to in the locating hole, the locating hole carries out spacing processing to square inserted block to the realization is fixed spacing to the second template, conveniently adjusts second template position, the mould of being convenient for is adjusted to the length of being fit for the difference and is pour the requirement, the convenience is adjusted according to the actual production needs, make mould strong adaptability. The utility model discloses rotate fixed knot structure's first n shaped plate to horizontality, then rotate the screw thread post, the screw thread post drives the connecting block and removes as for L shape template laminating sliding connection, and fixed knot constructs to connecting between second template and the L shape template and consolidates the processing, has guaranteed the connection stability of second template and L shape template. The utility model discloses a nut of structure is pour to the recess drives the threaded rod and rotates, and the threaded rod drives the lug and removes, and the lug drives the plug bush and removes in the slide opening, is convenient for adjust the position of plug bush left end, and plug bush department forms the recess that needs pour when pouring, and simultaneously, the position convenience of plug bush left end is adjusted according to the recess depth requirement that the plug bush formed.

Drawings

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

FIG. 2 is a left side view of the structure of the present invention;

FIG. 3 is a sectional view of the structure of the present invention;

fig. 4 is a schematic view of a second template and a connection structure thereof;

labeled as:

1. the bottom plate 2, the reinforcing plate 3, the first template 4, the second template 5, the L-shaped template 6, the groove pouring structure 61. Z-shaped plate 62, the convex block 63, the threaded rod 64, the nut 65, the insert sleeve 66, the sliding hole 7, the fixing structure 71, the connecting block 72, the threaded column 73, the first n-shaped plate 74, the straight block 8, the positioning hole 9, the second n-shaped plate 10, the first spring 11, the circular plate 12, the fixing bolt 13 and the square insert block.

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary and intended to be used for explaining the present invention, and should not be construed as limiting the present invention.

As shown in FIGS. 1 to 4, a strong adaptability concrete pouring mold comprises a bottom plate 1, a first template 3, a second template 4 and an L-shaped template 5, wherein the first template 3 is fixedly connected to the right end of the top of the bottom plate 1, the L-shaped template 5 is slidably connected to the right end of the top of the bottom plate 1, the L-shaped template 5 and the bottom plate 1 are both in threaded connection with fixing bolts 12 through threaded holes, the top of the bottom plate 1 is symmetrically connected with a position adjusting structure for adjusting the position of the second template 4, the position adjusting structure comprises positioning holes 8, a second n-shaped plate 9, first springs 10, circular plates 11 and square insertion blocks 13, the first springs 10 are attached to the first template 3 in a sliding connection manner, the positioning holes 8 are uniformly arranged on the top of the right side wall of the first template 3, the outer wall of the upright position of the outer end of the second n-shaped plate 9 is fixedly connected with the first springs 10, the outer end of the circular plates 11 are fixedly connected to the outer ends of the first springs 10, the inner end of the circular plate 11 is fixedly connected with a square inserting block 13, the inner end of the square inserting block 13 penetrates through the second n-shaped plate 9 to be inserted into the positioning holes 8, the distance between the positioning holes 8 is 3-5cm, the upright part of the inner end of the second n-shaped plate 9 is fixedly connected with a second template 4 which is jointed with the first template 3 and the L-shaped template 5 in a sliding way, the second n-shaped plate 9 of the position adjusting structure drives the second template 4 to move to a proper position, then the circular plate 11 is loosened, the first spring 10 drives the circular plate 11 to move, the circular plate 11 drives the square insertion block 13 to move into the positioning hole 8, the positioning hole 8 carries out limiting treatment on the square insertion block 13, therefore, the second template 4 is fixed and limited, the position of the second template 4 is convenient to adjust, the mold is convenient to adjust to meet pouring requirements of different lengths, the adjustment is convenient according to actual production requirements, and the adaptability of the mold is strong;

the top of the left end of the second template 4 is connected with a fixing structure 7 for fixedly connecting the second template 4, the fixing structure 7 comprises a connecting block 71, a threaded column 72, a first n-shaped plate 73 and a straight block 74, the straight block 74 is fixedly installed at the left end of the second template 4, the straight block 74 is rotatably connected with the first n-shaped plate 73 through a fixedly connected rotating shaft, the upright part of the outer end of the first n-shaped plate 73 is in threaded connection with the threaded column 72, the inner end of the threaded column 72 is fixedly connected with the connecting block 71 which is in fit sliding connection with the outer wall of the L-shaped template 5, when the connecting block 71 is in fit contact with the L-shaped template 5, the first n-shaped plate 73 is in fit sliding connection with the top of the L-shaped template 5, the first n-shaped plate 73 of the fixing structure 7 is rotated to be in a horizontal state, then the threaded column 72 is rotated, the threaded column 72 drives the connecting block 71 to move to be in fit sliding connection with the L-shaped template 5, and the fixing structure 7 reinforces the connection between the second template 4 and the L-shaped template 5, the connection stability of the second template 4 and the L-shaped template 5 is ensured;

the first template 3 is connected with a groove pouring structure 6 for groove pouring, the groove pouring structure 6 comprises a Z-shaped plate 61, a convex block 62, a threaded rod 63, a nut 64, an inserting sleeve 65 and a sliding hole 66, the sliding hole 66 is formed in the side wall of the first template 3, the Z-shaped plate 61 is fixedly connected to the top of the sliding hole 66 of the first template 3, the Z-shaped plate 61 and the first template 3 are rotatably connected with the threaded rod 63 through a fixedly connected bearing, the outer end of the threaded rod 63 is fixedly connected with the nut 64, the threaded rod 63 is in threaded connection with the convex block 62, the bottom of the convex block 62 is fixedly connected with the inserting sleeve 65, the inserting sleeve 65 is in fit sliding connection with the sliding hole 66, the nut 64 of the groove pouring structure 6 drives the threaded rod 63 to rotate, the threaded rod 63 drives the convex block 62 to move, the convex block 62 drives the inserting sleeve 65 to move in the sliding hole 66, the position of the left end of the inserting sleeve 65 is convenient to adjust, and a groove to be poured is formed at the inserting sleeve 65, meanwhile, the position of the left end of the plug bush 65 is convenient to adjust according to the depth requirement of the groove formed by the plug bush 65.

When the device is used, according to the pouring length requirement, the second n-shaped plate 9 of the position adjusting structure drives the second template 4 to move to a proper position, then the circular plate 11 is loosened, the first spring 10 drives the circular plate 11 to move, the circular plate 11 drives the square inserting block 13 to move into the positioning hole 8, and the positioning hole 8 carries out limiting treatment on the square inserting block 13, so that the second template 4 is fixed and limited, the position of the second template 4 is convenient to adjust, the die is convenient to adjust to meet the pouring requirements of different lengths, the die is convenient to adjust according to the actual production requirement, and the adaptability of the die is strong; then the first n-shaped plate 73 of the rotary fixing structure 7 is rotated to be in a horizontal state, then the threaded column 72 is rotated, the threaded column 72 drives the connecting block 71 to move to the L-shaped template 5 to be attached and slidably connected, the fixing structure 7 carries out reinforcement treatment on the connection between the second template 4 and the L-shaped template 5, the connection stability of the second template 4 and the L-shaped template 5 is ensured, a steel bar structure to be poured is placed between the first template 3 and the second template 4 of the bottom plate 1 and the L-shaped template 5, the nut 64 of the groove pouring structure 6 drives the threaded rod 63 to rotate forward according to the groove requirement to be poured, the threaded rod 63 drives the lug 62 to move, the lug 62 drives the plug bush 65 to move in the sliding hole 66, the position of the left end of the plug bush 65 is convenient to adjust, concrete is poured on the first template 3 and the second template 4 of the bottom plate 1 and the L-shaped template 5 to form a prefabricated component, a groove to be poured is formed at the plug bush 65 during pouring, meanwhile, the position of the left end of the plug bush 65 is convenient to adjust according to the depth requirement of the groove formed by the plug bush 65. When the pouring is finished, the fixing bolt 12 is taken down, the threaded column 72 is rotated, the threaded column 72 drives the connecting block 71 to move to the L-shaped template 5 to be separated, the first n-shaped plate 73 is rotated to be in an upright state, the L-shaped template 5 is slid, and the L-shaped template 5 is separated from the prefabricated component. When the circular plate 11 is pulled to fall off the positioning hole 8, the second template 4 slides outwards, the second template 4 is separated from the prefabricated part, the nut 64 of the groove pouring structure 6 drives the threaded rod 63 to rotate reversely, the threaded rod 63 drives the lug block 62 to move, the lug block 62 drives the plug bush 65 to move rightwards in the sliding hole 66, the plug bush 65 is separated from the prefabricated part, finally, the nut 64 of the groove pouring structure 6 drives the threaded rod 63 to rotate forwards, the threaded rod 63 drives the lug block 62 to move, the lug block 62 drives the plug bush 65 to move leftwards in the sliding hole 66, and the plug bush 65 pushes the prefabricated part to be separated from the bottom plate 1 and the first template 3, so that the prefabricated part is conveniently separated from the mold.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the present invention in any way, and those skilled in the art can make many variations and modifications of the technical solution of the present invention without departing from the scope of the technical solution of the present invention.

Claims (6)

1. The utility model provides a strong adaptability's concrete placement mould, includes bottom plate (1), first template (3), second template (4) and L shape template (5), its characterized in that: the top right-hand member fixedly connected with first template (3) of bottom plate (1), the top right-hand member sliding connection of bottom plate (1) has L shape template (5), L shape template (5) and bottom plate (1) all have fixing bolt (12) through screw hole threaded connection, the top symmetric connection of bottom plate (1) has the position control structure who is used for second template (4) position control, the position control structure includes locating hole (8), second n shaped plate (9), first spring (10), plectane (11) and square inserted block (13), locating hole (8) evenly set up in the right side wall top of first template (3), the outer wall fixedly connected with first spring (10) of the outer end upright position of second n shaped plate (9), the outer end fixedly connected with plectane (11) of first spring (10), the inner end fixedly connected with square inserted block (13) of plectane (11), the inner end of the square insertion block (13) penetrates through the second n-shaped plate (9) to be inserted into the positioning hole (8), the upright position of the inner end of the second n-shaped plate (9) is fixedly connected with the second template (4) which is attached to the first template (3) and the L-shaped template (5), the top of the left end of the second template (4) is connected with the fixed structure (7) which is used for fixing the second template (4), the first template (3) is connected with the groove pouring structure (6) which is used for pouring grooves, the groove pouring structure (6) comprises a Z-shaped plate (61), a convex block (62), a threaded rod (63), a nut (64), an insertion sleeve (65) and a sliding hole (66), the sliding hole (66) is formed in the side wall of the first template (3), the first template (3) is fixedly connected with the Z-shaped plate (61) at the top of the sliding hole (66), and the Z-shaped plate (61) and the first template (3) are connected with the threaded rod (8) through the bearing which is fixedly connected with the bearing 63) The outer end fixedly connected with nut (64) of threaded rod (63), threaded rod (63) threaded connection has lug (62), the bottom fixedly connected with plug bush (65) of lug (62), plug bush (65) and slide opening (66) laminating sliding connection.

2. An adaptable concrete casting mold as recited in claim 1, wherein: and reinforcing plates (2) for reinforcing support are fixedly connected between the vertical part and the transverse part of the bottom plate (1) and between the bottom plate (1) and the first template (3).

3. An adaptable concrete casting mold as recited in claim 1, wherein: the first spring (10) is attached to the first template (3) in a sliding connection mode.

4. An adaptable concrete casting mold as recited in claim 3, wherein: the distance between the positioning holes (8) is 3-5 cm.

5. An adaptable concrete casting mold as recited in claim 1, wherein: fixed knot constructs (7) including connecting block (71), screw thread post (72), first n type board (73) and straight piece (74), straight piece (74) fixed mounting is at the left end of second template (4), straight piece (74) are rotated through fixed connection's pivot and are connected with first n type board (73), the outer end upright position threaded connection of first n type board (73) has screw thread post (72), the interior end fixedly connected with of screw thread post (72) and L shape template (5) outer wall laminating sliding connection's connecting block (71).

6. An adaptable concrete casting mold, according to claim 5, characterized in that: when the connecting block (71) is in contact with the L-shaped template (5) in an attaching mode, the first n-shaped plate (73) is in sliding connection with the top of the L-shaped template (5) in an attaching mode.

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