CN113858397A

CN113858397A - Variable-size concrete mold easy to assemble and assembling method

Info

Publication number: CN113858397A
Application number: CN202011366325.3A
Authority: CN
Inventors: 林莉; 魏盛杰; 刘宪聪; 张耀月; 唐鹏霄; 王寻; 徐天立; 刘志颖; 袁鑫
Original assignee: Harbin University of Science and Technology
Current assignee: Harbin University of Science and Technology
Priority date: 2020-11-29
Filing date: 2020-11-29
Publication date: 2021-12-31

Abstract

The invention relates to a variable-size concrete mold easy to assemble and an assembling method. Most of the existing dies are fixed in size and are not detachable, so that the completeness of the prefabricated part is difficult to ensure, and appearance quality defects such as honeycombs, pitted surfaces and the like are easy to occur. The utility model provides an easy variable dimension concrete mould of equipment which characterized in that: the concrete mould comprises a mould bottom plate (1), a first layer long side plate (2), a first layer short side plate (3), a second layer long side plate (4) and a second layer short side plate (5), wherein two cuboid grooves (1-2) are formed in the upper surface of a mould base (1), three torsion lock catches (1-1) are respectively arranged on a group of opposite side surfaces, each torsion lock catch consists of a torsion handle (1-1-1), a lock seat (1-1-2) and a nut (1-1-3), and a spring clamp seat (2-1) is respectively arranged at two ends inside the first layer long side plate. The invention is applied to the field of material engineering.

Description

Variable-size concrete mold easy to assemble and assembling method

Technical Field

The invention belongs to the field of material engineering, and particularly relates to a variable-size concrete mold easy to assemble and an assembling method.

Background

At present, in civil engineering, a concrete mould is a very common tool for preparing a concrete test block, and most of the moulds used at present are fixed in size and are not detachable, so that the completeness of the prefabricated part is difficult to ensure, and appearance quality defects such as honeycombs, pitted surfaces and the like are easy to appear.

The variable-size concrete mold easy to assemble is formed by assembling a plurality of steel plates processed into specific shapes and appearances, the height of the mold can be changed according to requirements, concrete test blocks with different heights can be poured, demolding of the cured concrete test blocks is easy, damage to the surfaces of the test blocks can be greatly reduced, and therefore research and development of the variable-size concrete mold easy to assemble are urgent.

Disclosure of Invention

The invention aims to provide a variable-size concrete mold easy to assemble and an assembling method, which can be suitable for manufacturing test pieces with various sizes, and can reduce the damage to the surface of the test piece in a mode of disassembling the mold when demolding is carried out after maintenance.

The above purpose is realized by the following technical scheme:

an easy-to-assemble variable-size concrete mold, comprising: the mould comprises a mould base plate, a first long side plate, a first short side plate, a second long side plate and a second short side plate, wherein two cuboid grooves are formed in the upper surface of the mould base, three torsion lock catches are respectively arranged on a group of opposite side surfaces, each torsion lock catch consists of a torsion handle, a lock seat and a nut, two spring clamp seats are respectively arranged at two ends inside the first long side plate, three through lock catch positioning holes are formed in the lower side of a side surface, a cuboid flange is arranged on the upper surface of the side surface, two T-shaped bolts are arranged on the side surface of the first short side plate, a cuboid flange is arranged on the upper surface of the first short side plate, a cuboid flange is arranged on the lower surface of the first long side plate, cuboid flanges are arranged on two sides of the inner side surface of the second long side plate, three through cylindrical lock holes are respectively arranged on the cuboid flanges, and a cuboid flange is arranged on the upper surface of the second long side plate, the lower surface is provided with a cuboid groove, two sides of the cuboid groove are provided with two cube grooves, the upper surface of the second layer of short side plate is provided with a cuboid flange, a group of opposite side surfaces are respectively provided with a cuboid groove, the cuboid groove is provided with three semi-through cylindrical lock holes, the lower surface of the second layer of short side plate is provided with a cuboid groove, the die bottom plate is connected with the lower end of the first layer of long side plate through a torsion lock catch, the cuboid flange of the lower surface of the first layer of short side plate is connected with the cuboid groove of the upper surface of the die bottom plate, a T-shaped bolt of the side surface of the first layer of short side plate is connected with a spring clamping seat inside the first layer of long side plate, the cuboid groove of the lower surface of the second layer of long side plate is connected with the cuboid flange of the upper surface of the first layer of long side plate, the cuboid groove of the lower surface of the second layer of short side plate is connected with the cuboid flange of the upper surface of the first layer of short side plate, the rectangular parallelepiped groove of the side surface of the second layer short side plate is connected to the rectangular parallelepiped flange of the inner side surface of the second layer long side plate.

In the variable-size concrete mold easy to assemble, the cylindrical thin tube on the lock seat penetrates through a hole reserved on the inner side of the torsion handle, and the other side of the lock seat is fixed by a screw cap, so that the lock seat and the torsion handle are connected to form a torsion lock catch; two opposite fan-shaped grooves are formed in the inner side of the twisting handle, and the angle is 90 degrees; the twist grip of the twist lock can be twisted clockwise or counterclockwise by a certain angle. The size of the twist lock catch is consistent with that of the lock catch positioning hole.

The variable-size concrete mould easy to assemble is characterized in that after the torsion lock catch of the mould bottom plate penetrates through the lock catch positioning hole of the first layer of long side plate, the torsion handle is twisted clockwise or anticlockwise to form a certain angle with the horizontal plane, so that the bottom plate is connected with the lower end of the first layer of long side plate.

The size-variable concrete mold easy to assemble is characterized in that the spring clamping seat consists of a spring, a clamping groove seat, four cylindrical thin columns, a 'concave' clamping groove and a button, and bases for fixing the bottoms of the two springs in the spring clamping seat belong to one part of the side plate and do not belong to the part of the spring clamping seat; four cylindrical holes are reserved at four corners of the upper spring base, so that the four cylindrical thin columns can penetrate through the four cylindrical thin columns and can freely move up and down.

In the variable-size concrete mould easy to assemble, the connecting part of the cylindrical thin column and the clamping groove seat on the upper side is in a dumbbell shape, and the size of a thin section of the connecting part is consistent with that of a hole reserved in the clamping groove seat, so that the relative positions of the clamping groove seat and the cylindrical thin column are fixed; the draw-in groove seat and curb plate are two parts of mutual independence, and its purpose only is used for fixed "concave type" draw-in groove, makes "concave type" draw-in groove can follow the cylindrical thin post that the button controlled and reciprocate. .

The button is positioned on the upper surface of the first layer of long side plate; the first layer of long side plates and the first layer of short side plates are connected in the following mode: pressing the button of long curb plate upper surface and making the spring move down and be greater than or equal to 5mm, after embedding the hole that first layer long curb plate was reserved to the "T type" bolt of the short curb plate side surface of first layer immediately, unclamping the button, make "T type" bolt just in time inlay with "concave type" draw-in groove, both sides board is connected successfully.

The size of the cuboid flange corresponds to that of the cuboid groove position; the size of the rectangular groove corresponds to that of the rectangular flange; the cuboid groove corresponds to the cuboid flange position in size, and the cuboid groove corresponds to the cuboid flange position in size.

The variable dimension concrete mold of easily assembling, the cuboid flange of the long curb plate of second floor and the cuboid recess of the short curb plate of second floor are inlayed the back, take out the hole of reserving on the suitable cylindrical slim rod embedding flange of size and the recess, make the long curb plate of second floor and the short curb plate of second floor be connected.

The variable-size concrete mould easy to assemble can assemble a third layer and a fourth layer according to requirements so as to reach the required height, and the third layer and the fourth layer are consistent with the second layer in shape and size.

The invention has the beneficial effects that:

1. the invention has simple structure, is practical and convenient, can be suitable for manufacturing test blocks with various sizes, can greatly reduce the damage to the surfaces of the test blocks during demoulding, and is easy to transport and store moulds.

Firstly, aligning a lock catch positioning hole of a first layer of long side plate with a torsion lock catch of a bottom plate, and when the torsion lock catch passes through the lock catch positioning hole, twisting the torsion lock catch to form a certain angle with a horizontal line to fix the first layer of long side plate and the bottom plate; taking out the first layer of short side plates, embedding the cuboid flanges on the lower surfaces of the short side plates into the cuboid grooves on the upper surfaces of the base plates, fixing the approximate positions of the short side plates and the base plates, pressing buttons on the upper surfaces of the first layer of long side plates, embedding T-shaped pins on the surfaces of the short side plates into the spring lock seat holes reserved in the long side plates, and then loosening the buttons to fix the two corresponding first layer of short side plates and the first layer of long side plates; similarly, installing the remaining first layer of long side plate on the other side; then, taking out the second layer of long side plate on one side, and enabling the cuboid groove on the lower surface of the second layer of long side plate to be embedded with the cuboid flange on the upper surface of the first layer of long side plate; taking out the second layer of short side plate, enabling the cuboid groove on the lower surface of the second layer of short side plate to be embedded with the cuboid flange on the upper surface of the first layer of short side plate, embedding the cuboid flange of the second layer of long side plate into the cuboid groove of the second layer of short side plate, taking out the cylindrical thin rod to be embedded into the holes reserved on the flange and the groove, and fixing the second layer of long side plate and the second layer of short side plate; similarly, mounting the remaining second layer of long side plate on the other side; and finally, adjusting the position of the template and pouring concrete.

Description of the drawings:

FIG. 1 is a perspective view of a concrete mold of the present invention.

FIG. 2 is a perspective view of the die base of the present invention.

FIG. 3 is a detail view of the twist lock of the present invention.

Fig. 4 is an elevation view of a first long side panel of the present invention.

Fig. 5 is a detailed view of the spring cartridge of the present invention.

Fig. 6 is an elevation view of a first layer of a short side panel of the present invention.

Fig. 7 is an elevation view a of a second layer long side panel of the present invention.

Fig. 8 is a second layer long side panel elevation b of the present invention.

Fig. 9 is an elevation view a of a second side panel of the invention.

Fig. 10 is an elevation b of a second side panel of the invention.

The specific implementation mode is as follows:

example 1:

as shown in fig. 1 to 10, an easy-to-assemble variable-size concrete form is characterized in that: the concrete mould comprises a mould bottom plate (1), a first layer long side plate (2), a first layer short side plate (3), a second layer long side plate (4) and a second layer short side plate (5), wherein the upper surface of a mould base (1) is provided with two cuboid grooves (1-2), a group of opposite side surfaces are respectively provided with three torsion lock catches (1-1), each torsion lock catch (1-1) consists of a torsion handle (1-1-1), a lock seat (1-1-2) and a screw cap (1-1-3), two ends inside the first layer long side plate (2) are respectively provided with a spring lock seat (2-1), the lower side of a side surface is provided with three through lock catch positioning holes (2-2), the upper surface is provided with a cuboid flange (2-3), two T-shaped bolts (3-1) are arranged on the side surface of the first layer short side plate (3), the upper surface is provided with a cuboid flange (3-2), the lower surface is provided with a cuboid flange (3-2), the two sides of the inner side surface of the second layer of long side plate (4) are provided with cuboid flanges (4-1), the cuboid flanges (4-1) are respectively provided with three penetrating cylindrical lock holes, the upper surface of the second layer of long side plate (4) is provided with a cuboid flange (4-2), the lower surface is provided with a cuboid groove (4-3), the two sides of the cuboid groove (4-3) are provided with two cube grooves (4-4), the upper surface of the second layer of short side plate (5) is provided with a cuboid flange (5-1), a group of opposite side surfaces are respectively provided with a cuboid groove (5-2), the cuboid groove (5-2) is provided with three semi-through cylindrical lock holes, the lower surface of the second layer of short side plate (5) is provided with a cuboid groove (5-3), the die bottom plate (1) is connected with the lower end of the first layer of long side plate (2) through a torsion lock catch (1-1), a cuboid flange (3-2) of the lower surface of the first layer of short side plate (3) is connected with the cuboid groove (1-2) of the upper surface of the die bottom plate (1), a T-shaped bolt (3-1) of the side surface of the first layer of short side plate (3) is connected with a spring clamping seat (2-1) inside the first layer of long side plate (2), a cuboid groove (4-3) of the lower surface of the second layer of long side plate (4) is connected with the cuboid flange (2-3) of the upper surface of the first layer of long side plate (2), a cuboid groove (5-3) of the lower surface of the second layer of short side plate (5) is connected with the cuboid flange (3-2) of the upper surface of the first layer of short side plate, the cuboid groove (5-2) on the side surface of the second layer of short side plate (5) is connected with the cuboid flange (4-1) on the inner side surface of the second layer of long side plate (4).

Example 2:

a cylindrical thin tube on the lock seat (1-1-2) penetrates through a hole reserved on the inner side of the twisting handle (1-1-1), and the other side of the cylindrical thin tube is fixed by a screw cap (1-1-3) so that the lock seat (1-1-2) is connected with the twisting handle (1-1-1) to form a twisting lock catch (1-1); the inner side of the twisting handle (1-1-1) is provided with two opposite fan-shaped grooves which form an angle of 90 degrees; the twisting handle (1-1-1) of the twisting lock catch (1-1) can be twisted clockwise or anticlockwise for a certain angle, and the size of the twisting lock catch (1-1) is consistent with that of the lock catch positioning hole (2-2).

Example 3:

after the torsional lock catch (1-1) of the die bottom plate (1) passes through the lock catch positioning hole (2-2) of the first layer of the long side plate (2), the twisting handle (1-1-1) is twisted clockwise or counterclockwise to form a certain angle with the horizontal plane, so that the bottom plate (1) is connected with the lower end of the first layer of long side plate (2), the spring clamping seat (2-1) consists of a spring (2-1-1), a clamping groove seat (2-1-2), four cylindrical thin columns (2-1-3), a concave clamping groove (2-1-4) and a button (2-1-5), in the spring clamping seat (2-1) shown in fig. 5, the bases for fixing the bottoms of the two springs are both part of the side plate and not part of the spring clamping seat (2-1); four cylindrical holes are reserved at four corners of the upper spring base, so that four cylindrical thin columns (2-1-3) can penetrate through the four cylindrical thin columns and can freely move up and down.

Example 5:

the cylindrical thin column is connected with the clamping groove seat (2-1-2) on the upper side to form a dumbbell shape, the size of a thin section of the connecting part is consistent with that of a hole reserved in the clamping groove seat (2-1-2), the relative position of the clamping groove seat (2-1-2) and the cylindrical thin column is fixed, the clamping groove seat (2-1-2) and the side plate are two mutually independent parts, the purpose of the connecting part is only used for fixing a concave clamping groove (2-1-4), the concave clamping groove can move up and down along with the cylindrical thin column controlled by the button, and the button (2-1-5) is located on the upper surface of the first layer of the long side plate (2).

Example 6:

the first layer of long side plates (2) and the first layer of short side plates are connected in the following mode: pressing a button (2-1-5) on the upper surface of the long side plate (2) to enable the spring (2-1-1) to move downwards for more than or equal to 5mm, then embedding a T-shaped bolt (3-1) on the side surface of the first layer of short side plate (3) into a hole reserved in the first layer of long side plate (2), then loosening the button (2-1-5) to enable the T-shaped bolt (3-1) to be just embedded with a concave clamping groove (2-1-4), and connecting the two side plates successfully; the cuboid flange (3-2) corresponds to the cuboid groove (1-2) in position size; the cuboid groove (4-3) corresponds to the cuboid flange (2-3) in size; the cuboid groove (5-3) corresponds to the cuboid flange (3-2) in position, and the cuboid groove (5-2) corresponds to the cuboid flange (4-1) in position.

Example 7:

the cuboid flange (4-1) of the long side plate (4) of the second layer and the cuboid groove (5-2) of the short side plate (5) of the second layer are inlaid, the holes reserved on the cylindrical thin rod embedding flange (4-1) and the groove (5-2) with proper sizes are taken out, the long side plate (4) of the second layer and the short side plate (5) of the second layer are connected, the variable-size concrete mold easy to assemble can assemble the third layer and the fourth layer according to requirements so as to reach the required height, and the third layer and the fourth layer are consistent with the shape and the size of the second layer.

Claims

1. An easy-to-assemble variable-size concrete mold, comprising: mould bottom plate, the long curb plate of first layer, the short curb plate of first layer, the long curb plate of second layer and the short curb plate of second layer, characterized by: the upper surface of the mould base is provided with two cuboid grooves, a group of opposite side surfaces are respectively provided with three torsion lock catches, each torsion lock catch consists of a torsion handle, a lock seat and a nut, two ends of the inner part of the first layer long side plate are respectively provided with a spring clamping seat, the lower side of the side surface is provided with three through lock catch positioning holes, the upper surface is provided with a cuboid flange, the side surface of the first layer short side plate is provided with two T-shaped bolts, the upper surface is provided with a cuboid flange, the lower surface is provided with a cuboid flange, the two sides of the inner side surface of the second layer long side plate are provided with cuboid flanges, the cuboid flanges are respectively provided with three through cylindrical lock holes, the upper surface of the second layer long side plate is provided with a cuboid flange, the lower surface is provided with a cuboid groove, and the two sides of the cuboid grooves are provided with two cuboid grooves, the upper surface of the second layer of short side plate is provided with a cuboid flange, a group of opposite side surfaces are respectively provided with a cuboid groove, the cuboid recess is provided with three semi-through cylindrical lockhole, the short curb plate lower surface of second floor be provided with the cuboid recess, the mould bottom plate links to each other with the long curb plate lower extreme of first layer through twisting the hasp, the cuboid flange of the short curb plate lower surface of first layer and the cuboid recess of mould bottom plate upper surface link to each other, the "T type" bolt of the short curb plate side surface of first layer links to each other with the inside spring cassette of the long curb plate of first layer, the cuboid recess of the long curb plate lower surface of second floor links to each other with the cuboid flange of the long curb plate upper surface of first layer, the cuboid recess of the short curb plate lower surface of second floor links to each other with the cuboid flange of the short curb plate upper surface of first layer, the cuboid recess of the short curb plate side surface of second floor links to each other with the cuboid flange of the long curb plate inner surface of second floor.

2. An easily assembled variable size concrete form as claimed in claim 1, wherein: a cylindrical thin tube on the lock seat penetrates through a hole reserved on the inner side of the twisting handle, and the other side of the cylindrical thin tube is fixed by a screw cap, so that the lock seat and the twisting handle are connected to form a twisting lock catch; two opposite fan-shaped grooves are formed in the inner side of the twisting handle, and the angle is 90 degrees; the twisting handle of the twisting lock catch can be twisted clockwise or anticlockwise for a certain angle, and the size of the twisting lock catch is consistent with that of the lock catch positioning hole.

3. An easily assembled variable size concrete form as claimed in claim 2, wherein: after the twisting lock catch of the die bottom plate penetrates through the lock catch positioning hole of the first layer of long side plate, the twisting handle is twisted clockwise or anticlockwise to form a certain angle with the horizontal plane, so that the bottom plate is connected with the lower end of the first layer of long side plate.

4. An easily assembled variable size concrete form as claimed in claim 3, wherein: the spring clamping seat consists of a spring, a clamping groove seat, four cylindrical thin columns, a 'concave' clamping groove and a button, and bases for fixing the bottoms of the two springs in the spring clamping seat belong to one part of the side plate and do not belong to the part of the spring clamping seat; four cylindrical holes are reserved at four corners of the upper spring base, so that the four cylindrical thin columns can penetrate through the four cylindrical thin columns and can freely move up and down.

5. An easily assembled variable size concrete form as claimed in claim 4, wherein: the connecting part of the cylindrical thin column and the clamping groove seat on the upper side is in a dumbbell shape, and the size of a thin section of the connecting part is consistent with that of a hole reserved in the clamping groove seat, so that the relative position of the clamping groove seat and the cylindrical thin column is fixed; the draw-in groove seat and curb plate are two parts of mutual independence, and its purpose only is used for fixed "concave type" draw-in groove, makes "concave type" draw-in groove can follow the cylindrical thin post that the button controlled and reciprocate.

6. An easily assembled variable size concrete form as claimed in claim 5, wherein: the button is positioned on the upper surface of the first layer of long side plate; the first layer of long side plates and the first layer of short side plates are connected in the following mode: pressing the button of long curb plate upper surface and making the spring move down and be greater than or equal to 5mm, after embedding the hole that first layer long curb plate was reserved to the "T type" bolt of the short curb plate side surface of first layer immediately, unclamping the button, make "T type" bolt just in time inlay with "concave type" draw-in groove, both sides board is connected successfully.

7. An easily assembled variable size concrete form as claimed in claim 6, wherein: the size of the cuboid flange corresponds to that of the cuboid groove; the size of the rectangular groove corresponds to that of the rectangular flange; the cuboid groove corresponds to the cuboid flange position in size, and the cuboid groove corresponds to the cuboid flange position in size.

8. An easily assembled variable size concrete form as claimed in claim 7, wherein: the cuboid flange of the long curb plate of second floor and the cuboid recess of the short curb plate of second floor inlay the back, take out the hole of reserving on the suitable cylindrical slim stick embedding flange of size and the recess, make the long curb plate of second floor and the short curb plate of second floor be connected.

9. An easily assembled variable size concrete form as claimed in claim 8, wherein: the variable-size concrete mould easy to assemble can assemble a third layer and a fourth layer according to requirements so as to reach the required height, and the third layer and the fourth layer are consistent with the second layer in shape and size.

10. A method of assembling a variable size concrete form of any one of claims 1 to 9, wherein: the method comprises the following steps:

firstly, aligning a lock catch positioning hole of a first layer of long side plate with a torsion lock catch of a bottom plate, and when the torsion lock catch passes through the lock catch positioning hole, twisting the torsion lock catch to form a certain angle with a horizontal line, and fixing the first layer of long side plate and the bottom plate; taking out the first layer of short side plates, embedding the cuboid flanges on the lower surfaces of the short side plates into the cuboid grooves on the upper surfaces of the base plates, fixing the approximate positions of the short side plates and the base plates, pressing buttons on the upper surfaces of the first layer of long side plates, embedding T-shaped pins on the surfaces of the short side plates into the spring lock seat holes reserved in the long side plates, and then loosening the buttons to fix the two corresponding first layer of short side plates and the first layer of long side plates; similarly, installing the remaining first layer of long side plate on the other side;

then, taking out the second layer of long side plate on one side, and enabling the cuboid groove on the lower surface of the second layer of long side plate to be embedded with the cuboid flange on the upper surface of the first layer of long side plate; taking out the second layer of short side plate, enabling the cuboid groove on the lower surface of the second layer of short side plate to be embedded with the cuboid flange on the upper surface of the first layer of short side plate, embedding the cuboid flange of the second layer of long side plate into the cuboid groove of the second layer of short side plate, taking out the cylindrical thin rod to be embedded into the holes reserved on the flange and the groove, and fixing the second layer of long side plate and the second layer of short side plate; similarly, mounting the remaining second layer of long side plate on the other side; and finally, adjusting the position of the template, and pouring concrete to finish the assembly.