CN112942671B - Assembled component and connection structure thereof - Google Patents

Abstract

The utility model relates to an assembled component and connection structure thereof, relate to the field of house construction, it includes the component body, establish connecting portion on the component body and set up the first recess on the component body, connecting portion and first recess are located the relative two sides on the component body respectively, the connecting portion of adjacent component body are located first recess, this internal and the last reinforcing bar that all is equipped with of connecting portion of component, the top surface of reinforcing bar perpendicular to connecting portion, first blind hole has been seted up on the component body of first recess bottom, the inside reinforcing bar of component body extends to in the first blind hole, the reinforcing bar corresponds with the position of first blind hole, be equipped with first slip casting sleeve pipe on the component body, first slip casting sleeve pipe is located first blind hole, first grout inlet and first grout outlet have been seted up on the first slip casting sleeve pipe, first grout inlet and first grout outlet extend the component body. This application has the effect that improves the efficiency of component construction.

Description

Assembled component and connection structure thereof

Technical Field

The application relates to the field of house construction, in particular to an assembly type component and a connecting structure thereof.

Background

The assembled component is a prefabricated component, and the assembled component is assembled and connected to form a main body structure of reinforced concrete. The construction of the assembled components is one of the important directions for the development of the building structure in China, is beneficial to the development of the industrialization of the building in China, improves the production efficiency, saves energy, develops green and environment-friendly buildings, and is beneficial to improving and ensuring the quality of the building engineering.

In the construction of the existing fabricated components, the two components are connected by building a template and pouring concrete, so that the construction efficiency is reduced.

Disclosure of Invention

In order to improve the efficiency of construction of members, the present application provides a fabricated member and a connection structure thereof.

The application provides an assembled component and connection structure thereof adopts following technical scheme:

an assembled component comprises a component body, a connecting part arranged on the component body and a first groove arranged on the component body;

the connecting part and the first groove are respectively positioned on two opposite surfaces of the component body, and the connecting part adjacent to the component body is positioned in the first groove;

reinforcing steel bars are arranged in the component body and on the connecting part, the reinforcing steel bars are perpendicular to the top surface of the connecting part, a first blind hole is formed in the component body at the bottom of the first groove, the reinforcing steel bars in the component body extend into the first blind hole, and the reinforcing steel bars correspond to the first blind hole in position;

the component body is provided with a first grouting sleeve, the first grouting sleeve is located in the first blind hole, the first grouting sleeve is provided with a first slurry inlet and a first slurry outlet, and the first slurry inlet and the first slurry outlet extend out of the component body.

Through adopting above-mentioned technical scheme, when the staff was under construction in the house, place a component body on the construction face, then place another body on just placing the construction body, make the reinforcing bar on the first blind hole on the component body that will install and the connecting portion aim at, then make the reinforcing bar on the connecting portion get into first blind hole completely, then in the staff inputs the slip casting cover with thick liquids through slip casting sheathed tube grout inlet into, thick liquids flows to between connecting portion and the recess and progressively fills up every first blind hole along the slip casting cover, stop the grout when thick liquids are the column outflow from the discharge gate, and carry out the shutoff to grout inlet and grout outlet, accomplish the connection of two component bodies from this, thereby construction efficiency has been improved.

Optionally, a second groove is formed in the component body, and a protruding portion is formed on the component body;

the protruding part and the second groove are respectively positioned on two opposite surfaces of the component body;

the protruding portion and the first groove are located on the same face, and the second groove and the connecting portion are located on the same side.

Through adopting above-mentioned technical scheme, the staff places a component body the back, aligns the second recess with the protruding portion on another component body and the component body of placing, makes the protruding portion be arranged in the second recess, and the protruding portion moves along the second recess, makes the component body more stable at the in-process that the installation was placed.

Optionally, a gasket is arranged on the connecting part;

the gasket is located above the connecting portion.

Through adopting above-mentioned technical scheme, the staff installs the gasket on the connecting portion of placing on the component body, when placing another component body, makes the component body and the gasket contact of the first recess bottom of another component body to form the space between two component bodies, made things convenient for the flow of thick liquids.

An assembly type component connecting structure comprises a connecting block arranged on a component body, wherein a steel bar is arranged inside the connecting block, and a third groove is formed in one end, close to a connecting part, of the component body;

the reinforcing steel bar penetrates out of the third groove, a second blind hole is formed in the connecting block, one end of the reinforcing steel bar on the connecting block penetrates into the connecting block, the other end of the reinforcing steel bar on the connecting block is located in the second blind hole, a second grouting sleeve is arranged on the connecting block, and the second grouting sleeve on the connecting block is located in the second blind hole;

and a second grouting opening and a second grout outlet are formed in a second grouting sleeve on the connecting block, and the second grout inlet and the second grout outlet extend out of the connecting block.

Through adopting above-mentioned technical scheme, the staff places the back with two component bodies, make the reinforcing bar in the third recess aim at with the second blind hole on the connecting block, in placing the third recess on two component bodies with the connecting block after that, then with the thick liquids through slip casting sheathed tube grout inlet input slip casting sleeve, the thick liquids flows and fills up the space along the component body of slip casting sleeve and connecting block and third recess bottom, flow the column thick liquids and make and stop the grout when the grout outlet, the connecting block is connected two component bodies, make two component body coupling more firm.

Optionally, a third blind hole is formed in the member body on the side surface of the third groove;

the component body is provided with a first through hole, the first through hole is positioned on the component body opposite to the third blind hole, and the first through hole corresponds to the third blind hole in position;

the protruding parts are provided with second through holes, and when the protruding parts on two adjacent component bodies are positioned in the third groove, the first through hole, the second through hole and the third blind hole are communicated with each other;

and the component body is provided with a fixed steel bar, and the fixed steel bar penetrates through the first through hole, the second through hole and the third blind hole.

Through adopting above-mentioned technical scheme, after two component bodies were placed, passed first through-hole, second through-hole and third blind hole with fixed reinforcing bar, carried out the slip casting to first through-hole, second through-hole and third blind hole at last, further improved two component body coupling's fastness through fixed reinforcing bar.

Optionally, the number of the first through holes, the second through holes and the third blind holes is multiple.

Through adopting above-mentioned technical scheme, place a plurality of fixed reinforcing bars in a plurality of first through-holes, second through-hole and third blind hole, promoted the fastness of two different positions of component body junction.

Optionally, a first internal threaded pipe is arranged on the protruding portion, and a movable sleeve is connected to the first internal threaded pipe in a threaded manner; the outer wall of the movable sleeve is provided with a threaded part, and a component body on the side surface of the third groove is provided with a second internal threaded pipe;

the first internal threaded pipe is positioned inside the protruding part, the second internal threaded pipe penetrates into the component body, and the threaded part of the movable sleeve is in threaded connection with the second internal threaded pipe;

and a third through hole is formed in the component body and communicated with the inside of the second internal threaded pipe.

Through adopting above-mentioned technical scheme, the staff passes the third through-hole with two component body installation backs, and the running bushing is rotated to the use of tools, moves towards second internal thread pipe when the running bushing rotates and finally with second internal thread union coupling, has further improved the fastness of two component body junction.

Optionally, a plurality of clamping blocks are arranged on the inner wall of the movable sleeve;

the clamping blocks are distributed on the inner wall of the movable sleeve at equal angles.

Through adopting above-mentioned technical scheme, the staff stretches into movable sleeve with the instrument back, blocks instruments such as screwdriver through the fixture block, makes the staff more easily use the instrument to rotate movable sleeve.

Optionally, one end of the first internal threaded pipe, which is located inside the protruding portion, is a sealed end, and a first bump is arranged on one surface, which is in contact with the protruding portion, of the sealed end;

the first bump penetrates into the protruding portion.

Through adopting above-mentioned technical scheme, first lug has improved the stability of first internal thread pipe, makes first internal thread pipe be difficult to take place to rotate.

Optionally, one end of the second internal threaded pipe, which is far away from the protruding part, is provided with a second bump;

the second projection penetrates into the component body.

Through adopting above-mentioned technical scheme, the second lug has increased the stability of second internal thread pipe, makes second internal thread pipe be difficult to take place to rotate to make the movable sleeve pipe more firm with second internal thread union coupling.

In summary, the present application includes at least one of the following beneficial technical effects:

1. when a worker carries out house construction, one component body is placed on a construction surface, then the other component body is placed on the construction body which is just placed, the first blind hole on the component body to be installed is aligned with the steel bar on the connecting part, the steel bar on the connecting part completely enters the first blind hole, then the worker inputs slurry into the grouting sleeve through the slurry inlet of the grouting sleeve, the slurry flows between the connecting part and the groove along the grouting sleeve and gradually fills each first blind hole, the grouting is stopped when the slurry flows out in a columnar shape from the discharge hole, and the slurry inlet and the slurry outlet are blocked, so that the connection of the two component bodies is completed, and the construction efficiency is improved;

2. after the staff installed two component bodies, the use tool passed the third through-hole and rotated the movable sleeve, moved towards the second internal thread pipe when the movable sleeve rotated and finally connected with the second internal thread pipe, further improved the fastness of two component body junction.

Drawings

Fig. 1 is an isometric view of a fabricated member and its connection structure in an embodiment of the present application.

Fig. 2 is a sectional view of one fabricated construction member and its coupling structure shown in fig. 1.

Fig. 3 is another sectional view of one of the fabricated components and the connection structure thereof shown in fig. 1.

Fig. 4 is an exploded view of one of the fabricated components and its connection structure shown in fig. 1.

Fig. 5 is an enlarged view of a portion a in fig. 4.

Description of reference numerals: 10. embedding reinforcing steel bars in advance; 20. embedding a grouting sleeve; 201. a pulp inlet; 202. a pulp outlet; 30. presetting a blind hole; 1. a member body; 11. a connecting portion; 12. a first groove; 13. a first blind hole; 14. a second groove; 15. a protrusion; 151. a second through hole; 16. a third groove; 17. a third blind hole; 18. a first through hole; 19. a third through hole; 2. reinforcing steel bars; 3. a first grouting sleeve; 31. a first slurry inlet; 32. a first slurry outlet; 4. a gasket; 5. connecting blocks; 51. a second blind hole; 6. a second grouting sleeve; 61. a second slurry inlet; 62. a second slurry outlet; 7. fixing the steel bars; 81. a first internally threaded tube; 82. an active cannula; 821. a threaded portion; 822. a clamping block; 83. a second internally threaded tube; 91. a first bump; 92. and a second bump.

Concrete implementation structure

The present application is described in further detail below with reference to the attached drawings.

The embodiment of the application discloses a fabricated component.

Referring to fig. 1 and 2, the fabricated component includes a component body 1 and a connection part 11. Component body 1 is square massive structure, and the inside fixedly connected with of component body 1 has a plurality of embedded steel bars 10, and embedded steel bars 10 imbed in component body 1 when prefabricated component body 1. The component body 1 is still buried with a plurality of pre-buried slip casting sleeve pipes 20 when prefabricated, has seted up a plurality of preset blind holes 30 on the component body 1, and pre-buried slip casting sleeve pipe 20 is arranged in presetting blind hole 30, and the one side of seting up preset blind hole 30 is the bottom surface of component body 1. The connecting part 11 is a square block structure and is integrally formed with the component body 1, the connecting part 11 is positioned at the lower part of the side end of the component body 1, and the connecting part 11 is flush with the bottom surface of the component body 1. The connecting part 11 is provided with a steel bar 2, one end of the steel bar 2 penetrates into the connecting part 11 to be fixedly connected with the connecting part 11, and the other end of the steel bar 2 is a free end and is positioned above the connecting part 11.

First recess 12 has been seted up at component body 1, and first recess 12 is seted up and is left away from the side end of connecting portion 11 on component body 1, and first recess 12 is located the bottom of component body 1, has seted up a plurality of first blind holes 13 on the component body 1 of first recess 12 bottom, and a plurality of first blind holes 13 correspond with 2 positions of reinforcing bar on the connecting portion 11, and the reinforcing bar 2 of component body 1 inside extends to in the first blind hole 13. The component body 1 is fixedly connected with a first grouting sleeve 3, the first grouting sleeve 3 is located in a first blind hole 13, the first grouting sleeve 3 is in contact with the component body 1 on the side face of the first blind hole 13, a first grout inlet 31 and a first grout outlet 32 are formed in the first grouting sleeve 3, and the first grout inlet 31 and the first grout outlet 32 extend out of the component body 1 from the same face of the component body 1.

The method comprises the steps that firstly, an operator sets embedded steel bars 10 on an installation surface according to the positions of embedded grouting sleeves 20 on the bottom surface of a component body 1, cushion blocks are placed on the embedded steel bars 10 on the installation surface, then the operator uses a hoisting tool such as a tower crane to hoist the component body 1 to the position above the installation surface, the component body 1 is gradually lowered to enable the embedded steel bars 10 on the installation surface to penetrate into the embedded grouting sleeves 20 on the bottom surface of the component body 1, the component body 1 is placed on the cushion blocks to enable gaps to be reserved between the component body 1 and the installation surface, the gaps are plugged by using slurry, then the operator inputs the slurry into the embedded grouting sleeves 20, the slurry is injected into the embedded grouting sleeves 20 from a slurry inlet 201, the slurry flows to the gaps between the component body 1 and the installation surface along the embedded grouting sleeves 20 and is gradually filled into each embedded grouting sleeve 20, when the slurry flows out in a columnar shape from a slurry outlet 202 of each embedded grouting sleeve 20, the slurry outlet 202 and the slurry inlet 201 are stopped And (4) blocking.

The component body 1 is provided with a second groove 14, the second groove 14 is arranged on one surface of the component body 1, which is provided with the connecting part 11, and the second groove 14 is arranged above the connecting part 11. The member body 1 is provided with a projection 15, and the projection 15 is located on a surface of the member body 1 opposite to the surface provided with the connecting portion 11.

After a worker places one component body 1 on an installation surface and installs the component body, another component body 1 is lifted to the installed component body 1, the protruding portion 15 on the component body 1 in lifting is aligned to the second groove 14 of the installed component body 1, the protruding portion 15 is lifted and transported into the second groove 14, the second groove 14 plays a limiting role for the protruding portion 15, and the component body 1 in lifting slides more stably in the second groove 14 through the protruding portion 15 and is not easy to shake in the moving process.

The connecting part 11 is fixedly connected with a gasket 4, a worker places another member body 1 on the connecting part 11, the reinforcing steel bar 2 on the connecting part 11 is aligned with the first blind hole 13 on the member body 1 in the hoisting process, after the reinforcing steel bar 2 on the connecting part 11 is inserted into the first blind hole 13, the member body 1 in lifting is abutted with the gasket 4, the connecting part 11 is positioned in the first groove 12, the connecting part 11 and the component body 1 at the bottom of the first groove 12 are separated by the gasket 4 and leave a gap, a worker injects slurry into the first grouting sleeve 3 through the first slurry inlet 31 of the first grouting sleeve 3 at the first blind hole 13, the slurry flows to the gap between the connecting part 11 and the component body 1 along the first grouting sleeve 3, when the gap and the first blind hole 13 are filled with the slurry and the slurry flows out in a columnar shape from the first slurry outlet 32 of the first grouting sleeve 3, the grouting is stopped, and the first slurry inlet 31 and the first slurry outlet 32 are blocked.

The embodiment of the application also discloses an assembled component connecting structure.

Referring to fig. 2 and 3, the top surface of the component body 1 is provided with two third grooves 16, the two third grooves 16 are respectively located above the second groove 14 and the protrusion 15, when a worker installs the two component bodies 1 together, the third grooves 16 on the connecting surface of the two component bodies 1 are communicated, the component body 1 is provided with a connecting block 5, a plurality of reinforcing steel bars 2 identical to the reinforcing steel bars 2 on the connecting portion 11 are embedded in the connecting block 5, the connecting block 5 is provided with a plurality of second blind holes 51, one end of the reinforcing steel bars 2 on the connecting block 5 is located in the connecting block 5 and fixedly connected with the connecting block 5, the other end of the reinforcing steel bars 2 is located in the second blind holes 51, the connecting block 5 is fixedly connected with a second grouting sleeve 6, the second grouting sleeve 6 is located in the second blind holes 51, the second grouting sleeve 6 is fixedly connected with the connecting block 5 on the side surface of the second blind holes 51, the second grouting sleeve 6 is provided with a second grouting port 61 and a second grout outlet 62, the second grout inlet 61 is located below the second grout outlet 62, the second grout inlet 61 and the second grout outlet 62 of the second grouting sleeve 6 extend out of the connecting block 5, and when the connecting block 5 is prefabricated, the second grouting sleeve 6 is embedded into the connecting block 5.

After the staff places two component bodies 1, place the cushion on the component body 1 of third recess 16 bottom, then place connecting block 5 in the third recess 16, make reinforcing bar 2 in the third recess 16 aim at with the second blind hole 51 on the connecting block 5, handling connecting block 5 makes reinforcing bar 2 in the third recess 16 wear into second blind hole 51 next, the cushion makes and produces the clearance between connecting block 5 and the component body 1, the staff uses thick liquids to carry out the shutoff with the clearance, and with the second grout sleeve 6 of thick liquids on the second grout inlet 61 input connecting block 5, thick liquids along second grout sleeve 6 flow to the clearance between connecting block 5 and the component body 1. When the gap between the connecting block 5 and the component body 1 and the second grouting sleeve 6 are filled with the slurry, the slurry flows out in a columnar shape from the second slurry outlet 62, grouting is stopped, and finally the second slurry inlet 61 and the second slurry outlet 62 are plugged.

Referring to fig. 3 and 4, in order to make the connection between the two component bodies 1 more firm, a plurality of second through holes 151 are formed on the protruding portion 15, a plurality of first through holes 18 and a plurality of third blind holes 17 are formed on the component body 1 on the side of the second groove 14, the first through holes 18 are formed on the component body 1, the first grout inlet 31 extends out of one surface of the component body 1, the third blind holes 17 are formed on the component body 1 opposite to the first through holes 18, and the axes of the first through holes 18 and the third blind holes 17 are the same.

When the worker places the two member bodies 1, the second through hole 151 of the protruding portion 15 is connected to the first through hole 18 and communicates with the third blind hole 17, and the second through hole 151 is coaxial with the first through hole 18. Sliding connection has fixed reinforcing bar 7 on component body 1, fixed reinforcing bar 7 is located first through-hole 18, the staff uses fixed reinforcing bar 7 to wear into first through-hole 18 afterwards, fixed reinforcing bar 7 moves and finally moves to third blind hole 17 along first through-hole 18 and second through-hole 151, after fixed reinforcing bar 7 withstood component body 1 of third blind hole 17 bottom, the staff uses the thick liquids to pour into first through-hole 18, second through-hole 151 and third blind hole 17 in, thereby make and connect more firmly between two component bodies 1.

Referring to fig. 3 and 5, in order to further increase the firmness between the two component bodies 1, a first internal threaded pipe 81 is fixedly connected to the protruding portion 15, the first internal threaded pipe 81 is located inside the protruding portion 15, the outer end portion of the first internal threaded pipe 81 is flush with the side surface of the protruding portion 15, the axis of the first internal threaded pipe 81 is parallel to the axis of the second through hole 151, a movable sleeve 82 is connected to the first internal threaded pipe 81 in a threaded manner, a threaded portion 821 is arranged on the outer wall of the movable sleeve 82, and the movable sleeve 82 is connected to the first internal threaded pipe 81 in a threaded manner through the threaded portion 821. A second internally threaded tube 83 is fixedly connected to the member body 1 at a position corresponding to the first internally threaded tube 81, the second internally threaded tube 83 is identical to the first internally threaded tube 81, the second internally threaded tube 83 is provided on the member body 1 on the opposite side of the first internally threaded tube 81, and the first internally threaded tube 81 and the second internally threaded tube 83 have the same axis. The second internally threaded tube 83 penetrates the member body 1. A third through hole 19 is formed in the component body 1, the third through hole 19 is a square hole, and the third through hole 19 is communicated with the inside of the second internal threaded pipe 83.

After the two component bodies 1 are placed by a worker, the worker uses tools such as a screwdriver or an electric drill to penetrate through the third through hole 19 and the second internal threaded pipe 83 and finally enters the movable sleeve 82, the square third through hole 19 facilitates the worker to place tools such as the screwdriver and the electric drill, a plurality of fixture blocks 822 are fixedly connected to the inner wall of the movable sleeve 82, and the fixture blocks 822 are distributed along the axis of the movable sleeve 82 at equal angles. The worker can conveniently rotate the movable sleeve 82 by clamping a tool such as a screwdriver or an electric drill through the clamping block 822. When the worker rotates the movable sleeve 82 using an electric drill or other tool, the movable sleeve 82 moves toward the second internally threaded tube 83 while rotating, and the movable sleeve 82 is screwed with the second internally threaded tube 83 during the movement. After the movable sleeve 82 is in threaded connection with the second internal threaded pipe 83, the worker takes out the tool and injects slurry into the second internal threaded pipe 83, and the slurry stops grouting and blocks the third through hole 19 after the second internal threaded pipe 83, the movable sleeve 82 and the first internal threaded pipe 81 are filled with the slurry, so that the connection firmness of the two component bodies 1 is further improved.

Referring to fig. 3, the movable sleeve 82 may drive the first internal threaded tube 81 to rotate during the rotation process, so that the movable sleeve 82 is not easy to move toward the second internal threaded tube 83, in order to make the first internal threaded tube 81 not easy to rotate, a plurality of first protrusions 91 are fixedly connected to the first internal threaded tube 81, one end of the first internal threaded tube 81, which is far away from the surface of the protruding portion 15, is a sealing end, and the first protrusions 91 are located on the sealing end and penetrate into the protruding portion 15. The first bump 91 has a limiting effect on the first internally threaded tube 81, so that the movable sleeve 82 cannot drive the first internally threaded tube 81 to move when rotating.

When a part of the movable sleeve 82 is located inside the first internally threaded tube 81 and another part is located inside the second internally threaded tube 83 after the movable sleeve 82 is moved into the second internally threaded tube 83, the first internally threaded tube 81, the movable sleeve 82, and the second internally threaded tube 83 are in a stable state.

When the movable sleeve 82 is screwed with the second internally threaded pipe 83, the movable sleeve 82 may also drive the second internally threaded pipe 83 to rotate, thereby reducing the connection effect between the movable sleeve 82 and the second internally threaded pipe 83. In order to make the second internal thread tube 83 not easily rotate, a plurality of second protrusions 92 are fixedly connected to one end of the second internal thread tube 83, which is far away from the pair of protruding parts 15, the second protrusions 92 are inserted into the component body 1, the second protrusions 92 limit the second internal thread tube 83, and the movable sleeve 82 is not easily driven to rotate when being in threaded connection with the second internal thread tube 83, so that the movable sleeve 82 is better connected with the second internal thread tube 83.

The implementation principle of an assembled component in the embodiment of the application is as follows: the method comprises the steps that a worker places cushion blocks after embedding reinforcing steel bars 10 on an installation surface, then places a component body 1 on the installation surface, penetrates the embedded reinforcing steel bars 10 on the installation surface into an embedded grouting sleeve 20 at the bottom of the component body 1, plugs gaps between the component body 1 and the installation surface with slurry, stops grouting after the slurry fills the gaps between the component body 1 and the installation surface and the embedded grouting sleeve 20, and completes installation of the component body 1. And then, a worker places the gasket 4 on the connecting part 11, hoists the other member body 1 to the upper part of the installed member body 1, enables the protrusion part 15 on the hoisted member body 1 to be inserted into the second groove 14 of the installed member body 1, enables the steel bar 2 on the connecting part 11 to be inserted into the first blind hole 13, fills the gap between the connecting parts of the two member bodies 1 with slurry, and stops grouting after the slurry fills the first blind hole 13.

The implementation principle of a connection structure in the embodiment of the application is as follows: after the two component bodies 1 are placed, a worker places a cushion block on the framework body at the bottom of the third groove 16, then inserts the connecting block 5 into the reinforcing steel bar 2 at the bottom of the third groove 16, and then fills the gap between the connecting block 5 and the component body 1 and the second blind hole 51 with slurry. And then the fixing steel bar 7 is penetrated into the first through hole 18, the second through hole 151 and the third blind hole 17, and the first through hole 18, the second through hole 151 and the third blind hole 17 are filled with slurry, so that the two component bodies 1 are connected more firmly. Then the staff uses the instrument to wear into third through-hole 19 and is blocked by fixture block 822, the staff passes through the worker and rotates fixture block 822, fixture block 822 is at the pivoted in-process gradually with second internal thread pipe 83 threaded connection, at last the staff use thick liquids to fill up third through-hole 19, second internal thread pipe 83, movable sleeve 82 and first internal thread pipe 81 can, it is more firm to connect between two component bodies 1, and saved the process of building the template and pouring concrete, make the house construction more convenient, construction efficiency is improved.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (5)

1. The assembled component connecting structure is characterized by comprising an assembled component, wherein the assembled component comprises a component body (1), a connecting part (11) arranged on the component body (1) and a first groove (12) arranged on the component body (1); the connecting part (11) and the first groove (12) are respectively positioned on two opposite surfaces of the component body (1), and the connecting part (11) of the adjacent component body (1) is positioned in the first groove (12); reinforcing steel bars (2) are arranged in the member body (1) and on the connecting portion (11), the reinforcing steel bars (2) are perpendicular to the top surface of the connecting portion (11), a first blind hole (13) is formed in the member body (1) at the bottom of the first groove (12), the reinforcing steel bars (2) in the member body (1) extend into the first blind hole (13), and the positions of the reinforcing steel bars (2) and the first blind hole (13) correspond; a first grouting sleeve (3) is arranged on the component body (1), the first grouting sleeve (3) is positioned in the first blind hole (13), a first grout inlet (31) and a first grout outlet (32) are formed in the first grouting sleeve (3), and the first grout inlet (31) and the first grout outlet (32) extend out of the component body (1); a second groove (14) is formed in the component body (1), and a protruding portion (15) is formed in the component body (1); the protruding part (15) and the second groove (14) are respectively positioned on two opposite surfaces of the component body (1); the protruding part (15) and the first groove (12) are positioned on the same plane, and the second groove (14) and the connecting part (11) are positioned on the same side; a gasket (4) is arranged on the connecting part (11); the gasket (4) is positioned above the connecting part (11); the assembly type component connecting structure further comprises a connecting block (5) arranged on the component body (1), a steel bar (2) is arranged inside the connecting block (5), and a third groove (16) is formed in one end, close to the connecting part (11), of the component body (1); the reinforcing steel bar (2) penetrates through the third groove (16), a second blind hole (51) is formed in the connecting block (5), one end of the reinforcing steel bar (2) on the connecting block (5) penetrates into the connecting block (5), the other end of the reinforcing steel bar is located in the second blind hole (51), a second grouting sleeve (6) is arranged on the connecting block (5), and the second grouting sleeve (6) on the connecting block (5) is located in the second blind hole (51); a second grouting sleeve (6) on the connecting block (5) is provided with a second grout inlet (61) and a second grout outlet (62), and the second grout inlet (61) and the second grout outlet (62) extend out of the connecting block (5); a third blind hole (17) is formed in the component body (1) on the side surface of the third groove (16); a first through hole (18) is formed in the component body (1), the first through hole (18) is located in the component body (1) opposite to the third blind hole (17), and the first through hole (18) corresponds to the third blind hole (17); the protruding parts (15) are provided with second through holes (151), and when the protruding parts (15) on two adjacent component bodies (1) are positioned in the third grooves (16), the first through holes (18), the second through holes (151) and the third blind holes (17) are communicated with each other; the component body (1) is provided with a fixed steel bar (7), and the fixed steel bar (7) penetrates through the first through hole (18), the second through hole (151) and the third blind hole (17); a first internal threaded pipe (81) is arranged on the protruding part (15), and a movable sleeve (82) is connected to the first internal threaded pipe (81) in a threaded manner; the outer walls of the movable sleeves (82) are provided with threaded parts (821), and the component body (1) on the side surface of the third groove (16) is provided with a second internal threaded pipe (83); the first internally threaded tube (81) is located inside the protrusion (15), the second internally threaded tube (83) penetrates into the member body (1), and the threaded portion (821) of the movable sleeve (82) is in threaded connection with the second internally threaded tube (83); a third through hole (19) is formed in the component body (1), and the third through hole (19) is communicated with the interior of the second internal threaded pipe (83).

2. The fabricated component connecting structure according to claim 1, wherein: the number of the first through holes (18), the second through holes (151) and the third blind holes (17) is multiple.

3. The fabricated component connecting structure according to claim 1, wherein: a plurality of clamping blocks (822) are arranged on the inner wall of the movable sleeve (82);

the clamping blocks (822) are distributed on the inner wall of the movable sleeve (82) at equal angles.

4. The fabricated component connecting structure according to claim 1, wherein: one end of the first internal threaded pipe (81) positioned inside the protruding part (15) is a sealed end, and one surface of the sealed end, which is in contact with the protruding part (15), is provided with a first bump (91);

the first projection (91) penetrates into the projection (15).

5. The fabricated component connecting structure according to claim 4, wherein: a second bump (92) is arranged at one end, far away from the protruding part (15), of the second internal threaded pipe (83);

the second projection (92) penetrates into the component body (1).

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