CN114278662A

CN114278662A - Planar structure splicing fixer for assembly type building

Info

Publication number: CN114278662A
Application number: CN202111612969.0A
Authority: CN
Inventors: 王济龙
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-12-27
Filing date: 2021-12-27
Publication date: 2022-04-05

Abstract

The invention discloses a plane structure splicing fixer for an assembly type building, which comprises a main hollow rod and an adsorption shell, wherein a contraction original piece for contraction is arranged inside the main hollow rod, the contraction original piece is fixedly connected with the side surface of the adsorption shell, and a gas adsorption structure adsorbed on a plane through air negative pressure is arranged inside the adsorption shell. According to the invention, the two plane objects can be mutually extruded at the splicing part by providing the pulling force with the same strength, the extrusion effect can be beneficial to shaping, and the negative influence of the splicing material due to plastic deformation is reduced, so that the spliced finished product has stronger compression-resistant effect.

Description

Planar structure splicing fixer for assembly type building

Technical Field

The invention relates to the technical field of assembly type buildings, in particular to a plane structure splicing fixer for an assembly type building.

Background

At present, the assembly type building is very convenient for people needing to live temporarily, namely an assembly room, and after two plane plates are installed in the assembly room in a butt joint mode, due to the fact that a certain time of extrusion process is lacked, the shock resistance of the assembly room has certain defects.

Disclosure of Invention

The present invention is directed to a planar structure splicing fixer for assembly type buildings, so as to solve the problems mentioned in the background art.

In order to achieve the purpose, the invention provides the following technical scheme: the utility model provides a planar structure concatenation fixer for assembly type structure, includes main hollow rod and adsorption shell, the inside of main hollow rod is equipped with the shrink original paper that is used for the shrink, and the side fixed connection of shrink original paper and adsorption shell, and adsorption shell's inside is equipped with through the gas adsorption structure of air negative pressure absorption on the plane.

Preferably, the contraction element comprises a main limiting hole formed in the center of the main hollow rod and telescopic motion spaces formed in two end faces of the main limiting hole, air flowing holes which are communicated with the outside and used for air compensation are formed in the rod body of the main hollow rod, a movable piston body is arranged in each telescopic motion space, a telescopic rod is arranged at the center of one end, back to the piston body, of each telescopic rod is sleeved in an inner ring of a spiral spring, the rod body of each telescopic rod penetrates through the end portion of the main hollow rod at the corresponding position, and the telescopic rod is fixedly arranged at one end, located outside, of the side face of the adsorption shell.

Preferably, the contraction element comprises a main limiting hole arranged at the center of the inside of the main hollow rod, telescopic motion spaces arranged at two end faces of the main limiting hole and a pressure control shell positioned on the side face of the main hollow rod, an air flow hole communicated with the outside and used for air compensation and an air compensation hole provided with a valve core are arranged inside the rod body of the main hollow rod, an air one-way valve is arranged inside the air flow hole, a movable piston body is arranged inside each telescopic motion space, a telescopic rod is arranged at the center of one back end of each piston body, the rod body of each telescopic rod penetrates through the end part of the main hollow rod at the corresponding position, the telescopic rod is fixedly arranged at one end positioned outside and the side face of the adsorption shell, a pressure control space is arranged at the center of the inside of the pressure control shell, a valve port used for air discharge is arranged at the bottom of one side of the pressure control shell, and the bottom of the pressure control space is communicated with the air flow hole, a sealing moving plate is arranged in the extrusion space, and a pressure rod is arranged at the center of the top end of the sealing moving plate and drives the sealing moving plate to be linked.

Preferably, the initial length of the coil spring is greater than the lateral length of the telescopic movement space.

Preferably, the air inlet end located inside the air flow hole faces the main limiting hole.

Preferably, the air inlet end of the air check valve positioned in the valve port faces the pressure control space.

Preferably, the inside center of adsorbing the shell is equipped with hollow structure, and the bottom of adsorbing the shell is equipped with the air vent of interior outer knot of intercommunication, and a rubber adsorption dish is installed to the bottom of adsorbing the shell, and the top of adsorbing the shell is equipped with a locating lever, and the inside of locating lever is equipped with the flexible hole on intercommunication hollow structure top, and the top of locating lever is equipped with a symmetry, is used for fixed biconcave structure, a mobilizable piston plate of internally mounted of hollow structure, a pull rod is installed at the top center of piston plate, and the body of rod of pull rod runs through flexible hole, and a top installation horizontal pole.

Preferably, the double-concave structure is a semicircular structure, and a line connecting centers of the two semicircular structures is perpendicular to an axis of the telescopic hole.

Compared with the prior art, the invention has the beneficial effects that: according to the invention, the two plane objects can be mutually extruded at the splicing part by providing the pulling force with the same strength, the extrusion effect can be beneficial to shaping, and the negative influence of the splicing material due to plastic deformation is reduced, so that the spliced finished product has stronger compression-resistant effect.

Drawings

FIG. 1 is a schematic view of a first embodiment of a planar structure splicing fixture for prefabricated buildings according to the present invention;

FIG. 2 is a schematic structural diagram of a positioning rod of the flat splicing fixture for prefabricated buildings according to the present invention;

FIG. 3 is a schematic view of a second embodiment of a plane structure splicing fixture for prefabricated buildings according to the present invention;

in the figure: the air pressure control device comprises a main hollow rod 1, a main hollow rod 2, a main limiting hole 3, an air flowing hole 4, a telescopic motion space 5, a piston body 6, a spiral spring 7, a telescopic rod 8, an adsorption shell 9, a hollow structure 10, an air vent 11, a rubber adsorption disc 12, a positioning rod 13, a telescopic hole 14, a double-concave structure 15, a piston plate 16, a pull rod 17, a cross rod 18, a pressure control space 19, a valve port 20, a sealing movable plate 21, a pressure rod 22 and a pressure control shell.

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.

Referring to fig. 1-2, a first embodiment of the present invention is provided: including main hollow rod 1 and adsorption housing 8, the inside of main hollow rod 1 is equipped with the shrink original paper that is used for the shrink, and the side fixed connection of shrink original paper and adsorption housing 8, and adsorption housing 8's inside is equipped with through the gas adsorption structure of air negative pressure absorption on the plane.

The contraction original piece comprises a main limiting hole 2 arranged at the center of the inside of a main hollow rod 1 and telescopic motion spaces 4 arranged on two end faces of the main limiting hole 2, an air flow hole 3 communicated with the outside and used for air compensation is formed in the rod body of the main hollow rod 1, a movable piston body 5 is arranged in each telescopic motion space 4, a telescopic rod 7 is arranged at the center of one end of each piston body 5 facing away from the other, the rod body of each telescopic rod 7 is sleeved in an inner ring of a spiral spring 6, the rod body of each telescopic rod 7 penetrates through the end part of the main hollow rod 1 at the corresponding part, and the telescopic rod 7 is fixedly arranged at one end of the outside and on the side face of an adsorption shell 8.

The initial length of the spiral spring 6 is larger than the transverse length of the telescopic motion space 4, and the elasticity of the spiral spring 6 is utilized to ensure that the two telescopic rods 7 generate the tendency of moving towards the center after being stretched and fixed, so that the pulling force with the same angle is generated, and the phenomenon of necessary fixed pulling force extrusion is provided.

The inside center of adsorbing shell 8 is equipped with hollow structure 9, the bottom of adsorbing shell 8 is equipped with the air vent 10 of the interior outer knot of intercommunication, a rubber adsorption dish 11 is installed to the bottom of adsorbing shell 8, the top of adsorbing shell 8 is equipped with a locating rod 12, the inside of locating rod 12 is equipped with the flexible hole 13 on intercommunication hollow structure 9 top, the top of locating rod 12 is equipped with a symmetry, be used for fixed biconcave structure 14, a mobilizable piston plate 15 of internally mounted of hollow structure 9, a pull rod 16 is installed at the top center of piston plate 15, the body of rod of pull rod 16 runs through flexible hole 13, and a top installation horizontal pole 17.

The biconcave structure 14 is of a semicircular structure, the circle center connecting line of the semicircular structure is perpendicular to the axis of the telescopic hole 13, when the pull rod 16 is pulled upwards, the inside of the hollow structure 9 can generate a negative pressure state, and at the moment, the cross rod 17 is transversely placed inside the biconcave structure 14, so that a fixing effect can be achieved, the structure is simple and convenient, and the stability is high.

Referring to fig. 2-3, the suction type air conditioner comprises a main hollow rod 1 and an adsorption shell 8, wherein a contraction element for contraction is arranged inside the main hollow rod 1, the contraction element is fixedly connected with the side surface of the adsorption shell 8, and an air adsorption structure adsorbed on a plane through air negative pressure is arranged inside the adsorption shell 8.

The contraction original piece comprises a main limiting hole 2 arranged at the center of the inside of a main hollow rod 1, telescopic motion spaces 4 arranged at two end faces of the main limiting hole 2 and a pressure control shell 22 positioned at the side face of the main hollow rod 1, an air flow hole 3 which is communicated with the outside and is used for air compensation and an air compensation hole provided with a valve core are arranged inside a rod body of the main hollow rod 1, an air one-way valve is arranged inside the air flow hole 3, a movable piston body 5 is arranged inside each telescopic motion space 4, a telescopic rod 7 is arranged at the center of one back end of each piston body 5, the rod body of each telescopic rod 7 penetrates through the end part of the main hollow rod 1 at the corresponding part, the telescopic rod 7 is fixedly arranged at one end positioned at the outside and the side face of the adsorption shell 8, a pressure control space 18 is arranged at the center of the inside of the pressure control shell 22, a valve port 19 used for air discharge is arranged at the bottom of one side of the pressure control shell 22, the bottom of the pressure control space 18 is communicated with the air flowing hole 3, a sealing moving plate 20 is arranged inside the extrusion space 18, a pressure lever 21 is arranged at the center of the top end of the sealing moving plate 20, and the pressure lever 21 drives the sealing moving plate 20 to be linked.

The air inlet end inside the air flow hole 3 faces the main limiting hole 2.

The air inlet end of the air check valve inside the valve port 19 faces the pressure control space 181, the air check valve is matched with the pressure control space through a plurality of check valves, after the internal air is pumped out, a negative pressure state can be generated, the negative pressure state can provide equal and synchronous tension effects for the two adsorption shells 8, the effect acts on the two plane structures, and a better extrusion effect can be provided.

The biconcave structure 14 is a semicircular structure, and a line connecting centers of the two semicircular structures is perpendicular to an axis of the telescopic hole 13.

The specific implementation mode is as follows: with two rubber adsorption dish 11 attached on two planar structure that need the extruded, then, pulling horizontal pole 17 to make horizontal pole 17 place in the inside of biconcave structure 14, at this moment, two adsorb shell 8 just can adsorb two planar structure on the surface, the first embodiment is used, and coil spring 6 can provide the pulling force, realizes the extrusion effect, the second embodiment utilizes above-mentioned principle, reciprocal pressing depression bar 21, can realize the extrusion function of pulling force formula.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims

1. The utility model provides a planar structure concatenation fixer for assembly type structure, includes main hollow rod (1) and adsorbs shell (8), its characterized in that: the inside of main hollow rod (1) is equipped with the shrink original paper that is used for the shrink, and the side fixed connection of shrink original paper and adsorption housing (8), and the inside of adsorption housing (8) is equipped with through air negative pressure and adsorbs gas adsorption structure on the plane.

2. The planar structure splicing fixer for assembly buildings according to claim 1, wherein: the telescopic element comprises a main limiting hole (2) formed in the center of the inside of a main hollow rod (1) and telescopic motion spaces (4) formed in two end faces of the main limiting hole (2), an air flow hole (3) communicated with the outside and used for air compensation is formed in the rod body of the main hollow rod (1), a movable piston body (5) is arranged in each telescopic motion space (4), a telescopic rod (7) is mounted at the center of one end, facing away from the rod body, of each telescopic rod (7) is sleeved in an inner ring of a spiral spring (6), the rod body of each telescopic rod (7) penetrates through the end portion of the main hollow rod (1) at the corresponding position, and the telescopic rod (7) is fixedly mounted on one end, located outside, of the telescopic rod and the side face of the adsorption shell (8).

3. The planar structure splicing fixer for assembly buildings according to claim 1, wherein: the contraction original piece comprises a main limiting hole (2) arranged at the center of the inside of a main hollow rod (1), telescopic motion spaces (4) arranged on two end faces of the main limiting hole (2) and a pressure control shell (22) positioned on the side face of the main hollow rod (1), an air flow hole (3) which is communicated with the outside and is used for air compensation and an air compensation hole provided with a valve core are arranged inside a rod body of the main hollow rod (1), an air one-way valve is arranged inside the air flow hole (3), a movable piston body (5) is arranged inside each telescopic motion space (4), a telescopic rod (7) is arranged at the center of one end of each piston body (5) which is back to the center, the rod body of each telescopic rod (7) penetrates through the end part of the main hollow rod (1) at the corresponding part, and the telescopic rod (7) is fixedly arranged at one end positioned outside and the side face of the adsorption shell (8), the pressure control device comprises a pressure control shell (22), a pressure control space (18) is arranged in the center of the interior of the pressure control shell (22), a valve port (19) for air discharge is formed in the bottom of one side of the pressure control shell (22), the bottom of the pressure control space (18) is communicated with an air flowing hole (3), a sealing moving plate (20) is arranged in an extrusion space (18), a pressure lever (21) is installed in the center of the top end of the sealing moving plate (20), and the pressure lever (21) drives the sealing moving plate (20) to be linked.

4. The planar structure splicing fixer for assembly buildings according to claim 2, characterized in that: the initial length of the spiral spring (6) is larger than the transverse length of the telescopic motion space (4).

5. The planar structure splicing fixer for assembly buildings according to claim 3, wherein: the air inlet end positioned in the air flowing hole (3) faces the main limiting hole (2).

6. The planar structure splicing fixer for assembly buildings according to claim 3, wherein: the air inlet end of the air one-way valve positioned in the valve port (19) faces the pressure control space (18).

7. The assembly type construction panel splicing fixture according to any one of claims 1 to 6, wherein: the novel multifunctional vacuum adsorption device is characterized in that a hollow structure (9) is arranged at the center of the inside of an adsorption shell (8), air vents (10) for communicating the inner knot and the outer knot are formed in the bottom of the adsorption shell (8), a rubber adsorption disc (11) is installed at the bottom of the adsorption shell (8), a positioning rod (12) is arranged at the top end of the adsorption shell (8), telescopic holes (13) which are communicated with the top end of the hollow structure (9) are formed in the inside of the positioning rod (12), a symmetrical double-concave structure (14) for fixing is arranged at the top end of the positioning rod (12), a movable piston plate (15) is installed inside the hollow structure (9), a pull rod (16) is installed at the center of the top end of the piston plate (15), a rod body of the pull rod (16) penetrates through the telescopic holes (13), and a transverse rod (17) is installed at the top end of the rod.

8. The planar structure splicing fixer for fabricated buildings according to claim 7, wherein: the biconcave structure (14) is of a semicircular structure, and a circle center connecting line of the two semicircular structures is vertical to the axis of the telescopic hole (13).