CN210366831U - Assembly part inclination angle adjusting mechanism for assembly type building - Google Patents

Abstract

The utility model provides an assembly spare inclination adjustment mechanism of prefabricated building, it includes base, vertical braces, lift support and atress support, through vertical braces and base both sides sliding fit, the lift support is connected with the vertical braces, and the atress support is connected with the lift support, but through removing vertical braces adjusting distance, but through jacking lift support height-adjusting, the inclination of adjustment atress support, it carries the thing to be used for the bearing to carry through the atress support. The utility model overcomes when former assembly type structure inner space assembles, the assembly part transport is inconvenient, and intensity of labour is high, is not convenient for adjust the problem at inclination during the butt joint, has simple structure, transports conveniently, low in labor strength, the adjustment height and the inclination of being convenient for, easy operation convenient characteristics.

Description

Assembly part inclination angle adjusting mechanism for assembly type building

Technical Field

The utility model belongs to the technical field of the assembly type structure, a fabricated part inclination adjustment mechanism is related to.

Background

In the assembly process of the fabricated building, a hoisting device is generally adopted as a main tool for installation, but the part located indoors is generally limited, and cannot be installed by adopting the hoisting device. For example, after a building roof is installed or poured and molded, indoor hoisting equipment located on the lower layer cannot enter, the ground clearance is high, assembling parts such as lap plates and plugging plates which are locally adjusted and installed need to be installed by cooperation of multiple persons, the installation process is inconvenient to carry, the labor intensity is high, and the inclination angle is not convenient to adjust.

Disclosure of Invention

The utility model aims to solve the technical problem that an assembly spare inclination adjustment mechanism is provided to assembly type structure, simple structure adopts vertical support and base sliding fit, and the lift is supported and is connected with the vertical support, and the atress is supported and is connected with the lift support, and the distance between two vertical supports is adjustable, and the lift supports the height that the jacking atress supported that makes progress, and the inclination that the adjustment atress supported, and the atress supports and is used for the bearing to carry the thing, and convenient transportation, low in labor strength, the adjustment height and the inclination of being convenient for, easy operation is convenient.

In order to solve the technical problem, the utility model discloses the technical scheme who adopts is: an inclination angle adjusting mechanism of an assembly part of an assembly type building comprises a base, a vertical support, a lifting support and a stressed support; the vertical support is in sliding fit with the two sides of the base, the lifting support is connected with the vertical support, and the stressed support is connected with the lifting support; the distance between the two vertical supports can be adjusted; the lifting support is lifted along the vertical support to drive the stressed support to adjust the inclination angle.

The base is a hollow frame body formed by sectional materials, the vertical support is matched with the sectional materials on two sides, and the lower side surface of the base is connected with a plurality of rollers.

The vertical support comprises a vertical rod connected with a sliding seat, the sliding seat is in sliding fit with the base, and the fastening piece is locked.

The sliding seats on the two sides of the base correspond to each other, and every two sliding seats corresponding to each other are connected and fixed through a connecting plate.

The lifting support comprises a sliding pipe connected with two ends of the lifting rod, and a locking nut and a jacking nut which are positioned on the upper side and the lower side of the sliding pipe, wherein the sliding pipe is in sliding fit with the vertical rod of the vertical support, and the locking nut and the jacking nut are in threaded fit with the vertical rod.

The stress support comprises a cross pipe in sliding fit with the stress rod, and the cross pipe is located at two ends of the stress rod and is in sliding fit with the lifting rod of the lifting support respectively.

The cross pipe is two pipe bodies which are overlapped and crossed with each other, and the pipe bodies are provided with locking screws which are respectively butted and locked with the lifting rod and the stress rod.

The number of the stressed supports is multiple.

An inclination angle adjusting mechanism of an assembly part of an assembly type building comprises a base, a vertical support, a lifting support and a stressed support; the vertical support is in sliding fit with two sides of the base, the lifting support is connected with the vertical support, and the stressed support is connected with the lifting support; the distance between the two vertical supports can be adjusted; the lifting support is lifted along the vertical support to drive the stressed support to adjust the inclination angle. Simple structure, through vertical support and base both sides sliding fit, the lift supports and is connected with the vertical support, and the atress supports to be connected with the lift support, through removing the adjustable distance of vertical support, through jacking lift support height-adjustable, the inclination that the adjustment atress supported is used for the bearing to carry the thing through the atress support, and it is convenient to transport, low in labor strength, the adjustment height and the inclination of being convenient for, easy operation convenience.

In a preferred scheme, the base is a hollow frame body formed by sectional materials, the vertical support is matched with the sectional materials on two sides, and the lower side surface is connected with a plurality of rollers. Simple structure, during the installation, the gyro wheel is located the base downside four corners of rectangle structure and fixes, adopts the gyro wheel to drive overall structure and removes, and the base supports the atress, low in labor strength during the transport.

In a preferred scheme, the vertical support comprises a vertical rod connected with a sliding seat, the sliding seat is in sliding fit with the base, and the fastening piece is locked. Simple structure, during the installation, the section bar sliding fit of sliding seat and base both sides, vertical pole perpendicular to sliding seat side is rather than fixed.

In a preferred scheme, the sliding seats positioned on the two sides of the base correspond to each other, and every two sliding seats corresponding to each other are connected and fixed by a connecting plate. Simple structure adopts the connecting plate to become a whole with the sliding seat interconnect that the base both sides correspond, improves structural strength height, and is synchronous during the removal.

In the preferred scheme, the lifting support comprises a sliding pipe connected with two ends of the lifting rod, a locking nut and a jacking nut which are positioned on the upper side and the lower side of the sliding pipe, the sliding pipe is in sliding fit with the vertical rod of the vertical support, and the locking nut and the jacking nut are in threaded fit with the vertical rod. Simple structure, during the installation, the sliding tube of lift support cup joints with vertical pole of vertical support, and during the use, lock nut does not contradict with the sliding tube, and the rotatory jacking of jacking nut slides the pipe and moves along vertical pole rebound, and the adjustment atress supports the inclination at both ends, and later lock nut contradicts with the sliding tube and locks.

In a preferred scheme, the stress support comprises a cross pipe in sliding fit with the stress rod, and the cross pipe is positioned at two ends of the stress rod and is respectively in sliding fit with the lifting rod of the lifting support. Simple structure, during the installation, the lifting rod that the cross pipe connection goes up and down to support and the atress pole that the atress supported, connect convenient and fast.

In the preferred scheme, the cross pipe is two pipe bodies which are overlapped and crossed with each other, and the pipe bodies are provided with locking screws which are respectively abutted and locked with the lifting rod and the stress rod. The lifting device is simple in structure, when the lifting device is used, the movable cross pipe drives the stress support to slide along the axial direction of the lifting rod, the stress rod supported by the stress support can also be matched with the cross pipe to stretch, and the locking screw is adopted for locking, so that the lifting device is flexible and reliable.

In a preferred scheme, the number of the stress supports is multiple. Simple structure, during the use, a plurality of atress bearing structure intensity are higher, and it is bigger to bear weight.

The utility model provides an assembly spare inclination adjustment mechanism of prefabricated building, it includes base, vertical braces, lift support and atress support, through vertical braces and base both sides sliding fit, the lift support is connected with the vertical braces, and the atress support is connected with the lift support, but through removing vertical braces adjusting distance, but through jacking lift support height-adjusting, the inclination of adjustment atress support, it carries the thing to be used for the bearing to carry through the atress support. The utility model overcomes when former assembly type structure inner space assembles, the assembly part transport is inconvenient, and intensity of labour is high, is not convenient for adjust the problem at inclination during the butt joint, has simple structure, transports conveniently, low in labor strength, the adjustment height and the inclination of being convenient for, easy operation convenient characteristics.

Drawings

The invention will be further explained with reference to the following figures and examples:

fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a front view of fig. 1.

Fig. 3 is a side view of fig. 2.

Fig. 4 is a schematic top view of fig. 2.

Fig. 5 is a schematic cross-sectional view at a-a of fig. 2.

Fig. 6 is an enlarged schematic view of fig. 5 at B.

In the figure: the lifting device comprises a base 1, a roller 11, a vertical support 2, a sliding seat 21, a vertical rod 22, a connecting plate 23, a lifting support 3, a lifting rod 31, a sliding tube 32, a locking nut 33, a jacking nut 34, a stress support 4, a stress rod 41 and a cross tube 42.

Detailed Description

As shown in fig. 1 to 6, an inclination angle adjusting mechanism for an assembly of a fabricated building comprises a base 1, a vertical support 2, a lifting support 3 and a stressed support 4; the vertical supports 2 are in sliding fit with the two sides of the base 1, the lifting supports 3 are connected with the vertical supports 2, and the stressed supports 4 are connected with the lifting supports 3; the distance between the two vertical supports 2 can be adjusted; the lifting support 3 is lifted along the vertical support 2 to drive the stressed support 4 to adjust the inclination angle. Simple structure, through vertical support 2 and 1 both sides sliding fit of base, lift support 3 is connected with vertical support 2, and the atress is supported 4 and is supported 3 with lifting and is connected, through removing 2 adjustable distances of vertical support, through 3 height-adjustable of jacking lift support, adjusts the inclination that the atress supported 4, is used for the bearing through atress support 4 and carries the thing, and it is convenient to transport, low in labor strength, the adjustment height and the inclination of being convenient for, and easy operation is convenient.

In a preferred scheme, the base 1 is a hollow frame body formed by sectional materials, the vertical supports 2 are matched with the sectional materials on two sides, and the lower side surface of the vertical supports is connected with a plurality of rollers 11. Simple structure, during the installation, gyro wheel 11 is located the base 1 downside four corners of rectangle structure and fixes, adopts gyro wheel 11 to drive overall structure and removes, and base 1 supports the atress, low in labor strength during the transport.

Preferably, the section bars forming the base 1 are i-shaped steel, and the structural strength is high.

Preferably, one end of the roller 11 is a fixed roller, and the other end is a universal roller with a brake mechanism. The direction can be conveniently adjusted, and the rotation is flexible.

In a preferred scheme, the vertical support 2 comprises a vertical rod 22 connected with a sliding seat 21, the sliding seat 21 is in sliding fit with the base 1, and a fastener is locked. Simple structure, during the installation, the section bar sliding fit of sliding seat 21 and base 1 both sides, vertical pole 22 perpendicular to sliding seat 21 upside face is rather than fixed.

Preferably, the sliding seat 21 is a channel plate with a downward opening, the channel body is matched with the upper side surface of the i-steel, the connecting plates on the upper side and the lower side of the i-steel are positioned in the opening of the channel plate, and the locking screw penetrates through the upper side surface of the channel plate to be abutted and locked with the i-steel.

Preferably, the vertical rod 22 is a threaded rod, which is in threaded fit with the lifting support 3 to facilitate jacking.

In a preferred scheme, the sliding seats 21 at two sides of the base 1 correspond to each other, and every two sliding seats 21 corresponding to each other are connected and fixed by a connecting plate 23. Simple structure adopts connecting plate 23 to interconnect the sliding seat 21 that the base 1 both sides correspond and becomes a whole, improves structural strength height, and is synchronous during the removal.

In a preferred scheme, the lifting support 3 comprises a sliding pipe 32 connected with two ends of the lifting rod 31, and a locking nut 33 and a jacking nut 34 which are positioned on the upper side and the lower side of the sliding pipe 32, wherein the sliding pipe 32 is in sliding fit with the vertical rod 22 of the vertical support 2, and the locking nut 33 and the jacking nut 34 are in threaded fit with the vertical rod 22. Simple structure, during the installation, the sliding tube 32 of lift support 3 cup joints with the vertical pole 22 of vertical braces 2, and during the use, lock nut 33 does not contradict with sliding tube 32, and jacking nut 34 rotatory jacking sliding tube 32 upwards moves along vertical pole 22, adjusts the inclination that the atress supported 4 both ends, and later lock nut 33 contradicts with sliding tube 32 and locks.

In a preferred scheme, the stressed support 4 comprises a cross-shaped pipe 42 in sliding fit with the stressed rod 41, and the cross-shaped pipe 42 is positioned at two ends of the stressed rod 41 and is respectively in sliding fit with the lifting rod 31 of the lifting support 3. The structure is simple, during installation, the cross tube 42 is connected with the lifting rod 31 of the lifting support 3 and the stress rod 41 of the stress support 4, and the connection is convenient and quick.

In a preferred scheme, the cross pipe 42 is two pipe bodies which are overlapped and crossed with each other, and locking screws are arranged on the pipe bodies and are respectively abutted and locked with the lifting rod 31 and the stress rod 41. Simple structure, during the use, remove cross 42 and drive atress support 4 along the axial slip of lifter 31, atress support 4's atress rod 41 also can with cross 42 cooperation flexible, adopt locking screw locking, nimble reliable.

Preferably, when the inclination angle of the stressed support 4 is adjusted, the cross tube 42 connected with the lifting rod 31 is in an unlocked state, the vertical support 2 at one end of the base 1 is in a locked state, the vertical support 2 at the other end is in an unlocked state, the lifting rod 31 at the end is jacked, and the lifting rod 31 at the end drives the stressed rod 41 at the end to be lifted to adjust the inclination angle, so that the adjustment is convenient and fast, and the operation is simple.

In a preferred embodiment, the number of the stressed supports 4 is multiple. Simple structure, during the use, a plurality of atress support 4 structural strength are higher, bear weight bigger.

As above efflux agitating unit, during the installation use, vertical support 2 and 1 both sides sliding fit of base, the lift supports 3 and is connected with vertical support 2, and the atress supports 4 and is connected with lift supports 3, removes 2 adjustable distance of vertical support, and 3 adjustable height are supported in the jacking lift, and the inclination of adjustment atress support 4, the atress support 4 is used for the bearing to carry the thing, transports conveniently, low in labor strength is convenient for adjust height and inclination, and easy operation is convenient.

During the installation, gyro wheel 11 is located the base 1 downside four corners of rectangle structure and fixes, adopts gyro wheel 11 to drive overall structure and removes, and base 1 supports the atress, low in labor strength during the transport.

During installation, the sliding seat 21 is in sliding fit with the profiles on the two sides of the base 1, and the vertical rod 22 is perpendicular to the upper side face of the sliding seat 21 and fixed with the sliding seat.

The sliding seats 21 corresponding to the two sides of the base 1 are connected into a whole by the connecting plate 23, so that the structural strength is improved, and the movement is synchronous.

During installation, the sliding pipe 32 of the lifting support 3 is sleeved with the vertical rod 22 of the vertical support 2, when the lifting support is used, the locking nut 33 does not abut against the sliding pipe 32, the jacking nut 34 rotates the jacking sliding pipe 32 to move upwards along the vertical rod 22, the inclination angles of the two ends of the stress support 4 are adjusted, and then the locking nut 33 abuts against and is locked with the sliding pipe 32.

During installation, the cross tube 42 is connected with the lifting rod 31 of the lifting support 3 and the stress rod 41 of the stress support 4, and the connection is convenient and quick.

When the lifting device is used, the movable cross tube 42 drives the stressed support 4 to slide along the axial direction of the lifting rod 31, the stressed rod 41 of the stressed support 4 can also be matched with the cross tube 42 to extend and retract, and the locking screw is adopted for locking, so that the lifting device is flexible and reliable.

When in use, the plurality of stressed supports 4 have higher structural strength and bear heavier weight.

The above embodiments are merely preferred technical solutions of the present invention, and should not be considered as limitations of the present invention, and the features in the embodiments and the examples in the present application may be arbitrarily combined with each other without conflict. The protection scope of the present invention shall be defined by the claims and the technical solutions described in the claims, including the technical features of the equivalent alternatives as the protection scope. Namely, equivalent alterations and modifications within the scope of the invention are also within the scope of the invention.

Claims (8)

1. An inclination angle adjusting mechanism for an assembly part of an assembly type building is characterized in that: the lifting device comprises a base (1), a vertical support (2), a lifting support (3) and a stressed support (4); the vertical support (2) is in sliding fit with the two sides of the base (1), the lifting support (3) is connected with the vertical support (2), and the stressed support (4) is connected with the lifting support (3); the distance between the two vertical supports (2) can be adjusted; the lifting support (3) is lifted along the vertical support (2) to drive the stressed support (4) to adjust the inclination angle.

2. The fabricated building assembly tilt angle adjustment mechanism of claim 1, wherein: the base (1) is a hollow frame body formed by sectional materials, the vertical supports (2) are matched with the sectional materials on two sides, and the lower side surface of the base is connected with a plurality of rollers (11).

3. The fabricated building assembly tilt angle adjustment mechanism of claim 1, wherein: the vertical support (2) comprises a vertical rod (22) connected with a sliding seat (21), the sliding seat (21) is in sliding fit with the base (1), and a fastener is locked.

4. The fabricated building assembly tilt angle adjustment mechanism of claim 3, wherein: the sliding seats (21) on the two sides of the base (1) correspond to each other, and every two sliding seats (21) corresponding to each other are connected and fixed through a connecting plate (23).

5. The fabricated building assembly tilt angle adjustment mechanism of claim 1, wherein: the lifting support (3) comprises a sliding pipe (32) connected with two ends of the lifting rod (31), a locking nut (33) and a jacking nut (34) which are positioned on the upper side and the lower side of the sliding pipe (32), the sliding pipe (32) is in sliding fit with a vertical rod (22) of the vertical support (2), and the locking nut (33) and the jacking nut (34) are in threaded fit with the vertical rod (22).

6. The fabricated building assembly tilt angle adjustment mechanism of claim 1, wherein: the stress support (4) comprises a cross pipe (42) in sliding fit with the stress rod (41), and the cross pipe (42) is positioned at two ends of the stress rod (41) and is in sliding fit with the lifting rod (31) of the lifting support (3) respectively.

7. The fabricated building assembly tilt angle adjustment mechanism of claim 6, wherein: the cross pipe (42) is two pipe bodies which are overlapped and crossed with each other, and locking screws are arranged on the pipe bodies and are respectively abutted and locked with the lifting rod (31) and the stress rod (41).

8. The tilt angle adjustment mechanism for a fabricated building assembly according to any one of claims 1 to 7, wherein: the number of the stressed supports (4) is multiple.

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