CN218623292U - Support frame for high-rise building - Google Patents

Abstract

The utility model discloses a support frame for high-rise building belongs to building construction technical field, include: a base; the X-axis adjusting assembly is arranged at the top of the base, and the Y-axis adjusting assembly is arranged at the top of the X-axis adjusting assembly and is used for performing displacement adjustment on the Y-axis adjusting assembly in the X-axis direction, and the Y-axis adjusting assembly is used for applying acting force to a position needing to be supported; the X axial adjustment assembly includes: the X-axis sliding block is arranged in the sliding rail and is connected with the Y-axis adjusting component; bases are respectively arranged on two sides of the sliding rail, and an X axial power mechanism connected with the X axial sliding block is arranged between the bases. This scheme can realize moving Y axial direction adjusting part in X axle direction through the X axial direction adjusting part who sets up to realize that the position of support frame bottom does not take place to remove, Y axial direction adjusting part carries out the effort to the holding position.

Description

Support frame for high-rise building

Technical Field

The utility model relates to a construction technical field, concretely relates to support frame for high-rise building.

Background

In the existing building technology, a building template is supported by a support frame on a newly built roof of a building, and the roof is removed after being completely dried.

The utility model discloses a building support frame for high-rise building, publication number CN212249324U, name, disclose, support a section of thick bamboo, the locating plate is installed to the bottom of a support section of thick bamboo, and the both sides of locating plate are provided with the regulating part, the inside of a support section of thick bamboo is provided with the screw sleeve, and the top cover of screw sleeve is equipped with the extrusion sleeve, and the top of extrusion sleeve is provided with the contact plate through the bracing piece.

This scheme is through utilizing the outside screw thread interlock of a support section of thick bamboo and threaded sleeve to cup joint for this support frame can not high-rise building of position height of adaptation, has avoided the height position of building horizon uneven.

However, when the supporting frame designed according to the scheme is used, at least the following problems exist, wherein the height can be adjusted, but the transverse position cannot be adjusted, when an obstacle exists below the position needing to be supported, the bottom of the supporting frame cannot be fixed on the obstacle, the position needing to be supported cannot be supported, at the moment, the obstacle needs to be cleaned or other supporting pieces need to be placed on the obstacle for fixing the bottom of the supporting frame, so that the limitation is large, and the construction progress is influenced.

SUMMERY OF THE UTILITY MODEL

In order to solve the problems of the prior art, the utility model provides a support frame for high-rise buildings, which comprises a base;

an X-axis adjusting component arranged on the top of the base,

a Y-axis adjusting component arranged at the top of the X-axis adjusting component,

the X-axis adjusting assembly is used for carrying out displacement adjustment on the Y-axis adjusting assembly in the X-axis direction, and the Y-axis adjusting assembly is used for applying acting force to a position needing to be supported;

the X axial adjustment assembly comprises: a slide rail is arranged on the base plate,

the slide rail is arranged on the top of the base,

an X-axis sliding block is arranged in the sliding rail, and the top of the X-axis sliding block is connected with the bottom of the Y-axis adjusting component;

bases connected with the top of the base are respectively arranged on two sides of the slide rail,

an X-axis power mechanism is arranged between the bases,

the X-axis power mechanism is connected with the X-axis sliding block and used for driving the X-axis sliding block to move along the X-axis direction.

Furthermore, the cross section of the base is rectangular, and two pairs of universal pulleys and foundation bolts are arranged on the bottom of the base;

the foundation bolts are symmetrically arranged at four corners of the base respectively, and the universal pulleys are arranged on the inner sides of the foundation bolts respectively and distributed in an array manner.

Still further, the Y-axis adjustment assembly includes: a Y-axis sliding groove and a Y-axis power mechanism;

the bottom of the Y-axis sliding groove is fixedly connected with the top of the X-axis sliding block,

a Y-axis sliding block is arranged in the Y-axis sliding chute, and limiting plates are arranged at two ends of the Y-axis sliding chute;

a push rod is arranged at the top of the Y-axis sliding block;

the push rod penetrates through the limiting plate above the Y-axis sliding block, and a pressing block is arranged at the upper end of the push rod;

the output end of the Y-axis power mechanism is connected with the bottom of the Y-axis sliding block, and the bottom of the Y-axis power mechanism is connected with a limiting plate below the Y-axis sliding block;

when the Y-axis power mechanism acts, the Y-axis sliding block can be driven to move in the Y-axis sliding groove, and meanwhile the push rod is driven to enable the pressing block to be in contact with the supporting position.

Furthermore, the Y-axis sliding block is of a T-shaped structure;

symmetrical sliding grooves are formed in two side walls in the Y-axis sliding groove, and two ends of the Y-axis sliding block are respectively connected with the sliding grooves in a matched mode.

Furthermore, the Y-axis power mechanism is an electric cylinder, the output end of the electric cylinder is connected with the bottom of the Y-axis sliding block, and the bottom of the electric cylinder is connected with the limiting plate.

Still further, the X axial power mechanism includes: a servo motor;

the servo motor is arranged on one of the bases;

the output end of the servo motor is connected with a screw rod, and the screw rod penetrates through the X-axis sliding block and is connected with the other base;

a guide rod is arranged on one side of the servo motor in parallel, penetrates through the X-axis sliding block and is connected with the base at the same side at two ends;

when the servo motor acts, the screw rod rotates, and the X-axis sliding block moves along the screw rod.

Further, a cushion pad is arranged on the top of the pressing block.

The utility model has the advantages that:

the Y axial adjusting component can be moved in the X axial direction through the arranged X axial adjusting component, so that the position of the bottom of the supporting frame is not moved, the Y axial adjusting component acts on the supporting position, and therefore the problem that the supporting position cannot be supported due to the fact that the supporting frame is placed in the Fang Buju below the supporting position is solved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings without creative efforts.

Fig. 1 is a schematic perspective view of the present invention;

fig. 2 is a schematic front view of the present invention;

fig. 3 is a schematic view of a rear view structure provided by the present invention;

fig. 4 is a schematic top view of the present invention.

Reference numerals: the device comprises a base 1, a slide rail 2, an X axial sliding block 3, a base 4, a universal pulley 5, a foundation bolt 6, a Y axial sliding groove 7, a Y axial sliding block 8, a limiting plate 9, a push rod 10, a pressing block 11, an electric cylinder 12, a servo motor 13 and a lead screw 14.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention clearer, embodiments of the present invention will be described in further detail below with reference to the accompanying drawings.

Referring to fig. 1, a support frame for high-rise buildings includes: a base 1;

an X-axis adjusting component which is fixedly arranged at the top of the base 1,

a Y-axis adjusting component which is fixedly arranged at the top of the X-axis adjusting component,

the X-axis adjusting assembly is used for carrying out displacement adjustment on the Y-axis adjusting assembly in the X-axis direction, and the Y-axis adjusting assembly is used for applying acting force to a position needing to be supported;

the X axial adjustment assembly comprises: the slide rails (2) are provided with a slide rail,

the slide rail 2 is fixedly arranged at the top of the base 1,

an X-axis sliding block 3 is arranged in the sliding rail 2 in a sliding mode, and the top of the X-axis sliding block 3 is fixedly connected with the bottom of the Y-axis adjusting assembly;

two sides of the slide rail 2 are respectively and fixedly provided with a base 4 connected with the top of the base 1,

an X-axis power mechanism is arranged between the bases 4,

the X-axis power mechanism is connected with the X-axis sliding block 3 in a matched mode and used for driving the X-axis sliding block 3 to move along the X-axis direction.

The invention of the scheme is that, in the building construction process, a certain position after construction needs to be supported, and the support is inconvenient to place below the position, the barrier needs to be cleaned manually, or other elements for bearing the support frame need to be placed on the barrier, and the support frame is provided with a support frame with the position of the bottom of the support frame being unchanged, and the position of a component for supporting is adjustable.

The position of the component playing a supporting role is realized through the X axial adjusting component, specifically, the X axial power mechanism acts to drive the X axial sliding block to do linear motion along the sliding groove, so that the position of the Y axial adjusting component is synchronously driven to change.

In some embodiments, the base 1 has a rectangular cross section, and two pairs of universal pulleys 5 and anchor bolts 6 are fixedly arranged on the bottom of the base;

the foundation bolts 6 are symmetrically and fixedly arranged at four corners of the base 1 respectively, and the universal pulleys 5 are arranged on the inner sides of the foundation bolts 6 respectively and distributed in an array manner.

The universal pulley adopts a pulley with a brake, and has the main function of facilitating the movement of the support frame; the lifting bolt plays a balance role in the support frame, and when the ground is uneven, the height of the foundation bolt can be adjusted in a rotating mode, so that the base is in a horizontal state, and the stability of the base is improved.

In some embodiments, the Y-axis adjustment assembly comprises: a Y-axis sliding chute 7 and a Y-axis power mechanism;

the bottom of the Y-axis sliding chute 7 is fixedly connected with the top of the X-axis sliding block 3,

a Y-axis sliding block 8 is arranged in the Y-axis sliding chute 7 in a sliding manner, and limiting plates 9 are fixedly arranged at two ends of the Y-axis sliding chute 7; the limiting plate is used for placing the Y-axis sliding block to slide out of the top end of the Y-axis sliding groove;

a push rod 10 is fixedly arranged at the top of the Y-axis sliding block 8;

the push rod 10 penetrates through a limiting plate 9 above the Y-axis sliding block 8, and a pressing block 11 is fixedly arranged at the upper end of the push rod 10; the push rod is used for pushing the pressing block to move upwards so as to apply acting force to the supporting position;

the output end of the Y-axis power mechanism is fixedly connected with the bottom of the Y-axis sliding block 8, and the bottom of the Y-axis power mechanism is fixedly connected with a limiting plate 9 below the Y-axis sliding block 8;

when the Y-axis power mechanism acts, the Y-axis sliding block 8 can be driven to move in the Y-axis sliding groove 7, and meanwhile, the push rod 10 is driven to enable the pressing block 11 to be in contact with a supporting position.

It should be noted that the Y-axis power mechanism is used for pushing the Y-axis sliding block to move along the Y-axis sliding groove, specifically, the Y-axis power mechanism is started to push the Y-axis sliding block to move along the Y-axis sliding groove, and in the process, the push rod and the pressing block move synchronously, so that an upward acting force is applied to the supporting position.

In some embodiments, the Y-axis slide 8 is a T-shaped structure;

symmetrical sliding grooves are formed in two side walls in the Y-axis sliding groove 7, and two ends of the Y-axis sliding block 8 are connected with the sliding grooves in a sliding mode respectively; wherein the Y-axis sliding groove is in a U-shaped structure.

In some embodiments, the Y-axis power mechanism is an electric cylinder 12, an output end of the electric cylinder 12 is fixedly connected to the bottom of the Y-axis slider 8, and the bottom of the electric cylinder 12 is fixedly connected to the limiting plate 9.

The bottom of the Y-axis sliding block is fixedly provided with a pair of opposite substrates, through holes are formed in the substrates, a penetrating mounting hole is formed in the tail end of a telescopic shaft of the electric cylinder, and a pin penetrates through the through holes and the mounting hole to achieve connection of the electric cylinder and the Y-axis sliding block.

In some embodiments, the X-axis power mechanism comprises: a servo motor 13;

the servo motor 13 is arranged on one of the bases 4;

the output end of the servo motor 13 is connected with a screw rod 14 through a coupler, and the screw rod 14 penetrates through the X-axis sliding block 3 and is rotatably connected with the other base 4 through a bearing; the X-axis sliding block is provided with a through threaded hole, and the screw rod is in threaded connection with the threaded hole in the X-axis sliding block;

a guide rod 15 is arranged on one side of the servo motor 13 in parallel, the guide rod 15 penetrates through the X-axis sliding block 3, and two ends of the guide rod are fixedly connected with the base 4 on the same side respectively;

when the servo motor 13 acts, the screw rod 14 rotates, and the X-axis slider 3 moves along the screw rod 14.

It should be noted that, the effect of X axial power unit is that drive X axial slider removes along X axial direction specifically, and servo motor starts, drives the lead screw and rotates, because of lead screw and X axial slider threaded connection, and X axial slider and guide bar sliding connection to the lead screw rotates X axial slider and changes rotary motion into linear motion, realizes that X axial slider removes along X axial spout, thereby drives Y axial adjusting part's position change.

In some embodiments, the top of the pressing block 11 is provided with a cushion pad. The cushion pad is made of rubber, and the main function of the cushion pad is to prevent the pressing block from being scratched on the surface of the supporting position.

The above description is only for the preferred embodiment of the present invention, and is not intended to limit the present invention, and any modifications, equivalent replacements, improvements, etc. made within the spirit and principle of the present invention should be included within the protection scope of the present invention.

Claims (7)

1. A support frame for high-rise buildings, comprising:

a base;

an X-axis adjusting component arranged on the top of the base,

a Y-axis adjusting component arranged at the top of the X-axis adjusting component,

the X-axis adjusting assembly is used for carrying out displacement adjustment on the Y-axis adjusting assembly in the X-axis direction, and the Y-axis adjusting assembly is used for applying acting force to a position needing to be supported;

the X axial adjustment assembly comprises: a slide rail is arranged on the base plate,

the slide rail is arranged on the top of the base,

an X-axis sliding block is arranged in the sliding rail, and the top of the X-axis sliding block is connected with the bottom of the Y-axis adjusting component;

bases connected with the top of the base are respectively arranged on two sides of the slide rail,

an X-axis power mechanism is arranged between the bases,

the X-axis power mechanism is connected with the X-axis sliding block and used for driving the X-axis sliding block to move along the X-axis direction.

2. The supporting frame for the high-rise building according to claim 1, wherein the base has a rectangular cross section, and two pairs of universal pulleys and anchor bolts are arranged on the bottom of the base;

the foundation bolts are symmetrically arranged at four corners of the base respectively, and the universal pulleys are arranged on the inner sides of the foundation bolts respectively and distributed in an array manner.

3. A support frame for high-rise buildings as claimed in claim 1, wherein the Y-axis adjustment assembly comprises: a Y-axis sliding groove and a Y-axis power mechanism;

the bottom of the Y-axis sliding chute is fixedly connected with the top of the X-axis sliding block (3),

a Y-axis sliding block is arranged in the Y-axis sliding chute, and limiting plates are arranged at two ends of the Y-axis sliding chute;

a push rod is arranged at the top of the Y-axis sliding block;

the push rod penetrates through a limiting plate above the Y-axis sliding block, and a pressing block is arranged at the upper end of the push rod;

the output end of the Y-axis power mechanism is connected with the bottom of the Y-axis sliding block, and the bottom of the Y-axis power mechanism is connected with a limiting plate below the Y-axis sliding block;

when the Y-axis power mechanism acts, the Y-axis sliding block can be driven to move in the Y-axis sliding groove, and meanwhile, the push rod is driven to enable the pressing block to be in contact with the supporting position.

4. The support frame for high-rise buildings according to claim 3, wherein the Y-axis slide block is of a T-shaped structure;

symmetrical sliding grooves are formed in two side walls in the Y-axis sliding groove, and two ends of the Y-axis sliding block are respectively connected with the sliding grooves in a matched mode.

5. The support frame for the high-rise building as claimed in claim 3, wherein the Y-axis power mechanism is an electric cylinder, an output end of the electric cylinder is connected with the bottom of the Y-axis sliding block, and the bottom of the electric cylinder is connected with the limiting plate.

6. The support frame for high-rise buildings according to claim 1, wherein the X-axis power mechanism comprises: a servo motor;

the servo motor is arranged on one of the bases;

the output end of the servo motor is connected with a screw rod, and the screw rod penetrates through the X-axis sliding block and is connected with the other base;

a guide rod is arranged on one side of the servo motor in parallel, the guide rod penetrates through the X-axis sliding block, and two ends of the guide rod are respectively connected with the base on the same side;

when the servo motor acts, the screw rod rotates, and the X-axis sliding block moves along the screw rod.

7. The support frame for high-rise buildings according to claim 3, wherein the top of the pressing block is provided with a cushion pad.

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