CN115059314B

CN115059314B - Adjustable roof beam supporting device for house reinforcement

Info

Publication number: CN115059314B
Application number: CN202210129023.7A
Authority: CN
Inventors: 于金海
Original assignee: Chengdu Vocational College of Agricultural Science and Technology
Current assignee: Chengdu Vocational College of Agricultural Science and Technology
Priority date: 2022-02-11
Filing date: 2022-02-11
Publication date: 2023-09-26
Anticipated expiration: 2042-02-11
Also published as: CN115059314A

Abstract

The application relates to the technical field of house beam support, in particular to an adjustable house beam support device for house reinforcement, which comprises: the main support is provided with a first support part and has a telescopic function, and drives the first support part to lift up and down so as to support the house beam; the inclined supports are hinged to two ends of the first supporting part, a second supporting part is arranged at one end, far away from the first supporting part, of the inclined support, the inclined supports have a telescopic function, and the inclined supports drive the second supporting part to lift so as to support a house beam; the detection part is electrically connected with the control switches of the main support and the inclined support and is arranged on the house beam to detect the stress or deformation of the house beam; the application not only can support the existing concrete house beam, but also can support the traditional triangle inclined beam, and can play a role in protecting the house beam when supporting the house beam.

Description

Adjustable roof beam supporting device for house reinforcement

Technical Field

The application relates to the technical field of house beam support, in particular to an adjustable house beam support device for house reinforcement.

Background

When building various different types of houses, the house beams are necessary to be a building facility, especially a high-rise building, and the house beams play a role in upstairs and downstairs, so that many house beams are used for years to start to show some diseases or have insufficient bearing capacity, and a plurality of positions are cracked. For the house beam with the service performance not meeting the current requirements, the reinforcing maintenance can be timely reinforced.

The current girder supporting device generally can only support concrete buildings, such as the girder supporting device described in chinese patent publication No. CN212743490U, which supports the girder of the concrete building by the lifting device for reinforcing the house, but such a structure is not suitable for the conventional girder having a triangular wooden supporting structure which is easily deformed and may cause further damage to the girder if only supporting the beam portion, and thus the present application proposes an adjustable girder supporting device for reinforcing the house.

Disclosure of Invention

The application aims to provide an adjustable house beam supporting device for house reinforcement, which is used for solving the problem that the conventional house beam is not suitable for the conventional house beam.

In order to achieve the above purpose, the present application provides the following technical solutions:

an adjustable roof beam support device for house reinforcement, the support device comprising:

the main support is provided with a first support part and has a telescopic function, and drives the first support part to lift up and down so as to support the house beam;

the inclined supports are hinged to two ends of the first supporting part, a second supporting part is arranged at one end, far away from the first supporting part, of the inclined support, the inclined supports have a telescopic function, and the inclined supports drive the second supporting part to lift so as to support a house beam;

the detection part is electrically connected with the control switch of the main support and the inclined support so as to control the main support and the inclined support to work, and the detection part is arranged on the house beam so as to detect the stress or deformation of the house beam.

Preferably, the main support comprises:

a support housing having a hollow interior;

the screw rod is rotatably connected in the support shell, and a screw rod nut is connected to the screw rod through threads;

the driving part is fixedly connected to the supporting shell and is used for driving the screw rod to rotate;

the support rod is fixedly connected to the screw nut, one end, far away from the screw nut, of the support rod penetrates through the upper end of the support shell and is fixedly connected with the first support part, and the support rod is in sliding connection with the support shell so as to limit the screw nut.

Preferably, the first supporting portion is a U-shaped channel steel.

Preferably, inclined supports are arranged on two sides of the end portion of the first supporting portion, one end, away from the first supporting portion, of each inclined support is detachably connected with a connecting shaft, and the second supporting portion is hinged to the connecting shaft.

Preferably, the second supporting portion is a U-shaped channel steel.

Preferably, the detection unit includes:

a first detection part for detecting deformation of the roof beam;

the second detection part is used for detecting the stress of the house beam;

and the control part is used for connecting the control switches of the main support and the inclined support so as to control the work of the main support and the inclined support.

Preferably, the first detecting unit includes:

the light beam emitter is electrically connected with the control part and is used for emitting light beams;

and the light beam receiver is electrically connected with the control part and is used for receiving light beams.

Preferably, the beam emitter and the beam receiver are further provided with mounting parts for mounting the beam emitter and the beam receiver to a beam.

Preferably, the mounting portion includes:

the mounting seat is fixedly connected to the beam emitter and the beam receiver;

a rotating seat rotatably connected to the mounting seat, and

the fixing part is fixedly connected to the rotating seat and is strip-shaped and used for fixing the rotating seat to the house beam.

Preferably, the rotary seat is provided with scales around the axis of the rotary seat, and the mounting seat is provided with a pointer.

In summary, compared with the prior art, the application has the following beneficial effects:

the adjustable house beam supporting device for house reinforcement disclosed by the embodiment of the application is characterized in that the main support, the first supporting part arranged on the main support, the inclined support hinged on the first supporting part and the second supporting part arranged on the inclined support are arranged, the main support is used for supporting the cross beam of the house beam, the inclined support is used for supporting the inclined beam of the house beam, so that the main support and the inclined support synchronously support the house beam, and meanwhile, the stress or deformation of the house beam is detected through the detecting part to control the main support and the inclined support.

Drawings

Fig. 1 is a schematic structural view of an adjustable roof beam support device for reinforcing a house according to the present application.

Fig. 2 is a left side view of the adjustable roof beam support apparatus for house reinforcement disclosed in fig. 1.

Fig. 3 is a schematic structural view of a second supporting groove in the adjustable roof beam supporting apparatus for reinforcing a house according to the present application.

Fig. 4 is a schematic view of the structure of a beam emitter in the adjustable roof beam support device for reinforcing a house according to the present application.

Fig. 5 is a front view of a beam emitter in the adjustable roof beam support apparatus for house reinforcement disclosed in fig. 4.

Fig. 6 is a schematic view of the beam emitter detecting the beam when the adjustable beam support device for reinforcing the house disclosed in fig. 4 supports the beam.

Fig. 7 is a schematic view of the beam emitter detecting the beam when the adjustable beam support device for reinforcing the house disclosed in fig. 4 corrects the beam.

Reference numerals: 1. a main support; 11. a support housing; 12. a screw rod; 13. a lead screw nut; 14. a support rod; 15. a driving section; 16. a first bevel gear; 17. a second bevel gear;

2. a first support portion;

3. a diagonal support; 31. a connecting shaft;

4. a second supporting part;

5. a detection unit; 51. a first detection unit; 52. a second detection unit; 53. a fixing part; 54. a mounting base; 55. a rotating seat; 56. a beam emitter; 57. a beam receiver;

6. a backing plate.

Detailed Description

The technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present application, and it is apparent that the described embodiments are only some embodiments of the present application, but not all embodiments, and all other embodiments obtained by those skilled in the art without making creative efforts based on the embodiments of the present application are included in the protection scope of the present application.

Fig. 1 and 2 show an adjustable roof beam support device for reinforcing a house according to an embodiment of the present application, the support device comprising:

the main support 1, a first support part 2 is arranged on the main support 1, the inclined support 3 has a telescopic function, and the main support 1 drives the first support part 2 to lift so as to support a house beam;

the inclined supports 3 are hinged to two ends of the first supporting part 2, a second supporting part 4 is arranged at one end, away from the first supporting part 2, of each inclined support 3, each inclined support 3 has a telescopic function, and each inclined support 3 drives the corresponding second supporting part 4 to lift so as to support a house beam;

the detection part 5 is electrically connected with the control switches of the main support 1 and the inclined support 3 to control the main support 1 and the inclined support 3 to work, and the detection part 5 is arranged on the house beam to detect the stress or deformation of the house beam;

in this embodiment, when the house beam is reinforced, a scaffold or other base having a certain height is placed under the house beam, the house beam supporting device disclosed in this embodiment is placed on the scaffold and directly under the house beam, the detection part 5 is mounted on the cross beam and the diagonal beam on the house beam, the first supporting part 2 is arranged directly under the house beam, the main support 1 is started so that the first supporting part 2 contacts the cross beam of the house beam, then the diagonal support 3 and the main support 1 are adjusted in angle so that the second supporting part 4 contacts the diagonal beam of the house beam, the main support 1 and the diagonal support 3 are started at the same time, so that the first supporting part 2 ascends, and simultaneously the expansion and contraction of the diagonal support 3 are controlled based on the detection result of the detection part 5 on the diagonal beam, so that the first supporting part 2 and the second supporting part 4 can synchronously support the cross beam and the diagonal beam of the house beam;

when the detection unit 5 is installed, the detection unit 5 is installed according to the supporting condition, for example, when the roof beam is bent, the roof beam is required to be corrected when the roof beam is supported, and when the detection unit 5 is installed, the detection unit 5 is adjusted so that the detection unit 5 can emit a detection signal after the roof beam is corrected; when the house beam is not required to be corrected and only needs to be supported, the detection part 5 is used for detecting the stress and deformation of the house beam so as to prevent the house beam from being damaged due to overlarge deformation of the house beam when the house beam is supported;

as a preferred implementation in this example, the main support 1 includes:

a support housing 11, the support housing 11 being hollow inside;

a screw rod 12 rotatably connected to the inside of the support housing 11, and a screw nut 13 is screwed to the screw rod 12;

the driving part 15 is fixedly connected to the supporting shell 11 and is used for driving the screw rod 12 to rotate;

a support rod 14 fixedly connected to the screw nut 13, wherein one end of the support rod 14 away from the screw nut 13 passes through the upper end of the support housing 11 and is fixedly connected with the first support part 2, and the support rod 14 is slidably connected with the support housing 11 to limit the screw nut 13;

in this embodiment, a partition plate is disposed inside the support housing 11, the support housing 11 is in a cylindrical shape with openings at two ends, an upper cover is disposed at an upper end of the support housing 11, two ends of the screw rod 12 are respectively mounted on the upper cover and the partition plate through bearings, the support rod 14 passes through the upper cover and is slidably connected with the upper cover, and the support rod 14 can limit the screw nut 13 to prevent the screw nut 13 from rotating due to the fixed connection of the upper cover and the support housing 11;

when the first supporting part 2 is driven to ascend, the driving part 15 is electrified, the driving part 15 drives the screw rod 12 to rotate, the screw rod nut 13 is driven to ascend and descend in the rotating process of the screw rod 12, and the screw rod nut 13 drives the supporting rod 14 to ascend and descend, so that the first supporting part 2 ascends and descends;

in some examples, an external thread is provided at an end of the support rod 14 connected to the lead screw nut 13, the support rod 14 is connected to the lead screw nut 13 through a thread, the support rod 14 is fixedly connected to the first support part 2 through a bolt, a first flange is provided at an end of the support rod 14 away from the lead screw nut 13, and the first flange is fixedly connected to the first support part 2 through a bolt;

preferably, the output shaft of the driving portion 15 is fixedly connected with a second bevel gear 17, the lead screw 12 passes through the partition plate, and is fixedly connected with a first bevel gear 16 at one end close to the driving portion 15, the first bevel gear 16 is meshed with the second bevel gear 17 to transmit power, in this embodiment, the driving portion 15 drives the second bevel gear 17 to rotate, and the second bevel gear 17 drives the first bevel gear 16 to rotate;

preferably, a support plate is further disposed at the bottom of the support housing 11, the outer diameter of the support plate is larger than the outer diameter of the support housing 11, a reinforcing rib is disposed between the support plate and the support housing 11, and the driving part 15 is fixedly connected to the support plate through a bolt;

as a preferred implementation manner in this embodiment, the first supporting portion 2 is a U-shaped channel steel, so that when the first supporting portion 2 supports a roof beam, the first supporting portion 2 can be prevented from sliding on the roof beam, and when the first supporting portion 2 supports the roof beam, the roof beam is disposed in the first supporting portion 2;

as shown in fig. 2, both sides of the end of the first supporting portion 2 are provided with inclined supports 3, that is, each end of the first supporting portion 2 is provided with two inclined supports 3, one end of the two inclined supports 3 away from the first supporting portion 2 is provided with a connecting shaft 31, and the second supporting portion 4 is hinged on the connecting shaft 31 so that the second supporting portion 4 can self-adjust the angle, thereby enabling the second supporting portion 4 to self-adjust the angle of the inclined beam;

as a preferred implementation manner in this embodiment, the inclined support 3 is an electric telescopic rod, and the inclined support 3 is hinged with the first support part 2 through a pin shaft;

it should be noted that, the inclined support 3 may also be a hydraulic telescopic rod, the main support 1 may also be a hydraulic telescopic rod, preferably, the telescopic types of the inclined support 3 and the main support 1 are the same, that is, when the main support 1 is in a hydraulic telescopic rod structure, the inclined support 3 is also in a hydraulic telescopic rod structure, and when the main support 1 is in an electric telescopic rod structure, the inclined support 3 is also in a hydraulic telescopic rod structure, so that the control types of the main support 1 and the inclined support 3 are identical, and further, accessories of a supporting device are reduced;

as shown in fig. 3, the second supporting portion 4 is a U-shaped channel steel, a first supporting lug is provided at the bottom of the second supporting portion 4, the second supporting portion 4 is rotatably connected to the connecting shaft 31, and when the diagonal member 3 supports the diagonal member, the second supporting portion 4 can rotate on the connecting shaft 31;

in this embodiment, the connecting shaft 31 is detachably connected to the diagonal braces 3 to facilitate the installation of the second support portion 4, and when the roof beam is supported, the cross beam of the roof beam is disposed between the two diagonal braces 3 located at the same end of the first support portion 2, so that when the second support portion 4 is installed, the connecting shaft 31 needs to be detached from the diagonal braces 3 to facilitate the cross beam to be disposed between the two diagonal braces 3;

preferably, the connecting shaft 31 is a stud, the connecting shaft 31 passes through one end of the inclined support 3 away from the first support portion 2, nuts are disposed at two ends of the connecting shaft 31 to fix the connecting shaft 31, and when the connecting shaft 31 is detached, the nuts at one end of the connecting shaft 31 are detached, and at this time, the connecting shaft 31 is detached from the inclined support 3;

as a preferred implementation manner in this embodiment, the detecting unit 5 includes:

a first detecting portion 51 for detecting deformation of the roof beam;

a second detecting portion 52 for detecting a stress of the roof beam;

a control part for connecting the control switches of the main support 1 and the diagonal support 3 to control the operations of the main support 1 and the diagonal support 3;

in this embodiment, the first detecting unit 51 includes:

a beam emitter 56 electrically connected to the control part for emitting a beam;

a beam receiver 57 electrically connected to the control part, for receiving a beam;

in this embodiment, after the light beam emitted by the light beam emitter 56 is received by the light beam receiver 57, the light beam receiver 57 generates a position signal, and the use of the light beam emitter 56 and the light beam receiver 57 will be described in two cases;

as shown in fig. 6, when only the beam is required to be supported and not to be corrected, the beam emitter 56 and the beam receiver 57 are mounted on the beam, the beam emitter 56 and the beam receiver 57 are respectively positioned at both sides of the first support part 2 or the second support part 4, the angles of the beam emitter 56 and the beam receiver 57 are adjusted so that the beam emitted by the beam emitter 56 irradiates into the beam receiver 57, at this time, the beam receiver 57 continuously emits a signal, when the beam is deformed, the angles of the beam emitter 56 and the beam receiver 57 are changed, the beam emitter 56 emits a beam which cannot irradiate onto the beam receiver 57, so that the signal of the beam receiver 57 is weakened, and the control part can stop the operation of the main support 1 or the inclined support 3 at this time;

when the beam needs to be corrected, the beam emitter 56 and the beam receiver 57 are installed on the beam, the beam emitter 56 and the beam receiver 57 are respectively positioned at two sides of the first support part 2 or the second support part 4, and the angles of the beam emitter 56 and the beam receiver 57 are adjusted, so that after the beam is corrected, the beam emitted by the beam emitter 56 irradiates the beam receiver 57; the beam emitter 56 and the beam receiver 57 are gradually in a collinear state when the house beam is corrected by the main support 1 or the inclined support 3, and the beam emitter 56 and the beam receiver 57 are in a collinear state when the beam is corrected, and the beam emitted by the beam emitter 56 irradiates into the beam receiver 57;

it should be noted that, when the inclined support 3 and the main support 1 work synchronously, the lifting of the main support 1 can drive the lifting of the inclined support 3, and when the inclined beam supported by the inclined support 3 reaches the preset supporting effect, if the main support 1 continues to lift, the inclined support 3 is in a shortened state to prevent the position of the second support portion 4 from changing;

as a preferred implementation manner in this embodiment, the beam emitter 56 and the beam receiver 57 are further provided with mounting portions for mounting the beam emitter 56 and the beam receiver 57 to a beam;

as shown in fig. 4 and 6, as a preferred implementation manner in the present embodiment, the mounting portion includes:

a mount 54 fixedly attached to the beam emitter 56 and the beam receiver 57;

a rotary base 55 rotatably connected to the mounting base 54, and

a fixing portion 53 fixedly connected to the rotating base 55, wherein the fixing portion 53 is in a strip shape and is used for fixing the rotating base 55 to a roof beam;

in this embodiment, the mounting base 54 is fixed to the beam emitter 56 or the beam receiver 57 by means of gluing, the damping shaft between the mounting base 54 and the rotating base 55 is connected, the fixing portion 53 is a hook and loop adhesive tape, and the fixing portion 53 can fix the beam emitter 56 and the beam receiver 57 to a beam when wound around the beam;

preferably, the rotary base 55 is provided with graduations around its own axis, and the mounting base 54 is provided with a pointer for adjusting the beam emitter 56 and the beam receiver 57;

as a preferred implementation manner in this embodiment, the second detecting portion 52 is a pressure sensor provided on the first supporting portion 2 and the second supporting portion 4;

preferably, the second detecting portion 52 is provided with a pad 6 to cover the second detecting portion 52, so that the first supporting portion 2 and the second supporting portion 4 are uniformly abutted against the roof beam;

the pad 6 is a steel plate, and the pad 6 is fixed to the second detecting portion 52 by means of gluing;

preferably, the control part is a PLC controller, and the control part is electrically connected to the driving part 15 and the control switch of the diagonal brace 3 through a wire.

In summary, according to the adjustable roof beam supporting device for building reinforcement disclosed in the embodiments of the present application, by providing the main support 1, the first support portion 2 provided on the main support 1, the diagonal support 3 hinged on the first support portion 2, and the second support portion 4 provided on the diagonal support 3, the main support 1 supports the cross beam of the roof beam, and the diagonal support 3 is used for supporting the diagonal beam of the roof beam, so that the main support 1 and the diagonal support 3 synchronously support the roof beam, and meanwhile, the detection portion 5 detects the stress or deformation of the roof beam to control the main support 1 and the diagonal support 3.

Although embodiments of the present application have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims

1. An adjustable roof beam strutting arrangement for house reinforcement, characterized in that the strutting arrangement includes:

a control part for connecting the control switches of the main support and the diagonal support to control the work of the main support and the diagonal support

The detection portion, detection portion electric connection in the main support with the control switch of bearing diagonal is in order to control the main support with bearing diagonal work, detection portion locates on the roof beam in order to detect the atress or the deformation of roof beam, wherein, detection portion includes:

the first detection part is used for detecting deformation of the house beam and comprises a beam emitter electrically connected with the control part and a beam receiver electrically connected with the control part, wherein the beam emitter is used for emitting a beam, the beam receiver is used for receiving the beam, the beam emitter and the beam receiver are further provided with mounting parts, the mounting parts are used for mounting the beam emitter and the beam receiver on the house beam, and each mounting part comprises a mounting seat fixedly connected with the beam emitter and the beam receiver, a rotating seat rotatably connected with the mounting seat and a fixing part fixedly connected with the rotating seat, and each fixing part is strip-shaped and is used for fixing the rotating seat on the house beam;

and the second detection part is used for detecting the stress of the house beam.

2. An adjustable roof beam support apparatus for reinforcing a house as set forth in claim 1 wherein said main support comprises:

a support housing having a hollow interior;

3. The adjustable roof beam support apparatus for building reinforcement according to claim 2, wherein the first support portion is a U-shaped channel steel.

4. An adjustable roof beam strutting arrangement for house reinforcement according to claim 3, wherein both sides of the end of the first supporting part are provided with diagonal braces, two of which are detachably connected with a connecting shaft at one end far away from the first supporting part, and the second supporting part is hinged on the connecting shaft.

5. The adjustable roof beam support apparatus for building reinforcement according to claim 1, wherein the second support portion is a U-shaped channel steel.

6. The adjustable roof beam strutting arrangement for house reinforcement according to claim 1, wherein the swivel base is provided with graduations around its own axis, and the mounting base is provided with a pointer.