CN213297078U - Climb a shore monitoring subassembly - Google Patents

Abstract

The invention provides a climbing frame top support monitoring assembly which comprises a climbing frame body, wherein an attachment support capable of lifting relative to the climbing frame body is arranged on the side part of the climbing frame body, a telescopic top support is hinged to the attachment support, and a monitoring assembly matched with the top support is installed in the attachment support. The work of manually checking the shoring state one by one is changed into automatic identification of an electronic monitoring system, so that the labor cost is reduced. The state of the top support can be identified instantly by an electronic monitoring system, long-time manual inspection is not needed, and the working efficiency is improved. The electronic monitoring system automatically identifies the shoring state, has no problem of missed detection, improves the reliability and is beneficial to improving the construction safety level of China.

Description

Climb a shore monitoring subassembly

Technical Field

The invention relates to the field of building protection, in particular to a climbing frame top support monitoring assembly.

Background

The attached lifting scaffold (climbing frame for short) is a new scaffold applied to high-rise and super high-rise building construction developed in recent years, and is a scaffold system which can be ascended or descended along a building by using power sources such as hydraulic pressure, electric power and the like. Compared with the traditional scaffold, the scaffold has the advantages of saving a large amount of labor and materials, being simple and convenient to operate, easy to manage, environment-friendly and the like, and is widely popularized and applied.

The top support (also called floor stopping device, top supporting device) is a force bearing device which is arranged on the attachment support and transmits the whole load of the climbing frame to the attachment support when the climbing frame stops on a certain floor. The top support can rotate in a certain range around the pin shaft at the bottom end. When the climbing frame is lifted or lowered, workers push the upper end of the top support to the side far away from the frame body, and the top support is in a non-supporting state; when climbing the frame and stopping at a certain floor, on rotating the support body to the shore, there is a semicircular jack catch structure the upper end of shore, through the sleeve in rotatory shore middle part, the shore can stretch out and draw back, can be gone into the little round bar of support body and compress tightly the semicircular jack catch structure card of upper end, at this moment the shore is in the supported state.

Since the climbing frame is operated to ascend (descend) and stop at intervals, a worker needs to repeatedly shift the jack-up to a supported or unsupported state. The number of the top braces of one building is very large, and the top braces are distributed around the building. At present, the top support through manual operation always has the mistake and leaks, leads to the top support to be in incorrect state, if not through artifical inspection just can't discover the problem one by one.

Disclosure of Invention

The invention provides a climbing frame top support monitoring assembly, which solves the problems in the prior art.

The technical scheme of the invention is realized as follows:

climb a shore monitoring subassembly, including climbing a support body, it is equipped with for climbing attached support that a support body goes up and down to climb a support body side portion, it has telescopic shore to articulate on the attached support, install in the attached support with shore complex monitoring subassembly.

As a preferable scheme of the invention, the climbing frame body comprises two symmetrically designed guide rails, and small round rods in contact fit with the top support are arranged between the two guide rails in an equidistant array along the length direction of the climbing frame.

In a preferred embodiment of the present invention, one end of the attachment support is provided with a connection surface for connecting to a building wall, the other end of the attachment support is provided with a clamping portion for clamping two symmetrical guide rails, and the inner side surface corresponding to the clamping portion is provided with a guide wheel in rolling contact with the guide rails.

In a preferred embodiment of the present invention, a support plate is fixed to the main body of the attachment holder;

the top support is inserted with the two shaft seats on the supporting plate through a pin shaft to complete the rotation of the top support relative to the attached support;

the two shaft seats are provided with long round holes;

a first round hole is formed in the supporting plate between the two shaft seats, a trigger rod in the monitoring assembly is lifted in the first round hole, and the upper end of the trigger rod is in matched contact with the lower end of the top support.

As a preferable scheme of the present invention, the top support includes an upper end, inner end portions of the upper end and the lower end are provided with symmetrical external thread structures, and the inner end portions of the upper end and the lower end are both screwed in both ends of the middle sleeve.

As the preferable scheme of the invention, the free end of the upper end is provided with a claw structure clamped with the small round rod.

As a preferable scheme of the invention, the free end of the lower end is provided with a semicircular structure which is in fit contact with the trigger rod.

According to a preferable scheme of the invention, the monitoring assembly comprises a shell, a vertical cavity and a horizontal cavity are arranged in the shell, a compression spring is arranged in the vertical cavity, the upper end of the compression spring is connected with a connecting table, and the upper surface of the connecting table is connected with a trigger rod.

As a preferred scheme of the present invention, a slope wedge structure extends downward from an end of the joining table close to the horizontal cavity, a switch is disposed in the horizontal cavity, and a contact end contacting with the wedge structure is disposed at a head end of the switch.

As a preferred scheme of the invention, when the climbing frame ascends or descends, the middle sleeve is adjusted to shorten the top support, the top support is rotated to one side far away from the frame body, the slope wedge-shaped structure of the joining table is not contacted with the switch, namely, the switch is in a disconnected state, the switch is connected to the climbing frame electronic monitoring system, and the electronic monitoring system can identify that the top support is in a non-supporting state;

when the climbing frame stops on a certain floor, the top support is rotated to one side close to the frame body, the semicircular clamping jaw structure at the upper end of the top support is clamped into the small round rod of the climbing frame body, the middle sleeve is adjusted to enable the top support to extend, the lower end of the top support pushes the trigger rod to move downwards, the switch is pressed by the slope wedge structure of the connecting table in the process that the trigger rod moves downwards, the switch is closed immediately, the switch is connected into the climbing frame electronic monitoring system, and the electronic monitoring system can recognize that the top support is in a supporting state.

Has the advantages that:

climb a shore monitoring subassembly, including climbing a support body, it is equipped with for climbing attached support that a support body goes up and down to climb a support body side portion, it has telescopic shore to articulate on the attached support, install in the attached support with shore complex monitoring subassembly. The work of manually checking the shoring state one by one is changed into automatic identification of an electronic monitoring system, so that the labor cost is reduced. The state of the top support can be identified instantly by an electronic monitoring system, long-time manual inspection is not needed, and the working efficiency is improved. The electronic monitoring system automatically identifies the shoring state, has no problem of missed detection, improves the reliability and is beneficial to improving the construction safety level of China.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art 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 for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is a schematic perspective view of a monitoring device according to the present invention;

FIG. 2 is a schematic diagram of the connection relationship of the monitoring device according to the present invention;

FIG. 3 is a perspective view of the attachment bracket of the present invention;

FIG. 4 is a schematic perspective view of the top brace of the present invention;

FIG. 5 is a schematic view of the connection relationship of the monitoring assembly of the present invention;

fig. 6 is a perspective view of the monitoring assembly of the present invention.

In the figure, the support 1 is attached, the shaft seat 11 is attached, the long round hole 111 is attached, the support plate 12 is attached, the first round hole 121 is attached, the guide wheel 13 is attached, the top support 2 is attached, the upper end 21 is attached, the semicircular jaw structure 211 is attached, the middle sleeve 22 is attached, the lower end 23 is attached, the second round hole 231 is attached, the semicircular structure 232 is attached, the frame climbing frame body 3 is attached to the small round rod 31, the guide rail 32 is attached to the middle sleeve 22, the middle sleeve 22 is attached to the middle sleeve, the lower end 23 is attached to the middle sleeve 231, the nut 45 is attached to.

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.

Example 1

As shown in fig. 1-6, the present invention discloses a monitoring assembly for a top prop of a climbing frame. The climbing frame body 3 is provided with a small round rod 31 and a guide rail 32. The rear side of the attachment support 1 is installed on a building wall, the front side of the attachment support 1 is provided with a guide wheel 13, the guide wheel 13 is matched with a guide rail 32 of the climbing frame body 3, and the climbing frame body 3 can ascend or descend along the attachment support 1. The upper part of the attachment support 1 is provided with a support plate 12 and a pair of shaft seats 11, the shaft seats 11 are provided with long round holes 111, the support plate 12 right below the long round holes 111 is provided with a first round hole 121, a pin shaft 5 sequentially penetrates through the long round holes 111 of the shaft seats 11 and a second round hole 231 of the top support lower end 23, the pin shaft 5 can move up and down in the range of the long round holes 111 of the shaft seats 11, and then the top support lower end 23 also moves up and down along with the pin shaft 5. The top support 2 comprises an upper end 21, a middle sleeve 22 and a lower end 23, wherein the upper end 21 is provided with a semicircular jaw structure 211 and left-hand threads; the middle sleeve 22 is a hollow tubular structure, and the left-handed thread and the right-handed thread are respectively arranged at two ends of the inner wall of the middle sleeve 22; the lower end 23 is provided with a right-hand thread, a second circular hole 231 and a semicircular structure 232. The middle sleeve 22 is fitted with the upper end 21 and the lower end 23, respectively, and the jack 2 can be extended or shortened when the middle sleeve 22 is rotated. The monitoring assembly 4 comprises a trigger rod 41, a switch 42, a compression spring 43, a shell 44, a nut 45, a sleeve 46 and an engaging platform 47. Sleeve 46 is equipped with the external screw thread and inside is hollow structure, and triggering rod 41 is the round bar structure, links up platform 47 and is equipped with domatic wedge structure 471, and inside triggering rod 41 passed sleeve 46, links up the domatic wedge structure 471 and the contact of switch 42 of platform 47, links up platform 47 upper surface and is connected with triggering rod 41, links up platform 47 bottom surface and compression spring 43 contact, and compression spring 43 elastic force is slightly bigger than the weight of shore 2. The trigger rod 41, the switch 42, the compression spring 43 and the sleeve 46 are all installed in the housing 44, the sleeve 46 passes through the first round hole 121 of the support plate 12, the monitoring assembly 4 is fastened on the attachment support 1 by the external thread of the sleeve 46 and the nut 45, and the upper end of the trigger rod 41 is in contact with the semicircular structure 232 of the lower end 23 of the top support 2.

A method for monitoring the jacking state of a climbing frame is realized by adopting the following method:

when the climbing frame ascends or descends, the middle sleeve 22 is adjusted to shorten the top support 2, the top support 2 is rotated to the side far away from the frame body 3, the compression spring 43 pushes the trigger rod 41 and the top support 2 upwards due to the fact that the elastic force of the compression spring 43 is slightly larger than the weight of the top support 2, and the lower end 23 of the top support 2 and the pin shaft 5 move upwards to the upper end of the long circular hole 111. Meanwhile, the slope wedge-shaped structure 471 of the joining table 47 is not in contact with the switch 42, namely the switch 42 is in a disconnected state, the switch 42 is connected to the climbing frame electronic monitoring system, and the electronic monitoring system can recognize that the top brace 2 is in a non-supporting state.

When the climbing frame stops at a certain floor, the top support 2 is rotated to a position close to one side of the frame body 3, the semicircular claw structure at the upper end 21 of the top support 2 is clamped into the small round rod 31 of the climbing frame body 3, the middle sleeve 22 is adjusted to enable the top support 2 to extend, an external force is generated in the extension process of the top support 2, the weight of the top support 2 is larger than the elastic force of the compression spring 43, the compression spring 43 is compressed, meanwhile, the lower end 23 of the top support 2 and the pin shaft 5 move downwards to the lower end of the long round hole 111, the lower end 23 of the top support 2 pushes the trigger rod 41 to move downwards, the switch 42 is pressed by the slope wedge structure 471 of the joining table 47 in the downward moving process of the trigger rod 41, the switch 42 is closed immediately, the switch 42 is connected into an electronic monitoring system of the climbing frame, and.

Example 2

The climbing frame top bracing monitoring assembly shown in fig. 1-6 comprises a climbing frame body 3, wherein an attached support 1 which is lifted relative to the climbing frame body 3 is arranged on the side part of the climbing frame body 3, a telescopic top bracing 2 is hinged on the attached support 1, and a monitoring assembly 4 matched with the top bracing 2 is installed in the attached support 1.

The climbing frame body 3 comprises two guide rails 32 which are symmetrically designed, and small round rods 31 which are in contact fit with the top support 2 are arranged between the two guide rails 32 in an equidistant array along the length direction of the climbing frame.

One end of the attachment support 1 is provided with a connecting surface connected with a building wall, the other end of the attachment support 1 is provided with a clamping part for clamping two symmetrical guide rails 32, and the corresponding inner side surface of the clamping part is provided with a guide wheel 13 in rolling contact with the guide rails 32.

A support plate 12 is fixed on the main body part of the attaching support 1;

the top support 2 is inserted into the two shaft seats 11 on the supporting plate 12 through the pin shaft 5, so that the rotation of the top support 2 relative to the attachment support 1 is completed;

the two shaft seats are provided with long round holes 111;

a first round hole 121 is formed in the supporting plate 12 between the two shaft seats 11, a trigger rod 41 in the monitoring assembly 4 is lifted in the first round hole 121, and the upper end of the trigger rod 41 is in fit contact with the lower end 23 of the top support 2.

The top brace 2 comprises an upper end 21, the inner ends of the upper end 21 and the lower end 23 are provided with symmetrical external thread structures, and the inner ends of the upper end 21 and the lower end 23 are screwed in the two ends of the middle sleeve 22.

The free end of the upper end 21 is provided with a claw structure clamped with the small round rod 31.

The free end of the lower end 23 is provided with a semi-circular formation 232 which is in mating contact with the trigger lever 41.

Monitoring subassembly 4 includes a casing 44, be equipped with vertical cavity and horizontal cavity in the casing 44, install compression spring 43 in the vertical cavity, compression spring 43 upper end is connected with links up platform 47, it has trigger bar 41 to link up platform 47 upper surface connection.

The end part of the joining table 47 close to the horizontal cavity extends downwards to form a slope wedge-shaped structure 471, a switch 42 is arranged in the horizontal cavity, and the head end of the switch is provided with a contact end in contact with the wedge-shaped structure.

When the climbing frame rises or falls, the middle sleeve is adjusted to shorten the top support, the top support is rotated to the side far away from the frame body, the slope wedge-shaped structure of the connecting table is not in contact with the switch, namely the switch is in a disconnected state, the switch is connected to an electronic monitoring system of the climbing frame, and the electronic monitoring system can recognize that the top support is in a non-supporting state;

when the climbing frame stops on a certain floor, the top support is rotated to one side close to the frame body, the semicircular clamping jaw structure at the upper end of the top support is clamped into the small round rod of the climbing frame body, the middle sleeve is adjusted to enable the top support to extend, the lower end of the top support pushes the trigger rod to move downwards, the switch is pressed by the slope wedge structure of the connecting table in the process that the trigger rod moves downwards, the switch is closed immediately, the switch is connected into the climbing frame electronic monitoring system, and the electronic monitoring system can recognize that the top support is in a supporting state.

The lower end 23 of the top support can move up and down in the range of the long round hole 111 of the shaft seat 11 by attaching the long round hole 111 arranged on the support 1.

When the top support is in a non-supporting state, the elastic force of the compression spring 43 of the monitoring assembly 4 is larger than the weight of the top support 2, so that the lower end 23 of the top support moves upwards to the upper end of the oblong hole 111.

When the top prop 2 extends, the lower end 23 pushes the trigger rod 41 downward, and further presses the switch 42, so that the switch 42 is closed.

The attachment support 1 is provided with a support plate 12 and a circular hole 121 thereof, the sleeve 46 penetrates through the circular hole 121, and the monitoring assembly 4 is fastened on the attachment support 1 through a thread and a nut 45 on the outer portion of the sleeve 46.

The upper end of the trigger lever 41 contacts the semicircular structure 232 of the lower end 23 of the top stay 2.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (9)

1. Climb a shore monitoring subassembly, including climbing a support body (3), climb a support body (3) lateral part and be equipped with for climbing attached support (1) that a support body (3) goes up and down, its characterized in that, it has telescopic shore (2) to articulate on attached support (1), install in attached support (1) and shore (2) complex monitoring subassembly (4).

2. The climbing frame top bracing monitoring assembly according to claim 1, wherein the climbing frame body (3) comprises two symmetrically designed guide rails (32), and small round rods (31) which are in contact fit with the top bracing (2) are arranged between the two guide rails (32) in an equidistant array along the height direction of the climbing frame.

3. The climbing frame top bracing monitoring assembly according to claim 2, wherein one end of the attachment support (1) is provided with a connecting surface for connecting with a building wall, the other end of the attachment support (1) is provided with a clamping part for clamping two symmetrical guide rails (32), and the corresponding inner side surface of the clamping part is provided with a guide wheel (13) in rolling contact with the guide rails (32).

4. The creeper top prop monitoring assembly according to claim 1, wherein a support plate (12) is fixed to the main body portion of the attachment bracket (1);

the top support (2) is inserted with two shaft seats (11) on the supporting plate (12) through a pin shaft (5) to complete the rotation of the top support (2) relative to the attachment support (1);

the two shaft seats are provided with oblong holes (111);

a first round hole (121) is formed in a supporting plate (12) between the two shaft seats (11), a trigger rod (41) in the monitoring assembly (4) is lifted in the first round hole (121), and the upper end of the trigger rod (41) is in fit contact with the lower end (23) of the top support (2).

5. The creeper top brace monitoring assembly of claim 4, wherein the top brace (2) includes an upper end (21), inner ends of the upper end (21) and the lower end (23) are provided with a symmetrical external thread arrangement, the inner ends of the upper end (21) and the lower end (23) are both threaded and within both ends of a middle sleeve (22).

6. The creeper top prop monitoring assembly according to claim 5, wherein the free end of the upper end (21) is provided with a semicircular jaw structure (211) which is clamped with the small round rod (31).

7. The creeper top prop monitoring assembly of claim 6, wherein the free end of the lower end (23) is provided with a semi-circular formation (232) in mating contact with the trigger bar (41).

8. The climbing frame top bracing monitoring assembly according to claim 4, wherein the monitoring assembly (4) comprises a casing (44), a vertical cavity and a horizontal cavity are arranged in the casing (44), a compression spring (43) is installed in the vertical cavity, an engagement table (47) is connected to the upper end of the compression spring (43), and a trigger rod (41) is connected to the upper surface of the engagement table (47).

9. The climbing frame shoring monitoring assembly according to claim 8, wherein the end of the joint platform near the horizontal cavity is downwardly extended with a slope wedge structure (471), a switch (42) is arranged in the horizontal cavity, and the head end of the switch is provided with a contact end which is in contact with the wedge structure.

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