CN113606385A

CN113606385A - Assembled engineering bracket component

Info

Publication number: CN113606385A
Application number: CN202110835466.3A
Authority: CN
Inventors: 张静晓; 易达; 孙辉; 李慧; 阚博文; 姚欢喜; 张雷; 樊力; 余博阳
Original assignee: Shanghai Civil Engineering Co Ltd of CREC; Seventh Engineering Co Ltd of Shanghai Civil Engineering Co Ltd of CREC
Current assignee: Shanghai Civil Engineering Co Ltd of CREC; Seventh Engineering Co Ltd of Shanghai Civil Engineering Co Ltd of CREC
Priority date: 2021-07-23
Filing date: 2021-07-23
Publication date: 2021-11-05
Anticipated expiration: 2041-07-23
Also published as: CN113606385B

Abstract

The invention discloses an assembly type engineering support assembly which comprises an assembly type engineering support assembly body, wherein the assembly type engineering support assembly body comprises an installation wall body, the bottom end of the installation wall body is connected with an installation block, a fastening steel bar is embedded and connected into the installation wall body, the bottom end of the installation block is connected with a supporting installation frame and an adjusting assembly, the adjusting assembly comprises a connecting attachment plate, and the top end of the installation block is connected with the connecting attachment plate. The support mounting frame, the first support connecting rod and the second support connecting rod are matched with each other, so that the assembly operation is simple and convenient, when the support mounting frame is not used, the space occupation is reduced by folding and accommodating the support mounting frame, when the support mounting frame is used, the support mounting frame is unfolded, the operation is simple and convenient, a large amount of time is saved in the building construction, the progress of the building construction is improved to the greatest extent, and the labor burden of workers is reduced.

Description

Assembled engineering bracket component

Technical Field

The invention relates to the technical field of engineering supports, in particular to an assembled engineering support assembly.

Background

The assembled finished product support hanger is produced uniformly by a factory according to a high standard process through beams, stand columns, parts and the like made of angle iron, channel steel or square steel materials, and constructors cut and assemble according to field installation requirements, so that various construction environments can be effectively met. The fabricated finished product support hanger is suitable for the support installation of water supply and drainage, electrical and building heating and ventilation and fire fighting system pipelines in concrete structures and steel structure buildings, and is also suitable for the building installation engineering that the later-stage use function adjustment is frequent and the indoor pipeline is easy to disassemble and change.

At present assembled use earlier stage, need install the support according to standard step, just can use in the construction after installing, support it through the support, can consume more time during the installation, influence the normal follow-up of engineering, but install in advance, need consume great space to the storage of assembled support, and can bring various inconvenience when the transportation is carried.

In order to solve the above problems, it is necessary to design an assembly type engineering bracket assembly to solve the above problems, because the assembly type bracket assembly consumes much time in field installation and the prior installation brings inconvenience to transportation.

Disclosure of Invention

The invention aims to provide an assembly type engineering bracket assembly to solve the problems of time consumption and large storage space occupation of direct assembly in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a fabricated engineering bracket assembly, comprising:

the assembly type support comprises an assembly type support body, wherein the assembly type support body comprises an installation wall body, the bottom end of the installation wall body is connected with an installation block, a fastening steel bar is embedded and connected in the installation wall body, and the bottom end of the installation block is connected with a support installation frame;

the adjusting component comprises a connecting attaching plate, the top end of the mounting block is connected with the connecting attaching plate, the top end of the connecting attaching plate is connected with a fastening screw, the outer wall of the fastening screw is sleeved with an expansion sleeve, the outer wall of the supporting and mounting frame is connected with a fastening and positioning sleeve, one side of the fastening and positioning sleeve is connected with a transverse fixing frame, the top end of the transverse fixing frame is connected with a fastening positioning block, a first connecting pipe is embedded and connected in the fastening positioning block, a vertical rod is connected inside the transverse fixing frame in a penetrating way, the top end of the vertical rod is connected with an installation wall body, one side of the bottom end of the supporting and mounting frame is connected with a fastening movable strip, the inner side of the fastening movable strip is connected with a movable cross rod, the top end of the movable cross rod is connected with a fastening sleeve bolt, and a second connecting pipe is embedded and connected in the fastening sleeve bolt;

folding structure, folding structure is including connecting the pivot, the inside embedding of installation piece is connected with the connection pivot, back one side fixedly connected with additional strengthening of installation piece, the bottom of additional strengthening is connected with first supporting connecting rod, the end-to-end connection of first supporting connecting rod has the second supporting connecting rod, the upper end of second supporting connecting rod is connected with the hinge, the top of second supporting connecting rod is connected with the fastener, the upper end of first supporting connecting rod is connected with spacing lantern strip, the upper end of first supporting connecting rod is connected with the preformed hole, the bottom of installation piece is connected with the stopper, the inside embedding of spacing lantern strip is connected with the bullet strip, the top of bullet strip is connected with the ball.

Preferably, the connection attaching plate and the mounting block are vertically welded together, and the connection attaching plate, the mounting block and the reinforcing frame form a triangle.

Preferably, the upper end of the supporting installation frame is provided with a sliding groove, the inside of the sliding groove is connected with a fastening movable strip in an embedded mode, and the supporting installation frame is connected with the fastening movable strip in a sliding mode.

Preferably, be connected through the loose axle between strengthening frame and the first support connecting rod, be connected through the hinge between first support connecting rod and the second support connecting rod, all be connected through the loose axle between second support connecting rod and the support mounting bracket.

Preferably, the fastener is embedded in the preformed hole, the inner wall of the preformed hole is provided with internal threads, and the tail end of the second support connecting rod is embedded in the inner sides of the elastic strip and the ball.

Preferably, the tail end of the elastic strip is arc-shaped, the top ends of the balls are semicircular, three groups of balls are arranged on the balls, and the three groups of balls are uniformly distributed in the elastic strip.

Preferably, the mounting block is embedded and connected with a sliding structure, the sliding structure comprises a spring, the mounting block is embedded and connected with the spring, the tail end of the spring is connected with a moving block, and a sliding long groove is formed in the mounting block.

Preferably, the moving block is embedded in the sliding long groove, the moving block is connected with the sliding long groove in a sliding mode, and a rubber pad is fixedly connected to the inner wall of the sliding long groove.

Preferably, the inside embedding of installation piece is connected with the fastening cover piece, one side of fastening cover piece is connected with the connection inserted bar, the top of supporting the mounting bracket is connected with the block.

Preferably, the top end of the clamping block is circular, the outer wall of the clamping block is fixedly connected with a clamping tooth, the fastening sleeve block is arched, and a clamping groove formed in the inner wall of the fastening sleeve block is matched with the clamping tooth at the upper end of the clamping block.

Compared with the prior art, the invention has the beneficial effects that:

1. this assembled engineering bracket subassembly is through being provided with the support mounting bracket, mutually supporting between first supporting connecting rod and the second supporting connecting rod, it is convenient to have realized assembly easy operation, when not using, accomodate together through folding, reduce occuping of space, when using, support through launching, the easy operation is answered conveniently, a large amount of time has been saved in the construction, the progress of construction has been promoted in the increase of at utmost, alleviate staff's work burden.

2. This assembled engineering bracket component is provided with the fastening activity strip, the activity horizontal pole, mutually support between fastening sleeve bolt and the second connecting pipe, in the installation butt joint operation to the second connecting pipe, can be free highly changing the second connecting pipe through adjusting, it is more convenient to have brought for the installation work, when having restricted the position of activity horizontal pole after adjusting, the position of second connecting pipe has been restricted, the fastening nature that the second connecting pipe is connected has been increaseed, can effectually avoid connecting appear becoming flexible, the bearing capacity of second connecting pipe has also been reduced.

Drawings

FIG. 1 is a schematic front view of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic side view of the first and second support links of the present invention in a bent state;

FIG. 4 is a schematic cross-sectional side view of a second support link and fastener of the present invention;

FIG. 5 is a schematic cross-sectional side view of the fastening nest and spring of the present invention;

FIG. 6 is a side view of the fastening sleeve and the connecting rod of the present invention.

In the figure: 1. an assembled stent body; 110. installing a wall body; 120. mounting blocks; 130. supporting the mounting frame; 140. fastening the steel bar; 2. an adjustment assembly; 210. connecting the attaching plates; 220. fastening screws; 230. an expansion sleeve; 240. tightly fixing the position sleeve; 250. a transverse fixing frame; 260. fastening a positioning block; 270. a first connecting pipe; 280. a vertical rod; 290. fastening the movable strip; 2110. a movable cross bar; 2120. fastening a sleeve bolt; 2130. a second connecting pipe; 3. a folded configuration; 310. connecting the rotating shaft; 320. a reinforcing frame; 330. a hinge shaft; 340. a first support link; 350. a limiting sleeve strip; 360. reserving a hole; 370. a second support link; 380. a fastener; 390. a limiting block; 3110. a spring bar; 3120. a ball bearing; 4. a sliding structure; 410. a spring; 420. a moving block; 430. a sliding long groove; 440. fastening the sleeve block; 450. connecting the inserted link; 460. and a clamping block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, an embodiment of the present invention is shown:

a fabricated engineering bracket assembly, comprising:

the assembled support body 1, the assembled support body 1 is including installation wall body 110, the bottom of installation wall body 110 is connected with installation piece 120, the inside embedding of installation wall body 110 is connected with fastening billet 140, the bottom of installation piece 120 is connected with supports mounting bracket 130, the assembled finished product support gallows is honored as the light gauge steel structure that need not welded, the existing steel construction's high strength, light weight, high reliability, the good a great deal of characteristics of anti-seismic performance, the high accuracy that the assembled building that need not welded has again, can replace, nimble controllable advantage, assembled finished product support is with pleasing to the eye, durable, can prefabricate, can assemble, tear advantages such as convenient, simultaneously at reduce cost, shorten construction cycle, environmental protection and performance are all because traditional support, obtain extensive application in the building electromechanical engineering field.

The adjusting assembly 2 comprises a connecting attaching plate 210, the top end of the mounting block 120 is connected with the connecting attaching plate 210, the top end of the connecting attaching plate 210 is connected with a fastening screw 220, the outer wall of the fastening screw 220 is sleeved with an expansion sleeve 230, the outer wall of the support mounting frame 130 is connected with a fastening positioning sleeve 240, one side of the fastening positioning sleeve 240 is connected with a transverse fixing frame 250, the top end of the transverse fixing frame 250 is connected with a fastening positioning block 260, the inside of the fastening positioning block 260 is embedded and connected with a first connecting pipe 270, the inside of the transverse fixing frame 250 is connected with a vertical rod 280 in a penetrating way, the top end of the vertical rod 280 is connected with a mounting wall 110, one side of the bottom end of the support mounting frame 130 is connected with a fastening movable strip 290, the inside of the fastening movable strip 290 is connected with a movable cross bar 2110, the top end of the movable cross bar 2110 is connected with a fastening toggle 2120, the inside of the fastening toggle 2120 is embedded and connected with a second connecting pipe 2130, the position of the second connecting pipe 2130 is adjusted by adjusting the position of the fastening movable bar 290, so that the controllability and the flexibility are more excellent, and the butt joint operation of the second connecting pipe 2130 is more convenient and faster by adjusting.

The folding structure 3 comprises a connecting rotating shaft 310, the connecting rotating shaft 310 is embedded and connected inside the mounting block 120, one side of the back face of the mounting block 120 is fixedly connected with a reinforcing frame 320, the bottom end of the reinforcing frame 320 is connected with a first supporting connecting rod 340, the tail end of the first supporting connecting rod 340 is connected with a second supporting connecting rod 370, the upper end of the second supporting connecting rod 370 is connected with a hinge 330, the top end of the second supporting connecting rod 370 is connected with a fastener 380, the upper end of the first supporting connecting rod 340 is connected with a limiting sleeve strip 350, the upper end of the first supporting connecting rod 340 is connected with a preformed hole 360, the bottom end of the mounting block 120 is connected with a limiting block 390, an elastic strip 3110 is embedded and connected inside the limiting sleeve strip 350, the top end of the elastic strip 3110 is connected with a ball 3120, the connecting joint plate 210 and the mounting block 120 are vertically welded together, the connecting joint plate 210, the mounting block 120 and the reinforcing frame 320 form a triangular shape, and the triangular shape has stability, better stability increases the stability of the stent, as well as resistance, allowing the stent to withstand a larger and heavier item.

Furthermore, the sliding groove is formed in the upper end of the supporting and mounting frame 130, the fastening movable strip 290 is connected to the sliding groove in an embedded mode, the supporting and mounting frame 130 is connected with the fastening movable strip 290 in a sliding mode, the position of the second connecting pipe 2130 is adjusted through adjustment between the supporting and mounting frame 130 and the fastening movable strip 290, the second connecting pipe 2130 is more flexible to install through adjustment, different installation sites can be faced, and more convenience is brought to workers.

Further, strengthen being connected through the loose axle between frame 320 and the first support link 340, be connected through hinge 330 between first support link 340 and the second support link 370, all be connected through the loose axle between second support link 370 and the support mounting bracket 130, fold through the connection of loose axle, through folding occupation that has reduced the space, also can be more convenient in the transportation, and then accelerated the quick expansion of work.

Further, fastener 380 imbeds in the inside of preformed hole 360, the internal thread has been seted up to the inner wall of preformed hole 360, the terminal embedding of second support link 370 is in the inboard of bullet strip 3110 and ball 3120, the terminal one side of bullet strip 3110 sets up to arc, the top of ball 3120 sets up to semi-circular, and ball 3120 is provided with three groups, three groups of ball 3120 evenly distributed are in the inside of bullet strip 3110, when the terminal embedding of second support link 370 is to the inside of spacing sleeve strip 350, support the upper end at second support link 370 through ball 3120, the position of second support link 370 has been increaseed and has been restricted, make the connection also can be fastening more.

Further, the mounting block 120 is embedded and connected with a sliding structure 4, the sliding structure 4 includes a spring 410, the mounting block 120 is embedded and connected with the spring 410, the end of the spring 410 is connected with a moving block 420, a sliding long groove 430 is formed in the mounting block 120, the moving block 420 is embedded in the sliding long groove 430, the moving block 420 is slidably connected with the sliding long groove 430, a rubber pad is fixedly connected to the inner wall of the sliding long groove 430, the moving block 420 is driven to descend after the support mounting frame 130 is pulled downwards, the support mounting frame 130 is rotated after the fastening sleeve block 440 and the engaging block 460 are separated, the moving block 420 is driven to return to an initial state under the reaction force of the spring 410 after the support mounting frame 130 has no downward traction force, the engaging block 460 is embedded into the fastening sleeve block 440 again, and the position of the support mounting frame 130 is limited.

Further, a fastening sleeve block 440 is embedded and connected inside the mounting block 120, one side of the fastening sleeve block 440 is connected with a connecting inserted rod 450, the top end of the support mounting frame 130 is connected with a clamping block 460, the top end of the clamping block 460 is set to be circular, the outer wall of the clamping block 460 is fixedly connected with a latch, the fastening sleeve block 440 is set to be arched, a slot formed in the inner wall of the fastening sleeve block 440 is matched with the latch on the upper end of the clamping block 460, the deflection angle of the support mounting frame 130 is limited by the fastening sleeve block 440 and the clamping block 460, when the clamping block 460 is completely meshed into the fastening sleeve block 440, the clamping block 460 and the support mounting frame 130 cannot rotate, the overall stability of the support is further excellent, after the fastening sleeve block 440 and the clamping block 460 are separated, the support mounting frame 130 can rotate along the connecting rotating shaft 310, the support can be stored by the rotation of the support mounting frame 130, the space occupation is reduced.

The working principle is as follows: in the installation of the assembly type bracket assembly for constructional engineering, a proper bracket is selected for use, after the proper bracket is selected, the first connecting pipe 270 and the second connecting pipe 2130 are installed through the bracket, and the position limitation of the first connecting pipe 270 and the second connecting pipe 2130 is enlarged through the bracket.

In the installation operation of the installation wall 110, the installation block 120 and the support installation frame 130, a standard installation position is established by using a professional positioning device, the expansion sleeve 230 is embedded into the outer wall of the fastening screw 220, the fastening screw 220 and the expansion sleeve 230 are embedded into the installation wall 110, the installation of the connection attachment plate 210 is realized, and the connection is enlarged when the fastening screw 220 and the expansion sleeve 230 penetrate through the inside of the fastening steel bar 140, so that the installation is more fastened.

After the connecting fitting plate 210 is installed at the bottom end of the installation wall 110, the first connecting pipe 270 is embedded into the fastening positioning block 260, the position of the first connecting pipe 270 is limited by the fastening positioning block 260, in addition, the second connecting pipe 2130 can be embedded into the fastening toggle 2120, the position of the second connecting pipe 2130 is limited by the fastening toggle 2120, the butt joint installation of the second connecting pipe 2130 is facilitated, the installation height of the second connecting pipe 2130 is adjusted by adjusting the upper end position of the fastening movable strip 290 on the support installation frame 130, so that the installation operation is more flexible, and more convenience is brought to constructors.

Through the position of expansion fixed stay mounting bracket 130, the installation piece 120 has been increaseed, support mounting bracket 130's stability, with the inside of second support link 370 upper end fastener 380 embedding preformed hole 360, when fastener 380 is under the interlock of screw thread, the inside of embedding preformed hole 360, make support mounting bracket 130, installation wall 110 and second support link 370 and first support link 340 constitute triangle-shaped, make full use of triangle-shaped has the characteristic of stability, the stability of support has been increaseed, also make the support can bear bigger effort.

When the first support link 340 and the second support link 370 are overlapped, the position of the second support link 370 is restricted by the fastener 380 and the prepared hole 360, and the position of the second support link 370 is restricted by the spacing sleeve strip 350, and when the top end of the second support link 370 is inserted into the spacing sleeve strip 350, the connection is enlarged by the elastic strip 3110 and the ball 3120 being caught at the upper end of the second support link 370.

When the engaging block 460 is tightly attached to the bottom end of the fastening sleeve block 440, the rotation of the supporting frame 130 is limited by the fastening sleeve block 440, so that the supporting frame 130 and the mounting wall 110 are kept in a vertical state, in addition, the first supporting link 340 and the second supporting link 370 are overlapped, the connection is enlarged, when the supporting frame 130 needs to be folded and stored, the fastener 380 falls off the inside of the reserved hole 360, the second supporting link 370 and the second connecting pipe 2130 are separated, the supporting frame 130 is pulled downwards to pull the engaging block 460, when the engaging block 460 moves downwards, the moving block 420 is driven to descend, when the engaging block 460 and the fastening sleeve block 440 are separated, the storage and the folding of the support are realized through the deflection of the supporting frame 130, when the acting force is not applied to the upper end of the supporting frame 130, under the reaction force of the top spring 410, the engaging block 460 and the fastening sleeve block 440 are engaged again, thereby achieving the fixing of the support mounting bracket 130.

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

Claims

1. An assembled engineering bracket assembly, comprising:

the assembled support comprises an assembled support body (1), wherein the assembled support body (1) comprises a mounting wall body (110), the bottom end of the mounting wall body (110) is connected with a mounting block (120), a fastening steel bar (140) is embedded and connected in the mounting wall body (110), and the bottom end of the mounting block (120) is connected with a support mounting frame (130);

the adjusting assembly (2), the adjusting assembly (2) comprises a connecting attaching plate (210), the top end of the mounting block (120) is connected with the connecting attaching plate (210), the top end of the connecting attaching plate (210) is connected with a fastening screw (220), an expansion sleeve (230) is sleeved on the outer wall of the fastening screw (220), the outer wall of the supporting mounting frame (130) is connected with a fastening position sleeve (240), one side of the fastening position sleeve (240) is connected with a transverse fixing frame (250), the top end of the transverse fixing frame (250) is connected with a fastening positioning block (260), a first connecting pipe (270) is embedded and connected in the fastening positioning block (260), a vertical rod (280) is connected in the transverse fixing frame (250) in a penetrating manner, the top end of the vertical rod (280) is connected with a mounting wall (110), and a fastening movable strip (290) is connected to one side of the bottom end of the supporting mounting frame (130), the inner side of the fastening movable strip (290) is connected with a movable cross bar (2110), the top end of the movable cross bar (2110) is connected with a fastening sleeve bolt (2120), and a second connecting pipe (2130) is embedded and connected in the fastening sleeve bolt (2120);

the folding structure (3) comprises a connecting rotating shaft (310), the mounting block (120) is connected with the connecting rotating shaft (310) in an embedded mode, a reinforcing frame (320) is fixedly connected to one side of the back face of the mounting block (120), the bottom end of the reinforcing frame (320) is connected with a first supporting connecting rod (340), the tail end of the first supporting connecting rod (340) is connected with a second supporting connecting rod (370), the upper end of the second supporting connecting rod (370) is connected with a hinge shaft (330), the top end of the second supporting connecting rod (370) is connected with a fastener (380), the upper end of the first supporting connecting rod (340) is connected with a limiting sleeve strip (350), the upper end of the first supporting connecting rod (340) is connected with a preformed hole (360), the bottom end of the mounting block (120) is connected with a limiting block (390), and the elastic strip (3110) is connected with the embedded mode of the limiting sleeve strip (350), the top end of the elastic strip (3110) is connected with a ball (3120).

2. The fabricated engineering bracket assembly of claim 1, wherein: the connecting attaching plate (210) and the mounting block (120) are vertically welded together, and the connecting attaching plate (210), the mounting block (120) and the reinforcing frame (320) form a triangle.

3. The fabricated engineering bracket assembly of claim 1, wherein: the upper end of the supporting mounting frame (130) is provided with a sliding groove, a fastening movable strip (290) is embedded and connected into the sliding groove, and the supporting mounting frame (130) is connected with the fastening movable strip (290) in a sliding mode.

4. The fabricated engineering bracket assembly of claim 1, wherein: the reinforcing frame (320) is connected with the first supporting connecting rod (340) through a movable shaft, the first supporting connecting rod (340) is connected with the second supporting connecting rod (370) through a hinge shaft (330), and the second supporting connecting rod (370) is connected with the supporting mounting frame (130) through a movable shaft.

5. The fabricated engineering bracket assembly of claim 1, wherein: the fastener (380) is embedded in the preformed hole (360), internal threads are formed in the inner wall of the preformed hole (360), and the tail end of the second support connecting rod (370) is embedded in the inner sides of the elastic strip (3110) and the ball (3120).

6. The fabricated engineering bracket assembly of claim 1, wherein: one side of the tail end of the elastic strip (3110) is arranged to be arc-shaped, the top end of the ball (3120) is arranged to be semicircular, three groups of balls (3120) are arranged, and the three groups of balls (3120) are uniformly distributed in the elastic strip (3110).

7. The fabricated engineering bracket assembly of claim 1, wherein: the sliding structure (4) is connected to the inside of the mounting block (120) in an embedded mode, the sliding structure (4) comprises a spring (410), the spring (410) is connected to the inside of the mounting block (120) in an embedded mode, the tail end of the spring (410) is connected with a moving block (420), and a sliding long groove (430) is formed in the mounting block (120).

8. The fabricated engineering bracket assembly of claim 7, wherein: the moving block (420) is embedded in the sliding long groove (430), the moving block (420) is connected with the sliding long groove (430) in a sliding mode, and a rubber pad is fixedly connected to the inner wall of the sliding long groove (430).

9. The fabricated engineering bracket assembly of claim 1, wherein: the inside embedding of installation piece (120) is connected with fastening cover piece (440), one side of fastening cover piece (440) is connected with connects inserted bar (450), the top of supporting mounting bracket (130) is connected with block (460).

10. The fabricated engineering bracket assembly of claim 9, wherein: the top end of the clamping block (460) is round, the outer wall of the clamping block (460) is fixedly connected with a clamping tooth, the fastening sleeve block (440) is arched, and a clamping groove formed in the inner wall of the fastening sleeve block (440) is matched with the clamping tooth at the upper end of the clamping block (460).