CN218028223U - Spliced type assembled beam structure - Google Patents

Abstract

A spliced type assembled beam structure. The product comprises the following components: square crossbeam, square perpendicular roof beam, one side of square crossbeam have the horizontal socket of rectangle, square crossbeam's opposite side have the horizontal inserted block of rectangle, square crossbeam when continuing to connect the horizontal inserted block tight fit of rectangle insert the horizontal socket in-connection of rectangle, square one side of erecting the roof beam have the vertical socket of rectangle, square opposite side of erecting the roof beam have the vertical inserted block of rectangle, square perpendicular roof beam when continuing to connect the vertical inserted block tight fit of rectangle insert the rectangle erect the socket in connect. The utility model is used for the equipment roof beam.

Description

Spliced type assembled beam structure

The technical field is as follows:

the utility model relates to a concatenation formula equipment beam structure.

Background art:

at present, the ring beam is required to be used when a flat-bed structure is built, the existing ring beam is of a cast-in-place structure, the ring beam of the cast-in-place structure needs to be maintained and wait for drying, so that the building speed of the flat-bed structure can be influenced, and the building speed can be accelerated if the structure beam is manufactured in a factory for field assembly.

The existing assembling beam structure for the assembly building (patent number: CN 201920651049.1) comprises two square rods, the inner sides of the two square rods are connected together through a movable frame, a fixed plate is arranged above the movable frame, a sleeve is fixedly connected to the inner portion of the movable frame, a vertical rod is in clearance fit with the inner portion of the sleeve, the bottom of the vertical rod is fixedly connected with the movable frame, and a mounting frame is arranged at the tail end of the outer side of each square rod. This assembly is equipment beam structure for building, the advantage of traditional equipment roof beam be convenient for install, dismantle has not only been realized, and through the spring, the square tube, cooperation between down tube and the horizontal pole, make this assembly is equipment beam structure for building receive the power that comes from the top or when receiving vibrations, the equipment roof beam of having avoided among the prior art is in the use, lead to the not hard up or the whole crooked problem of taking place of equipment roof beam easily, prevent to lead to the problem that the building collapses because the damage of equipment roof beam, so this assembly is equipment beam structure for building can satisfy people's use needs completely.

The beam connecting structure is used for connecting and assembling beams, is not a body structure of the beams, cannot increase the body structure of the beams, and cannot achieve the purpose of industrially producing the beams.

The invention content is as follows:

the utility model aims at providing a can carry out the on-the-spot equipment, the equipment is fast, safe in utilization's concatenation formula equipment beam structure.

The above purpose is realized by the following technical scheme:

a spliced type assembled beam structure comprises: square crossbeam, square perpendicular roof beam, one side of square crossbeam have the horizontal socket of rectangle, square crossbeam's opposite side have the horizontal inserted block of rectangle, square crossbeam when continuing to connect the horizontal inserted block tight fit of rectangle insert the horizontal socket in-connection of rectangle, square one side of erecting the roof beam have the vertical socket of rectangle, square opposite side of erecting the roof beam have the vertical inserted block of rectangle, square perpendicular roof beam when continuing to connect the vertical inserted block tight fit of rectangle insert the rectangle erect the socket in connect.

Concatenation formula equipment beam structure, be located the tip square crossbeam's both sides all have the rectangle transverse end inserted block, be located the tip square perpendicular roof beam's both sides all have the rectangle and erect the end socket, square crossbeam with square perpendicular roof beam when connecting rectangle transverse end inserted block tight fit insert the rectangle erect the end socket internal fixation.

Spliced assembled beam structure, rectangle erect the higher authority of end socket and connect 4 square last screw holes that distribute, last screw hole connect and go up the reaming, rectangle erect the lower screw hole of 4 square distributions of sub-unit connection of end socket, lower screw hole connect under the reaming, the horizontal end inserted block of rectangle screw hole that has 4 square distributions, last screw hole with lower screw hole centre gripping screw hole and connecting bolt are fixed, the both ends of bolt bury respectively last reaming with lower reaming internal fixation.

Spliced assembled beam structure, the top of the horizontal socket of rectangle connect the horizontal screw hole in top that 4 rectangles distribute, the horizontal screw hole in top connect the horizontal reaming in top, the bottom of the horizontal socket of rectangle connect the horizontal screw hole in the end that 4 rectangles distribute, horizontal screw hole in the end connect horizontal reaming at the end, the horizontal end inserted block of rectangle 4 rectangle distribute horizontal screw hole have, the horizontal screw hole in top with horizontal screw hole centre gripping in the end horizontal screw hole and connect the bolt fastening, the both ends of bolt bury respectively the horizontal reaming in top with horizontal reaming internal fixation in the end.

Spliced assembled beam structure, the rectangle erect one side of socket and connect the left screw hole that 4 rectangles distribute, left screw hole connect left reaming, the rectangle erect the opposite side of socket and connect the right screw hole that 4 rectangles distribute, right screw hole connect right reaming, the rectangle erect the well screw hole that the end inserted block has 4 rectangles to distribute, left screw hole with right screw hole centre gripping well screw hole and connect the bolt fastening, the both ends of bolt bury respectively left reaming with right reaming internal fixation.

Has the beneficial effects that:

1. the utility model discloses a square crossbeam, square perpendicular roof beam are makeed in the mill, need not see temperature and weather and can both make, and not only the preparation is fast, and the cost of preparation is still low to the quality of preparation is better.

2. The utility model discloses a square crossbeam, square erect roof beam rational in infrastructure, the equipment is convenient, swift, and existing grafting has fixed structure again between the square crossbeam, also has grafting and fixed structure between the square perpendicular roof beam equally, ensures between the square crossbeam, square erect between the roof beam continue to connect after very firm, use very safety.

3. The utility model discloses a square crossbeam and square erect the roof beam between have grafting and fixed structure equally, the speed piece of not only assembling, it is more firm after the equipment.

4. The utility model discloses a connect the position and all carry out fixedly with the bolt of 4 matrixes, guarantee to connect the phenomenon that can not appear wrench movement after the position equipment, fixed more firm uses certain safety.

Description of the drawings:

FIG. 1 is a schematic structural diagram of a square cross beam of the product.

FIG. 2 is a structural schematic diagram of a square vertical beam of the product.

Fig. 3 is an overall view of the product.

Fig. 4 is an assembly view of a square cross beam and a square vertical beam of the product.

The specific implementation mode is as follows:

the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings of the present invention.

Example 1:

a spliced assembled beam structure, comprising: square crossbeam 1, square perpendicular roof beam 2, one side of square crossbeam have the horizontal socket of rectangle 3, the opposite side of square crossbeam have the horizontal inserted block of rectangle 4, square crossbeam when continuing to connect the horizontal inserted block tight fit of rectangle insert the horizontal inserted block of rectangle in connect and have fixed effect, one side of square perpendicular roof beam have the rectangle and erect socket 5, square perpendicular roof beam's opposite side have the rectangle and erect inserted block 6, square perpendicular roof beam when continuing to connect the rectangle erect inserted block tight fit insert the rectangle erect the socket in connect, have fixed effect equally.

Lie in the tip square crossbeam's both sides all have rectangle transverse end inserted block 7, lie in the tip square perpendicular roof beam's both sides all have rectangle and erect end socket 8, square crossbeam with square perpendicular roof beam when connecting rectangle transverse end inserted block tight fit insert rectangle perpendicular end socket internal fixation, fixed both convenient firm again.

The higher authority of rectangle vertical end socket connect 4 square distribution last screw hole 9, last screw hole connect up reaming 10, the lower part of rectangle vertical end socket connect 4 square distribution's lower screw hole 11, lower screw hole connect under reaming 12, rectangle horizontal end inserted block screw hole 13 that has 4 square distribution, last screw hole with lower screw hole centre gripping the screw hole and connecting bolt 14 are fixed, the both ends of bolt bury respectively last reaming with lower reaming internal fixation, it is not only firm after fixed, it provides convenience for equipment on next step not have any convex part yet, also can add the screw rod length of long bolt when needs connecting bolt, make outstanding square crossbeam of screw rod and square perpendicular roof beam, can further consolidate the firm degree of connection.

The top of the horizontal socket of rectangle connect the horizontal screw hole 15 in top of 4 rectangle distributions, the horizontal screw hole of top connect the horizontal reaming 16 in top, the bottom of the horizontal socket of rectangle connect the horizontal screw hole 17 in the end of 4 rectangle distributions, horizontal screw hole at the end connect horizontal reaming 18 in the end, the horizontal end inserted block of rectangle horizontal screw hole 19 that has 4 rectangle distributions, the horizontal screw hole in top with the horizontal screw hole centre gripping in the end horizontal screw hole and connect the bolt fastening, the both ends of bolt bury respectively the horizontal reaming in top with the horizontal reaming internal fixation in end. The length of the screw rod can be lengthened, the length of the appropriate screw rod can be selected, and the use is very flexible.

The rectangle erect one side of socket connect the left screwed hole 20 that 4 rectangles distribute, left screwed hole connect left reaming 21, the rectangle erect the opposite side of socket and connect the right screw hole 22 that 4 rectangles distribute, right screw hole connect right reaming 23, the rectangle erect the end inserted block and have the well screw hole 24 that 4 rectangles distribute, left screw hole with right screw hole centre gripping well screw hole and connect the bolt fastening, the both ends of bolt bury respectively left reaming with right reaming internal fixation. The used bolt can completely meet the use requirement.

The working principle is as follows:

the square cross beams are assembled according to the length requirement and are connected and fixed by bolts, the square vertical beams are assembled and are connected and fixed by bolts, and then the square cross beams and the square vertical beams are assembled and connected and fixed by bolts.

Claims (5)

1. A spliced assembled beam structure, comprising: square crossbeam, square perpendicular roof beam, characterized by: one side of square crossbeam have rectangle horizontal socket, the opposite side of square crossbeam have rectangle horizontal inserted block, square crossbeam when continuing to connect rectangle horizontal inserted block tight fit insert rectangle horizontal socket in-connection, square one side of erecting the roof beam have rectangle and erect the socket, square opposite side of erecting the roof beam have rectangle and erect the inserted block, square erect the roof beam when continuing to connect rectangle erect the inserted block tight fit insert rectangle and erect the socket internal connection.

2. The spliced assembled beam structure of claim 1, wherein: lie in the tip square crossbeam's both sides all have rectangle transverse end inserted block, lie in the tip square perpendicular roof beam's both sides all have rectangle and erect the end socket, square crossbeam with square perpendicular roof beam when connecting rectangle transverse end inserted block tight fit insert rectangle perpendicular end socket internal fixation.

3. The spliced assembled beam structure of claim 2, wherein: the rectangle erect the higher authority of end socket and connect 4 square last screw holes that distribute, last screw hole connect and go up the reaming, the rectangle erect the lower screw hole of 4 square distributions of sub-unit connection of end socket, lower screw hole connect under the reaming, the rectangle horizontal end inserted block screw hole that has 4 square distributions, last screw hole with lower screw hole centre gripping the screw hole and connect the bolt fastening, the both ends of bolt bury respectively last reaming with lower reaming internal fixation.

4. The spliced assembled beam structure of claim 1, wherein: the top of the horizontal socket of rectangle connect the horizontal screw hole in top of 4 rectangle distributions, the horizontal screw hole in top connect the horizontal reaming in top, the bottom of the horizontal socket of rectangle connect the horizontal screw hole in the end of 4 rectangle distributions, horizontal screw hole at the end connect horizontal reaming at the end, the horizontal end inserted block of rectangle 4 rectangle distributions's horizontal screw hole have, the horizontal screw hole in top with horizontal screw hole centre gripping in the end horizontal screw hole and connect the bolt fastening, the both ends of bolt bury respectively the horizontal reaming in top with horizontal reaming internal fixation in the end.

5. The spliced assembled beam structure of claim 1, wherein: the rectangle erect one side of socket connect the left screw hole that 4 rectangles distribute, left screw hole connect left reaming, the rectangle erect the opposite side of socket and connect the right screw hole that 4 rectangles distribute, right screw hole connect right reaming, the rectangle erect the end inserted block and have the well screw hole that 4 rectangles distribute, left screw hole with right screw hole centre gripping well screw hole and connect the bolt fastening, the both ends of bolt bury respectively left reaming with right reaming internal fixation.

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