CN213418228U - Barrel storehouse end male truss structure - Google Patents

Abstract

The utility model relates to a cylinder warehouse tip male end truss structure, the left end front and back side of crossbeam stretches out the setting left and is formed with the upper extension end in its inside relative to its hookup location with the vertical beam top, the right-hand member front and back side of crossbeam stretches out the setting right relative to its hookup location with the sloping roof beam top, the left end front and back side of sloping stretches out the setting left and is formed with the lower extension end in its inside relative to its hookup location with the vertical beam bottom, and the left end front and back side length of stretching out left of crossbeam equals the left end front and back side length of stretching out left of sloping; thereby stretch out the position of the upper and lower mounting groove that the end stretched into inside truss frame through the left end of crossbeam, the left end of sloping stretch out the setting and realize the matching installation, the rethread outside mounting passes in proper order and effectively realizes the fixed connection of the positive first truss structure of section of thick bamboo storehouse tip and inside truss frame to be convenient for install, the location is firm, effectively strengthens the connection and the support intensity of this truss structure simultaneously.

Description

Barrel storehouse end male truss structure

Technical Field

The utility model relates to a truss structure suitable for the section of thick bamboo storehouse, concretely relates to section of thick bamboo storehouse tip male end truss structure.

Background

The cylinder warehouse is a cylinder generally made of steel plates and used for stacking or storing required materials or finished products in a preset area, and in order to realize long-term safe and effective storage, the cylinder warehouse is often required to be provided with a capping structure with good sealing performance and stable strength so as to deal with severe weather such as sudden storms and rainstorms or other natural disasters; therefore, the supporting structure between the wall body and the top cover of the cylinder warehouse with the steel plate structure has an important influence on the use of the cylinder warehouse, but the wall body and the top cover of the large-scale cylinder warehouse in the prior art are often large in size, and the supporting structure in a single integral shape is difficult to manufacture and uneven in strength, so that a plurality of assembled structures are often selected to form the supporting structure between the wall body and the top cover of the cylinder warehouse, and the supporting and connecting strength between the supporting structures is very important.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects existing in the prior art, the utility model provides a cylinder warehouse end male truss structure.

The utility model provides a technical scheme that its technical problem adopted is:

a cylinder warehouse end male head truss structure comprises a cross beam, a vertical beam and an oblique beam, wherein the bottom of the left side of the cross beam is perpendicular to and fixedly connected with the top of the vertical beam, the top of the oblique beam is fixedly connected with the bottom of the right side of the cross beam, and the bottom of the oblique beam is fixedly connected with the bottom of the vertical beam; the method is characterized in that: the left end middle part of crossbeam stretches out the setting and is formed with and stretches out the end on for its hookup location with erecting the roof beam top left, the right-hand member front and back side of crossbeam stretches out the setting right for its hookup location with the sloping top, the left end middle part of sloping stretches out the setting left for its hookup location with erecting the roof beam bottom and is formed with and stretches out the end down, just the length that the left end middle part of crossbeam stretched out left equals the length that the left end middle part of sloping stretched out left.

Furthermore, the crossbeam includes front beam and the back crossbeam that the longitudinal symmetry set up, the sloping includes preceding sloping and the back sloping that the longitudinal symmetry set up, and front beam and preceding sloping fixed connection, back crossbeam and back sloping fixed connection, erect the roof beam and set up in the middle of fixed connection's front beam and preceding sloping, and fixed connection's back crossbeam and back sloping.

And further, channel steel is respectively selected for the front cross beam, the rear cross beam, the vertical beam, the front oblique beam and the rear oblique beam.

Furthermore, a cross beam end reinforcing plate, a cross beam middle connecting plate and a cross beam end connecting plate are arranged between the front cross beam and the rear cross beam, the cross beam end reinforcing plate is arranged on the inner walls of the front cross beam and the rear cross beam and fixedly connected with the upper extending end, the cross beam middle connecting plate is located in the middle of the connecting position of the cross beam and the vertical beam and the connecting position of the cross beam and the oblique beam, and the cross beam end connecting plate is located at the position where the right end of the cross beam extends rightwards.

Further, the beam middle connecting plate is provided with 1 or a plurality of connecting plates arranged at equal intervals.

Furthermore, an upper extension end mounting hole, a cross beam middle connecting hole and a cross beam end connecting hole are correspondingly formed in the upper extension end, the cross beam middle connecting plate and the cross beam end connecting plate respectively, the upper extension end mounting hole is axially arranged in the front-back direction, and the cross beam middle connecting hole and the cross beam end connecting hole are axially arranged in the up-down direction.

Further, in the left-right direction, the size of each beam middle connecting plate is smaller than that of each beam end connecting plate, and the aperture of each beam middle connecting hole is smaller than that of each beam end connecting hole.

Furthermore, an oblique beam end reinforcing plate and an oblique beam middle connecting plate are arranged between the front oblique beam and the rear oblique beam, the oblique beam end reinforcing plate is arranged on the inner walls of the front oblique beam and the rear oblique beam and is fixedly connected with the lower extending end, and the oblique beam middle connecting plate is located in the middle of the connecting position of the oblique beam and the vertical beam and the connecting position of the oblique beam and the cross beam.

Furthermore, a plurality of connecting plates are arranged in the middle of the oblique beam at equal intervals.

Furthermore, the lower extension end is internally provided with a lower extension end mounting hole which is axially arranged along the front-back direction.

The utility model has the advantages that:

(1) the utility model provides a cylinder warehouse end part male truss structure, the left end middle part of a crossbeam is extended leftwards relative to the connecting position of the crossbeam and the top of a vertical beam and is provided with an upper extending end, the front side and the rear side of the right end of the crossbeam are extended rightwards relative to the connecting position of the crossbeam and the top of an oblique beam, the left end middle part of the oblique beam is extended leftwards relative to the connecting position of the oblique beam and the bottom of the vertical beam and is provided with a lower extending end, the left end middle part of the crossbeam is extended leftwards to be equal to the left end middle part of the oblique beam, so that the upper and lower extending ends extending into the upper and lower mounting grooves of an internal truss frame through the left end of the crossbeam and the left end extending arrangement of the oblique beam realize matching mounting, the fixed connection of the cylinder warehouse end part male truss structure and the internal truss frame is effectively realized through the sequential passing of an external fixing piece, then the mounting of an internal Bailey truss and the mounting of a top reinforcing column are realized through the middle connecting, thereby be convenient for installation, the location is firm, effectively strengthens this truss structure's connection and support intensity simultaneously.

(2) Set up the crossbeam into front and back symmetrical front beam and the back crossbeam that sets up, set up the sloping into front and back symmetrical front sloping and back sloping that set up to set up between the side around through erecting the roof beam, when realizing effectively subtracting heavy, adopt the channel-section steel preparation source extensive, reduce cost, also provide installation space for the installation of inside bailey piece truss simultaneously.

(3) The connecting strength and the stability of the front and back directions of the internal truss frame are effectively enhanced through the cross beam end reinforcing plate and the oblique beam end reinforcing plate when the internal truss frame is connected, the risk of breakage possibly caused by overlarge stress is reduced, the top reinforcing column is conveniently arranged on the outer side of the internal truss frame through the cross beam middle connecting plate and the oblique beam middle connecting plate, and therefore the connecting strength and the use stability are further enhanced.

Drawings

Fig. 1 is a front view of the structure of the present invention;

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

fig. 3 is a top view of the structure of the present invention;

fig. 4 is a structural application diagram of the present invention.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic drawings and illustrate the basic structure of the present invention only in a schematic manner, and thus show only the components related to the present invention.

As shown in fig. 1-4, the utility model provides a cylinder warehouse end male truss structure, its technical scheme is as follows:

a truss structure of a cylinder warehouse end part male head comprises a cross beam 1, a vertical beam 2 and an oblique beam 3, wherein the bottom of the left side of the cross beam 1 is vertical to and fixedly connected with the top of the vertical beam 2, the top of the oblique beam 3 is fixedly connected with the bottom of the right side of the cross beam 1, and the bottom of the oblique beam 3 is fixedly connected with the bottom of the vertical beam 2; the left end middle part of crossbeam 1 stretches out the setting and is formed with and stretches out end a on for its hookup location with perpendicular roof beam 2 top left, and the right-hand member front and back side of crossbeam 1 stretches out the setting right for its hookup location with 3 tops of sloping, and the left end middle part of sloping 3 stretches out the setting left and is formed with and stretches out end b down for its hookup location with perpendicular roof beam 2 bottom, and the length that stretches out left in the left end middle part of crossbeam 1 equals the length that stretches out left in the left end middle part of sloping 3.

Specifically, the cross beam 1 comprises a front cross beam 1-1 and a rear cross beam 1-2 which are symmetrically arranged in the front and rear direction, the oblique beam 3 comprises a front oblique beam 3-1 and a rear oblique beam 3-2 which are symmetrically arranged in the front and rear direction, the front cross beam 1-1 is fixedly connected with the front oblique beam 3-1, the rear cross beam 1-2 is fixedly connected with the rear oblique beam 3-2, and the vertical beam 2 is arranged between the front cross beam 1-1 and the front oblique beam 3-1 which are fixedly connected, and the rear cross beam 1-2 and the rear oblique beam 3-2 which are fixedly connected.

Specifically, channel steel is selected for the front cross beam 1-1, the rear cross beam 1-2, the vertical beam 2, the front oblique beam 3-1 and the rear oblique beam 3-2 respectively, and the channel steel is wide in source and low in cost.

Specifically, beam end reinforcing plates 1-3, beam middle connecting plates 1-4 and beam end connecting plates 1-5 are arranged between a front beam 1-1 and a rear beam 1-2, the beam end reinforcing plates 1-3 are arranged on the inner walls of the front beam 1-1 and the rear beam 1-2 and are fixedly connected with an upper extending end a, the beam middle connecting plates 1-4 are positioned in the middle of the connecting positions of the beam 1 and a vertical beam 2 and the connecting positions of the beam 1 and an oblique beam 3, the beam end connecting plates 1-5 are positioned at the positions where the right end of the beam 1 extends rightwards, the beam end reinforcing plates 1-3 further enhance the connecting strength of the beam 1 and an internal truss frame B, the beam middle connecting plates 1-4 further enhance the overall stress and supporting strength of the beam 1 in the length direction and are used for realizing connection with the top reinforcing column C and a Bailey truss (not shown) in the beam 1 channel steel.

Specifically, the beam middle connecting plate 1-4 is provided with 1 or a plurality of equally spaced connection plates, so that the stability of the overall strength and the balance of stress in the length direction of the beam 1 are ensured.

Specifically, an upper extending end mounting hole a-1, a beam middle connecting hole 1-41 and a beam end connecting hole 1-51 are correspondingly arranged inside the upper extending end a, the beam middle connecting plate 1-4 and the beam end connecting plate 1-5 respectively, the mounting hole a-1 of the upper extending end is axially along the front-back direction, the connecting holes 1-41 in the middle part of the beam and the connecting holes 1-51 at the end part of the beam are axially along the up-down direction, the male truss structure is connected with the inner truss frame B by the external fixing piece passing through the mounting slot hole on the inner truss frame and the mounting hole a-1 of the upper extending end in the front-rear direction, the connection between the cross beam 1 and the top reinforcing column and the bailey truss inside the cross beam 1 channel steel is realized by external fixtures penetrating through the top reinforcing column C and the bailey truss inside the cross beam 1 channel steel in the vertical direction (not shown).

Specifically, in the left-right direction, the size of each beam middle connecting plate 1-4 is smaller than that of each beam end connecting plate 1-5, and the aperture of each beam middle connecting hole 1-41 is smaller than that of each beam end connecting hole 1-51, so that the connecting strength and stability of the right end of each beam and an external reinforcing column are guaranteed.

Specifically, an oblique beam end reinforcing plate 3-3 and an oblique beam middle connecting plate 3-4 are arranged between a front oblique beam 3-1 and a rear oblique beam 3-2, the oblique beam end reinforcing plate 3-3 is arranged on the inner walls of the front oblique beam 3-1 and the rear oblique beam 3-2 and is fixedly connected with a lower extending end B, the oblique beam middle connecting plate 3-4 is positioned in the middle of the connecting position of the oblique beam 3 and the vertical beam 2 and the connecting position of the oblique beam 3 and the cross beam 1, the oblique beam end reinforcing plate 3-3 further enhances the connecting strength of the oblique beam 3 and the inner truss frame B, and the oblique beam middle connecting plate 3-4 further enhances the integral stress and supporting strength of the cavity oblique beam 3 in the length direction.

Specifically, a plurality of connecting plates 3-4 in the middle of the oblique beam are arranged at equal intervals, so that the stability of the overall strength and the stress balance in the length direction of the oblique beam 3 are ensured.

Specifically, the lower extension end mounting hole B-1 along the front-back direction in the axial direction is formed in the lower extension end B, so that the corresponding mounting holes of the upper extension end a and the lower extension end B which are the same in extension size on the left side are matched with the external fixing piece to realize fixed connection with the internal truss frame B, and the connection strength of the internal truss frame B is effectively guaranteed on the premise of ensuring stable connection.

When the external fixing piece is used specifically, the cylinder end male head truss structure A is arranged at the left end of the internal truss frame B, the extending end a at the left end of the cylinder end male head truss structure A extends into the upper mounting groove of the internal truss frame B, the external fixing piece penetrates through the upper mounting groove hole and the upper extending end mounting hole a-1 in the front and rear directions to realize the connection of the cylinder end male head truss structure A and the internal truss frame B, the lower extending end B at the left end of the cylinder end male head truss structure A extends into the lower mounting groove of the internal truss frame B, the external fixing piece penetrates through the lower mounting groove hole and the lower extending end mounting hole B-1 in the front and rear directions to realize the connection of the cylinder end male head truss structure A and the internal truss frame B, and the beam 1, the top reinforcing column C and the beam 1 are connected with the internal channel steel beam through the external steel sheets (not shown) penetrating through the top reinforcing column C and the internal channel steel beam 1 in the upper and lower direction Connecting the sheet truss; the installation of being convenient for, the location is firm, effectively strengthens this truss structure's connection and support intensity simultaneously.

In light of the foregoing, it will be apparent to those skilled in the art from this disclosure that various changes and modifications can be made without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. A cylinder warehouse end male head truss structure comprises a cross beam (1), a vertical beam (2) and an oblique beam (3), wherein the bottom of the left side of the cross beam (1) is perpendicular to and fixedly connected with the top of the vertical beam (2), the top of the oblique beam (3) is fixedly connected with the bottom of the right side of the cross beam (1), and the bottom of the oblique beam (3) is fixedly connected with the bottom of the vertical beam (2); the method is characterized in that: the utility model discloses a roof beam structure, including crossbeam (1), crossbeam (2), oblique roof beam (3), crossbeam (1), connecting position, the left end middle part of crossbeam (1) stretches out the setting left for its and perpendicular roof beam (2) top and is formed with and stretches out end (a), the right-hand member front and back side of crossbeam (1) stretches out the setting right for its and the connecting position at oblique roof beam (3) top, the left end middle part of oblique roof beam (3) stretches out the setting left for its and perpendicular roof beam (2) bottom and is formed with down and stretches out end (b), just the length that stretches out left in the left end middle part of crossbeam (1) equals the length that stretches out left in the left end middle part of oblique roof beam.

2. The silo end male truss structure of claim 1, wherein: the cross beam (1) comprises a front cross beam (1-1) and a rear cross beam (1-2) which are symmetrically arranged in the front and the rear, the oblique beam (3) comprises a front oblique beam (3-1) and a rear oblique beam (3-2) which are symmetrically arranged in the front and the rear, the front cross beam (1-1) is fixedly connected with the front oblique beam (3-1), the rear cross beam (1-2) is fixedly connected with the rear oblique beam (3-2), and the vertical beam (2) is arranged between the front cross beam (1-1) and the front oblique beam (3-1) which are fixedly connected, and the rear cross beam (1-2) and the rear oblique beam (3-2) which are fixedly connected.

3. The silo end male truss structure of claim 2, wherein: the front cross beam (1-1), the rear cross beam (1-2), the vertical beam (2), the front oblique beam (3-1) and the rear oblique beam (3-2) are respectively made of channel steel.

4. The silo end male truss structure of claim 2, wherein: a cross beam end reinforcing plate (1-3), a cross beam middle connecting plate (1-4) and a cross beam end connecting plate (1-5) are arranged between a front cross beam (1-1) and a rear cross beam (1-2), the cross beam end reinforcing plate (1-3) is arranged on the inner wall of the front cross beam (1-1) and the inner wall of the rear cross beam (1-2) and is fixedly connected with an upper extending end (a), the cross beam middle connecting plate (1-4) is located in the middle of the connecting position of the cross beam (1) and a vertical beam (2) and the connecting position of the cross beam (1) and an oblique beam (3), and the cross beam end connecting plate (1-5) is located in the position where the right end of the cross beam (1) extends rightwards.

5. The silo end male truss structure of claim 4, wherein: the beam middle connecting plate (1-4) is provided with 1 or a plurality of connecting plates arranged at equal intervals.

6. The silo end male truss structure of claim 5, wherein: the upper extending end (a), the beam middle connecting plate (1-4) and the beam end connecting plate (1-5) are respectively and correspondingly provided with an upper extending end mounting hole (a-1), a beam middle connecting hole (1-41) and a beam end connecting hole (1-51) inside, the upper extending end mounting hole (a-1) is axially arranged along the front-back direction, and the beam middle connecting hole (1-41) and the beam end connecting hole (1-51) are axially arranged along the up-down direction.

7. The silo end male truss structure of claim 6, wherein: in the left and right directions, the size of each beam middle connecting plate (1-4) is smaller than that of each beam end connecting plate (1-5), and the aperture of each beam middle connecting hole (1-41) is smaller than that of each beam end connecting hole (1-51).

8. The silo end male truss structure of claim 2, wherein: an oblique beam end reinforcing plate (3-3) and an oblique beam middle connecting plate (3-4) are arranged between the front oblique beam (3-1) and the rear oblique beam (3-2), the oblique beam end reinforcing plate (3-3) is arranged on the inner walls of the front oblique beam (3-1) and the rear oblique beam (3-2) and is fixedly connected with the lower extending end (b), and the oblique beam middle connecting plate (3-4) is located in the connecting position of the oblique beam (3) and the vertical beam (2) and in the middle of the connecting position of the oblique beam (3) and the cross beam (1).

9. The silo end male truss structure of claim 8, wherein: the middle connecting plates (3-4) of the oblique beams are arranged at equal intervals.

10. The silo end male truss structure of claim 8, wherein: and a lower extension end mounting hole (b-1) which is axially arranged along the front-back direction is formed in the lower extension end (b).

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