CN214651047U - Bracket beam structure for driving-in type goods shelf - Google Patents

Abstract

The utility model relates to a bracket beam structure for driving into goods shelves relates to storage logistics equipment field, and it includes stand, fastening components, installs bracket on the stand through fastening components, installs the load roof beam on bracket through fastening components, bracket includes the riser of laminating mutually with the stand, sets firmly the collateral branch strut at the riser along its width direction's both ends respectively, the riser is close to the couple has set firmly on the side of stand, set up the first mounting hole with couple looks adaptation on the stand, the couple hook is hung in first mounting hole, the second slotted hole has been seted up respectively to the top and the bottom of collateral branch strut, the load roof beam passes through fastening components and installs in second slotted hole department. This application has the effect of the load beam of loading different sizes and intensity and the bearing capacity that improves the bracket roof beam.

Description

Bracket beam structure for driving-in type goods shelf

Technical Field

The application relates to the field of storage logistics equipment, in particular to a bracket beam structure for a driving-in type goods shelf.

Background

The storage shelf is a storage device, and is based on six basic functions of packaging, transportation, loading and unloading, sorting and information management. With the continuous development of the storage shelf industry, more and more industries and enterprises use the storage shelf, more and more enterprises enter the storage industry, the storage shelf is one of main facilities for storage, and the storage shelf generally uses a bracket beam structure.

At present, the bracket beam structure among the correlation technique generally includes the stand, the bracket frame, the load beam, the bracket frame is cross structure, the bracket frame includes the riser, set firmly the collateral branch strut at the riser along its width direction's both ends respectively, the riser top, the bottom has set firmly the fixed plate respectively along its width direction's both ends, a plurality of mounting holes have evenly been seted up on the riser, and install on the stand through bolt and nut, the mounting hole has also been seted up on the collateral branch strut, and also install the load beam on the bracket frame through bolt and nut.

In combination with the related art, the applicant thinks that the bracket beam can be provided with the load beam, but when the load on the load beam is large, the tensile force on the load beam and the bracket frame can be increased, and because the bolt is arranged in the mounting hole, when the load beam and the bracket frame move back to back under the tensile force, the bolt can generate shearing force, so that the bolt is easy to break, and further the load beam and the bracket frame are separated, the bearing capacity is small, the damage is easy to cause, and the service life is short.

SUMMERY OF THE UTILITY MODEL

In order to load beams of different sizes and strengths and improve the bearing capacity of the bracket beam, the application provides a bracket beam structure for a drive-in type goods shelf.

The application provides a bracket beam structure for driving into goods shelves adopts following technical scheme:

the utility model provides a bracket beam structure for driving into goods shelves, includes stand, fastening components, installs the bracket on the stand through fastening components, installs the load beam on the bracket through fastening components, the bracket includes the riser that laminates mutually with the stand, sets firmly the collateral branch strut at riser along its width direction's both ends respectively, the riser is close to and has set firmly the couple on the side of stand, set up the first mounting hole with couple looks adaptation on the stand, the couple hook is hung in first mounting hole, the second slotted hole has been seted up respectively to the top and the bottom of collateral branch strut, the load beam passes through fastening components and installs in second slotted hole department.

Through adopting above-mentioned technical scheme, operating personnel at first hang the couple hook in first mounting hole, reuse fastening components installs bracket on the stand, and install the load beam on bracket with fastening components, the setting of couple can be convenient for the installation of bracket, and improve bracket's stability, the setting of second slotted hole can be adjusted fastening components according to not unidimensional load beam, be convenient for load the load beam of different sizes and intensity and improve bracket's bearing capacity.

Optionally, the first mounting hole is arranged in an inverted tear-drop shape.

Through adopting above-mentioned technical scheme, when the setting of the tear-drop type of falling can make the load beam load heavier, strengthen the stability of bracket and stand more.

Optionally, two fixed plates are fixedly arranged at the top end and the bottom end of the vertical plate respectively, the two fixed plates are perpendicular to the vertical plate and are arranged at the two ends of the vertical plate along the width direction of the vertical plate, and first long round holes are formed in the fixed plates along the length direction of the fixed plates.

Through adopting above-mentioned technical scheme, fix the fixed plate on the stand through first slotted hole with fastening components, the setting of fixed plate can improve the stability of bracket and stand.

Optionally, the top end and the bottom end of the side support frame are respectively provided with a first groove arranged along the length direction of the fixing plate, and a second long round hole arranged along the length direction of the first groove is formed in the first groove.

Through adopting above-mentioned technical scheme, the position that fastening components can be adjusted according to the not unidimensional load beam to the setting of second slotted hole, convenient to use.

Optionally, the number of the load beams is two, two second grooves matched with the first grooves are formed in the top ends of the load beams respectively, third mounting holes are formed in the second grooves, and the two load beams are mounted on the two side supporting frames respectively through fastening assemblies.

Through adopting above-mentioned technical scheme, pass the third mounting hole to fastening components, realize the fixed of load beam and bracket, the setting of second recess can protect fastening components not receive the damage, prolongs the life of bracket.

Optionally, a plurality of second mounting holes have evenly been seted up along its length direction on the riser, the riser passes through fastening component and installs on the stand.

Through adopting above-mentioned technical scheme, the stability of being convenient for strengthen cow leg frame and stand is arranged in the setting of second mounting hole.

Optionally, the fastening assembly comprises a bolt and a nut in threaded connection with the bolt, and the bracket and the load beam are fixed by the bolt and the nut respectively.

By adopting the technical scheme, the bolts and the nuts are convenient to install and convenient for operators to use.

Optionally, a spring washer is arranged between the nut and the upright column on the bolt, and a spring washer is also arranged between the nut and the load beam on the bolt.

Through adopting above-mentioned technical scheme, the setting up of spring shim can reduce the not hard up between nut and the bolt, stability between reinforcing cow leg frame and the stand.

In summary, the present application includes at least one of the following beneficial technical effects:

1. the bracket frame is installed on the stand by an operator through the hook and the fastening assembly, the load beam is installed on the bracket frame through the fastening assembly, the bracket frame can be conveniently installed through the hook, the stability of the bracket frame is improved, the fastening assembly can be adjusted through the second long circular hole according to the load beams of different sizes, the load beams of different sizes and different strengths can be conveniently loaded, and the bearing capacity of the bracket beam is improved.

2. The setting of spring washer can reduce the not hard up between bolt and the nut, can strengthen the stability between bracket and the stand.

Drawings

Fig. 1 is a schematic structural view of the whole of the present embodiment.

Fig. 2 is a schematic view showing a part of the structure of the fastening assembly.

Fig. 3 is a partial structural schematic view for showing the second oblong hole.

Fig. 4 is a partial structural view for showing the third mounting hole.

Description of reference numerals: 1. a column; 11. a first mounting hole; 2. a bracket rack; 21. a vertical plate; 211. a through groove; 212. hooking; 213. a second mounting hole; 214. a fixing plate; 215. a first oblong hole; 22. a side support frame; 221. a first groove; 222. a second oblong hole; 3. a load beam; 31. a second groove; 32. a third mounting hole; 4. a fastening assembly; 41. A bolt; 42. a nut; 43. a spring washer.

Detailed Description

The present application is described in further detail below with reference to figures 1-4.

A bracket beam structure for a drive-in type goods shelf, referring to fig. 1 and 2, comprises a vertical column 1, a bracket 2 arranged on the vertical column 1, two load beams 3, a fastening assembly 4 for arranging the bracket 2 and the load beams 3. When the bracket is used by an operator, the bracket frame 2 is firstly installed on the upright post 1 by the fastening component 4, the load beam 3 is installed on the load beam 3 by the fastening component 4, and finally the goods shelf is installed on the load beam 3 and used for placing goods.

Referring to fig. 1 and 2, the bracket 2 has a cross structure, the bracket 2 includes a vertical plate 21 and two side support frames 22, the number of the side support frames 22 is two, and the two side support frames 22 are fixedly arranged at two ends of the vertical plate 21 along the width direction thereof. Six through grooves 211 have evenly been seted up along its length direction on riser 21, and per two through grooves 211 are a set of, and per two through grooves 211 set up along riser 21 width direction interval. The side surface of the vertical plate 21 close to the upright 1 is fixedly provided with hooks 212 at the top ends of the six through grooves 211 respectively. First mounting hole 11 with couple 212 looks adaptation is evenly seted up along its length direction to stand 1, and first mounting hole 11 is the setting of falling the tear drop, and just couple 212 is installed in first mounting hole 11. The side of the vertical plate 21 far from the vertical column 1 is provided with second mounting holes 213 on the top ends of the six through grooves 211, and the second mounting holes 213 correspond to the through grooves 211 one by one. The fastening assembly 4 includes a bolt 41, a nut 42 screwed on the bolt 41, and a spring washer 43, the bolt 41 passes through the second mounting hole 213, the nut 42 is screwed on one end of the bolt 41 passing through the upright post 1, and the spring washer 43 is disposed between the nut 42 and the upright post 1.

When the bracket is used, an operator hooks the hook 212 in the first mounting hole 11, passes the bolt 41 through the second mounting hole 213 and fixes the bolt by the spring gasket 43 and the nut 42, so that the vertical plate 21 and the upright post 1 are mounted, and the load-carrying beam 3 is mounted on the bracket 2 and used for placing a shelf.

Referring to fig. 1 and 3, two fixing plates 214 are respectively and fixedly disposed at the top end and the bottom end of the vertical plate 21, and the two fixing plates 214 are disposed at the two ends of the vertical plate 21 along the width direction thereof. First oblong holes 215 are formed in the side surfaces of the four fixing plates 214 respectively, and the first oblong holes 215 are formed along the length direction of the fixing plates 214. The two side supporting frames 22 are both arranged in a hollow cuboid shape, and one side of each side supporting frame 22 close to the upright post 1 is open. The top and bottom surfaces of the two side supporting frames 22 are respectively provided with a first groove 221 arranged along the length direction of the fixing plate 214, and the first groove 221 is internally provided with a second long circular hole 222, and the second long circular hole 222 is arranged along the length direction of the first groove 221. Referring to fig. 4 again, the two load beams 3 correspond to the two side support frames 22, the two load beams 3 are respectively provided with second grooves 31 adapted to the first grooves 221, and the two second grooves 31 are provided with third mounting holes 32.

An operator passes the bolt 41 through the first long round hole 215, fixes the bolt 41 through the spring washer 43 and the nut 42 to fix the bracket 2 and the upright post 1, then passes the bolt 41 through the third mounting hole 32 and the second long round hole 222 in sequence, and also fixes the bolt 41 through the spring washer 43 and the nut 42 to fix the load beam 3 and the bracket 2, and the position of the bolt 41 in the second long round hole 222 can be adjusted according to different sizes of the load beam 3.

The implementation principle of the bracket beam structure for the drive-in type goods shelf in the embodiment of the application is as follows: an operator firstly hooks the hook 212 on the bracket 2 into the first mounting hole 11 on the upright post 1, passes the fastening component 4 through the second mounting hole 213 and the first long circular hole 215, mounts the bracket 2 on the upright post 1, then passes the fastening component 4 through the second long circular hole 222 according to different sizes of the load beam 3, mounts the load beam 3 and the bracket 2 together, is convenient to mount, enhances the load capacity of the bracket 2, and can be suitable for load beams 3 with different sizes and strengths.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a bracket beam structure for driving into goods shelves which characterized in that: comprises a vertical column (1), a fastening component (4), a bracket rack (2) arranged on the vertical column (1) through the fastening component (4), and a load beam (3) arranged on the bracket rack (2) through the fastening component (4), the bracket (2) comprises a vertical plate (21) jointed with the upright post (1), side supporting frames (22) respectively fixedly arranged at two ends of the vertical plate (21) along the width direction thereof, a hook (212) is fixedly arranged on the side surface of the vertical plate (21) close to the upright post (1), a first mounting hole (11) matched with the hook (212) is formed on the upright post (1), the hook (212) is hooked in the first mounting hole (11), the top end and the bottom end of the side support frame (22) are respectively provided with a second long round hole (222), the load beam (3) is arranged at the second long round hole (222) through a fastening assembly (4).

2. The corbel beam structure for a drive-in rack according to claim 1, further comprising: the first mounting hole (11) is arranged in an inverted tear-drop shape.

3. The corbel beam structure for a drive-in rack according to claim 1, further comprising: the top, the bottom of riser (21) have set firmly two fixed plates (214) respectively, two the perpendicular riser (21) setting of fixed plate (214) just sets up at riser (21) along its width direction's both ends, first slotted hole (215) have been seted up along its length direction on fixed plate (214).

4. The corbel beam structure for a drive-in rack according to claim 3, wherein: the top end and the bottom end of the side supporting frame (22) are respectively provided with a first groove (221) arranged along the length direction of the fixing plate (214), and a second long round hole (222) arranged along the length direction of the first groove (221) is formed in the first groove.

5. The corbel beam structure for a drive-in rack according to claim 4, wherein: the number of the load-carrying beams (3) is two, two second grooves (31) matched with the first grooves (221) are formed in the top ends of the load-carrying beams (3), third mounting holes (32) are formed in the second grooves (31), and the two load-carrying beams (3) are mounted on the two side supporting frames (22) through fastening assemblies (4).

6. The corbel beam structure for a drive-in rack according to claim 3, wherein: evenly seted up a plurality of second mounting holes (213) along its length direction on riser (21), riser (21) are installed on stand (1) through fastening components (4).

7. The corbel beam structure for a drive-in rack according to claim 1, further comprising: the fastening assembly (4) comprises a bolt (41) and a nut (42) in threaded connection with the bolt, and the bracket rack (2) and the load beam (3) are fixed through the bolt (41) and the nut (42) respectively.

8. The corbel beam structure for a drive-in rack according to claim 7, wherein: a spring gasket (43) is arranged between the nut (42) and the upright post (1) on the bolt (41), and a spring gasket (43) is also arranged between the nut (42) and the load beam (3) on the bolt (41).

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