CN218401819U - Supporting assembly and placing rack - Google Patents

Abstract

The utility model relates to a column component placer technical field provides a supporting component and rack. The support assembly comprises two support columns and a plurality of cross beams; the two support columns are arranged at intervals, guide structures extending along the length direction of the support columns are arranged on the support columns, the plurality of cross beams are arranged between the two support columns and arranged along the length direction of the support columns, and two ends of each cross beam are respectively in sliding fit with the guide structures of the two support columns. The cross member is slidable along the pair of support columns such that the cross member has a play margin in the length direction of the support columns. So set up for interval between two adjacent crossbeams about can adjusting, thereby interval between two adjacent crossbeams can adapt to the column component of different diameters about making, so that place the column component between two crossbeams, solve or improved among the prior art the relatively poor problem of placing the frame to the column component adaptability of different diameters.

Description

Supporting assembly and placing rack

Technical Field

The utility model relates to a column component placer technical field especially relates to a supporting component and rack.

Background

At present, in some construction processes, columnar members such as pipes and rods are often used. For example, the paver utilizes a brace rod and a pull rod to ensure the rigidity and flatness of the screed plate and the spiral material distribution mechanism during construction. Because the quantity of the columnar components is large in the construction process, some columnar components which cannot be used temporarily are stacked and placed on a construction site, and the columnar components roll easily, shaking caused by external force can cause dislocation and rolling of the columnar components, and potential safety hazards exist.

In order to solve such a problem, a placement frame for placing a columnar member is provided in the related art. Racks typically include uprights and support poles. Wherein, the both sides of pole setting all are equipped with a plurality of bracing pieces of arranging along vertical direction, and the bracing piece is used for supporting the column component. One end of the supporting rod is connected with the vertical rod. The other end of the supporting rod is provided with a limiting bulge for limiting the columnar component.

The rack among the prior art can prevent that the column component from rolling down, but in actual work progress, probably use the column component of different diameters, and the rack among the prior art is relatively poor to the adaptability of the column component of diameter difference.

SUMMERY OF THE UTILITY MODEL

The utility model provides a supporting component and rack for solve or improve among the prior art the relatively poor defect of rack to the different column component adaptability of diameter, realize the effect that can place the column component of different diameters.

The utility model provides a supporting component, which comprises two supporting columns and a plurality of cross beams;

the two support columns are arranged at intervals, guide structures extending along the length direction of the support columns are arranged on the support columns, the plurality of cross beams are arranged between the two support columns and distributed along the length direction of the support columns, and two ends of each cross beam are in sliding fit with the guide structures of the two support columns respectively.

According to the utility model provides a supporting component, the guide structure comprises at least one guide groove;

the guide groove is used for enabling the cross beam to stretch into and slide.

According to the utility model provides a pair of supporting component, be equipped with the groove of lining up on the support column, the one end of lining up the groove with the guide way intercommunication, the other end is to keeping away from the direction of guide way is extended and is link up the support column, it is used for the confession to link up the crossbeam slides in or the roll-off the guide way.

According to the utility model provides a pair of supporting component, supporting component still includes the limiting plate, the limiting plate with the connection can be dismantled to the support column, the limiting plate is used for opening or closes link up the groove.

According to the utility model provides a pair of supporting component, supporting component still includes clamp plate and connecting piece, the connecting piece is connected the clamp plate with the crossbeam just is suitable for the adjustment the clamp plate with interval between the crossbeam.

According to the utility model provides a pair of supporting component, be equipped with the mounting groove on the crossbeam.

According to the utility model provides a pair of supporting component, the inner wall of mounting groove is equipped with anti-skidding structure.

According to the utility model provides a supporting component, the supporting component also comprises a connecting rod, and two ends of the connecting rod are connected with the two supporting columns in a one-to-one correspondence manner; and/or the presence of a gas in the atmosphere,

the supporting component further comprises a supporting plate, wherein the supporting plate is arranged at one end of the supporting column, and the radial size of the supporting plate is larger than that of the supporting column.

According to the utility model provides a pair of supporting component, supporting component still includes hoisting structure, hoisting structure locates on the support column.

The utility model provides a supporting component can support the column component. Wherein the cross member for supporting the columnar member is slidable along the guide structures of the pair of support columns, so that the cross member has a play margin in the lengthwise direction of the support columns due to the guide structures extending in the lengthwise direction of the support columns. So set up for interval between two adjacent crossbeams about can adjusting, thereby make interval between two adjacent crossbeams about can adapt to the column component of different diameters, so that place the column component of diameter difference between two crossbeams, solve or improved the relatively poor problem of rack among the prior art to the column component adaptability of different diameters.

Simultaneously, because every crossbeam homoenergetic can move along the length direction of support column, consequently, the crossbeam on upper strata can compress tightly the column component on the crossbeam of lower floor, avoids the column component to remove to improve the steadiness of column component in the transportation.

The utility model provides a rack owing to contained the utility model provides a supporting component, consequently contained all advantages of the above-mentioned of supporting component simultaneously.

Drawings

In order to more clearly illustrate the technical solutions of the present invention or the prior art, the drawings used in the embodiments or the prior art descriptions will be briefly introduced below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a schematic view of a use state of a rack provided in an embodiment of the present invention;

fig. 2 is a schematic structural diagram of a support assembly provided in an embodiment of the present invention;

FIG. 3 is a perspective view of the support assembly shown in FIG. 2;

fig. 4 is a schematic structural diagram of a support pillar provided in an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a cross beam provided in an embodiment of the present invention.

Reference numerals are as follows:

1. a support assembly; 101. a support column; 102. a cross beam; 1021. a box structure; 1022. a sliding post; 1023. mounting grooves; 103. a guide structure; 104. a through groove; 105. a limiting plate; 106. pressing a plate; 107. a connecting member; 108. hoisting the structure; 109. a connecting rod; 110. a support plate; 2. a columnar member.

Detailed Description

To make the objects, technical solutions and advantages of the present invention clearer, the drawings in the present invention will be combined to clearly and completely describe the technical solutions of the present invention, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative efforts belong to the protection scope of the present invention.

At present, in some construction processes, columnar members such as pipes and rods are often used. For example, the paver utilizes a brace rod and a pull rod to ensure the rigidity and flatness of the screed plate and the spiral material distribution mechanism during construction. The number of struts and tie rods used is selected according to the paving width at the site, if the maximum paving width is not adopted, and accordingly, some struts and tie rods will be temporarily stored at the construction site. These vaulting pole and pull rod are piled up and are placed at the job site, because vaulting pole and pull rod roll easily, so the rocking that external force produced probably causes vaulting pole and pull rod dislocation to roll, has the potential safety hazard.

In order to solve or improve such a problem, a placing rack for placing a columnar member is provided in the prior art. Racks typically include uprights and support poles. Wherein, the both sides of pole setting all are equipped with a plurality of bracing pieces of arranging along vertical direction, and the bracing piece is used for supporting the column component. One end of the supporting rod is connected with the vertical rod. The other end of the supporting rod is provided with a limiting bulge for limiting the columnar component. The rack among the prior art can prevent that the column component from rolling down, but in actual work progress, probably use the column component of different diameters, and the rack among the prior art is relatively poor to the adaptability of the column component of diameter difference. In order to solve or improve the relatively poor problem of placing the frame to the different column component adaptability of diameter among the prior art, the embodiment of the utility model provides a supporting component and rack.

A support assembly provided in an embodiment of the present invention is described below with reference to fig. 1 to 5.

Specifically, the support assemblies 1 each include two support columns 101 and a plurality of cross beams 102.

The two support columns 101 are arranged at intervals, and a guide structure 103 extending along the length direction of the support columns 101 is arranged on each support column 101. For example, the support column 101 extends in the height direction of the placement rack. It should be noted that the height direction of the rack refers to the vertical direction in the drawing when the rack is placed in the posture shown in fig. 1, that is, the vertical direction when the rack is in the use state. During use, the support column 101 may be mounted to the ground by threaded fasteners for use in the field, or the support column 101 may be mounted to a transfer vehicle by threaded fasteners for transferring the column member 2.

The plurality of cross members 102 are disposed between the two support columns 101, and the plurality of cross members 102 are arranged along the length direction of the support columns 101. The two ends of the beam 102 are slidably engaged with the guiding structures 103 of the two supporting columns 101, respectively. The beam 102 is used to support the columnar member 2. The columnar member 2 includes a rod-like member and a tubular member. For example, the columnar members 2 include, but are not limited to, stays and tie rods of a paving machine.

The embodiment of the utility model provides a support assembly 1 can support the column component. For example, the number of the supporting components can be set according to actual needs in actual use, and the columnar components with different lengths can be supported by adjusting the distance between the supporting components. Wherein the cross member 102 for supporting the columnar member is slidable along the guide structures 103 of the pair of support columns 101, so that the cross member 102 has a play margin in the length direction of the support columns 101 since the guide structures 103 extend in the length direction of the support columns 101. So set up for interval between two adjacent crossbeams 102 can be adjusted about making, thereby the interval between two adjacent crossbeams 102 can adapt to the column component 2 of different diameters about making, so that place the column component 2 that the diameter is different between two crossbeams 102, solve or improved the relatively poor problem of rack among the prior art to the column component 2 adaptability of different diameters.

Meanwhile, since each cross beam 102 can move along the length direction of the support column 101, the cross beam 102 on the upper layer can press the columnar member 2 on the cross beam 102 on the lower layer, and the columnar member 2 is prevented from moving, so that the stability of the columnar member 2 during transportation is improved.

In some embodiments provided by the present invention, the support assembly 1 further comprises a connecting rod 109. The connecting rod 109 connects the two support columns 101, and specifically, both ends of the connecting rod 109 are connected with the two support columns 101 in a one-to-one correspondence manner. So set up, two support columns 101 and connecting rod 109 can form U type bearing structure for the overall structure intensity of supporting component 1 is higher. Optionally, two ends of the connecting rod 109 are welded to the two supporting columns 101 one to one.

Referring to fig. 4, further, the connecting rod 109 is spaced from the bottom of the supporting column 101, or the connecting rod 109 is spaced from the ground by a certain distance. So set up, fork truck's fork can stretch into the bottom of connecting rod 109 to in the fork transport of supporting component 1.

Optionally, the support column 101 is a hollow tubular structure. So arranged, the support assembly is made lighter in weight. For example, the supporting column 101 may be square steel, or a steel channel and a steel plate covering the notch of the steel channel may be welded to form a tubular structure. Alternatively, the connecting rod 109 may be provided as square steel or channel steel.

In some embodiments provided herein, the guiding structure 103 comprises at least one guiding groove for the beam 102 to extend and slide. The guide groove extends in the longitudinal direction of the support column 101.

As shown in fig. 3 and 4, optionally, the number of the guide grooves is multiple, and the multiple guide grooves are arranged along the height direction of the rack. Each guide slot may be slidably engaged with one or more cross members 102. As shown in fig. 3, each support column 101 is provided with the same number of guide grooves as the number of the cross beams 102, and the cross beams 102 are slidably fitted in the guide grooves in a one-to-one correspondence. Alternatively, the length of each guide slot may be the same or different.

Of course, the form of the guide groove is not limited to the above. Alternatively, each support column 101 is provided with a guide groove. Thus, it is actually equivalent to communicating the plurality of guide grooves in the previous embodiment in order.

In some embodiments provided by the present invention, the through slot 104 is provided on the supporting pillar 101. For example, as shown in fig. 3 and 4, the through-groove 104 is provided on the side of the support column 101 where the guide groove is provided. One end of the through groove 104 communicates with the guide groove, and the other end extends in a direction away from the guide groove and penetrates the support column 101. The through slot 104 is used for the beam 102 to slide in or out of the guide slot. When the cross beam 102 needs to be placed into the guide slot, the cross beam 102 may be placed into the through slot 104 first, and then the cross beam 102 is pushed into the guide slot along the through slot 104. When the cross beam 102 needs to be taken out of the guide groove, the up-down position of the cross beam 102 can be adjusted to make the cross beam 102 opposite to the through groove 104, and then the cross beam 102 can be withdrawn along the through groove 104.

So configured, it is convenient to install and remove the beam 102. For example, when taking out the lower-stage columnar member 2, the upper-stage beam 102 may be detached, the lower-stage columnar member 2 may be taken out, and the upper-stage beam 102 may be attached. It should be noted that the lower-stage columnar member 2 is not limited to the manner of detaching the upper-stage beam 102, and the lower-stage columnar member 2 may be removed after the upper-stage beam 102 is lifted, for example.

Alternatively, when the number of guide grooves is plural, the number of through grooves 104 is also provided in plural, and each guide groove is provided with a corresponding through groove 104. When the number of the guide grooves is one, the number of the through grooves 104 may be one, or may be at least two.

Referring to fig. 2-4, in some embodiments provided by the present invention, the support assembly 1 further includes a limiting plate 105. The limiting plate 105 is detachably connected with the supporting column 101, for example, the limiting plate 105 can be connected with the supporting column 101 through a threaded fastener. Threaded fasteners include, but are not limited to, bolts and screws. The stopper plate 105 is used to open or close the through groove. That is, the stopper plate 105 is provided on the side of the guide groove where the through groove 104 is provided, and can prevent the cross beam 102 in the guide groove from coming out along the through groove 104.

Through the blocking effect of the limiting plate 105, when the support assembly 1 is inclined or vibrated due to external force, the cross beam 102 in the guide groove can be prevented from being separated from the through groove 104, and the use safety of the placing rack is ensured.

As shown in fig. 4, alternatively, a stopper plate 105 is provided on the inner wall of the support column 101, opposite to the through groove 104. With this arrangement, the internal space of the support column 101 can be sufficiently utilized. Of course, the stopper plate 105 may be provided on the outer wall of the support column 101, opposite to the through groove 104.

As shown in fig. 5, in some embodiments provided by the present invention, the cross beam 102 includes a box structure 1021 and a sliding post 1022. For example, box body structure 1021 may include a channel-section steel and shrouding, with the shrouding all welded at the both ends of the channel-section steel. Sliding posts 1022 are welded to the outside of each closure plate. The sliding posts 1022 are adapted to extend into and slidably engage the guide slots.

Referring to fig. 3 and 5, in some embodiments provided by the present invention, the support assembly 1 further includes a pressing plate 106 and a connecting member 107. The connection 107 connects the platen 106 and the beam 102, and the connection 107 is adapted to adjust the spacing between the platen 106 and the beam 102. For example, the pressing plate 106 is used to abut against the columnar members 2 on the cross member 102 from above. With this arrangement, the columnar member 2 can be fixed to the cross member 102 more firmly. Columnar members of different diameters can be compressed by adjusting the spacing between the pressure plate 106 and the cross member 102 with the connection member 107.

As shown in fig. 3, the pressure plate 106 and the connecting member 107 are optionally provided at least at the topmost beam 102. Because every layer of the cross beams 102 below the topmost cross beam 102 can be compressed by the upper layer of the cross beams 102, and no compressing device is arranged above the topmost cross beam 102, the compression plates 106 and the connecting pieces 107 are arranged to compress the columnar members 2 on the topmost cross beam 102, so that the columnar members 2 on the topmost cross beam 102 can be firmly fixed, and the stability of the columnar members 2 in the transportation process is improved.

For example, the connection 107 includes a bolt. The pressing plate 106 is provided with a through hole for the bolt to pass through, and the cross beam 102 is provided with a threaded hole for matching with the bolt in a threaded manner. The bolts are screwed into the screw holes through the pressing plate 106 so as to press the columnar members 2 by the pressing plate 106. When it is not convenient to machine a threaded hole in the beam 102, a nut may be welded to the beam 102 so that an internal thread of the nut forms the threaded hole.

In some embodiments, the cross beam 102 is provided with a mounting groove 1023 for the column member 2 to be inserted. By placing the cylindrical member 2 into the mounting groove 1023, the cylindrical member 2 can be positioned on the one hand, preventing the cylindrical member 2 from shifting laterally. On the other hand, since the number of the mounting grooves 1023 is determined, it is convenient to count the number of the columnar members 2 on the rack. The number of the mounting grooves 1023 is plural, and the plural mounting grooves 1023 are arranged in order along the extending direction of the cross beam 102.

Optionally, the mounting groove 1023 is a V-shaped groove. The V-shaped groove can be adapted to the columnar member 2 having different diameters, and the columnar member 2 can be positioned.

In some embodiments, the inner wall of the mounting groove 1023 is provided with an anti-slip structure. By providing the anti-slip structure on the inner wall of the mounting groove 1023, the cylindrical member 2 can be prevented from sliding along the mounting groove 1023.

For example, the anti-slip structure may be provided as a non-slip mat, a non-slip sticker, a non-slip pattern, or a non-slip embossment.

In some embodiments provided by the present invention, the supporting assembly 1 further comprises a supporting plate 110, and one end of the supporting column 101 is provided with a supporting plate 10. For example, the bottom of the supporting column 101 is provided with a supporting plate 110, and the supporting plate 110 is connected with the supporting column 101 by welding. The radial dimension of the support plate 110 is larger than the radial dimension of the support column 101. With such an arrangement, the contact area between the support member 1 and the support surface can be increased, and the problem that the support member 1 is liable to topple can be prevented.

In some embodiments provided by the present disclosure, the supporting assembly 1 further comprises a hoisting structure 108. The hoisting structure 108 is arranged on the support column 101. The hoisting structure 108 is arranged to facilitate hoisting of the support assembly 1.

As shown in fig. 4, optionally, the hoisting structure 108 is a hoisting bolt. The hoisting bolt runs through the supporting rod with the hollow structure and is in threaded fit with the nut. So set up, the hoist and mount bolt is worn to establish in the inside of bracing piece, can the inside space of make full use of bracing piece, reduces the occupation to the exterior space of bracing piece.

Of course, the lifting structure 108 is not limited to lifting bolts. For example, the hoisting structure 108 may alternatively be a hoisting ring.

Further, each support column 101 is provided with a hoisting structure 108. So set up, be convenient for balance the lifting by crane supporting component 1.

The embodiment of the utility model provides an in still provide a rack.

In particular, the rack comprises at least two support assemblies as described above.

It should be noted that the placement frame includes the support assembly and all the advantages of the support assembly, which will not be described in detail herein.

Finally, it should be noted that: the above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it should be understood by those skilled in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; such modifications or substitutions do not depart from the spirit and scope of the technical solutions of the embodiments of the present invention.

Claims (10)

1. A support assembly (1) characterized by comprising two support columns (101) and a plurality of cross beams (102);

the two supporting columns (101) are arranged at intervals, the supporting columns (101) are provided with guide structures (103) extending along the length direction of the supporting columns (101), the plurality of cross beams (102) are arranged between the two supporting columns (101) and are arranged along the length direction of the supporting columns (101), and two ends of each cross beam (102) are respectively in sliding fit with the guide structures (103) of the two supporting columns (101).

2. The support assembly (1) according to claim 1, wherein the guiding structure (103) comprises at least one guiding groove;

the guide groove is used for the beam (102) to extend into and slide.

3. The support assembly (1) according to claim 2, wherein the support column (101) is provided with a through slot (104), one end of the through slot (104) is communicated with the guide slot, and the other end extends in a direction away from the guide slot and penetrates through the support column (101), and the through slot is used for the cross beam (102) to slide in or slide out of the guide slot.

4. The support assembly (1) according to claim 3, further comprising a limit plate (105), the limit plate (105) being removably connected with the support column (101), the limit plate (105) being used to open or close the through slot (104).

5. The support assembly (1) according to any one of claims 1 to 4, further comprising a pressure plate (106) and a connection member (107), said connection member (107) connecting said pressure plate (106) and said cross-member (102) and being adapted to adjust the spacing between said pressure plate (106) and said cross-member (102).

6. A support assembly (1) according to any of claims 1 to 4, wherein the cross-beam (102) is provided with mounting slots (1023).

7. Support assembly (1) according to claim 6, characterized in that the inner walls of the mounting groove (1023) are provided with anti-slip structures.

8. The support assembly (1) according to any one of claims 1 to 4, further comprising a connecting rod (109), wherein two ends of the connecting rod (109) are connected with the two supporting columns (101) in a one-to-one correspondence; and/or the presence of a gas in the gas,

the supporting assembly (1) further comprises a supporting plate (110), the supporting plate (110) is arranged at one end of the supporting column (101), and the radial size of the supporting plate (110) is larger than that of the supporting column (101).

9. The support assembly (1) according to any one of claims 1 to 4, further comprising a hoisting structure provided on the support column (101).

10. A rack characterized in that it comprises at least two support assemblies (1) according to any one of claims 1-9.

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