CN216340742U - Ascending operation platform component and ascending operation platform - Google Patents

Abstract

The utility model discloses a member of an ascending operation platform, which comprises a stand column, wherein the stand column consists of a long pipe and a plurality of short pipes, the periphery of the long pipe at the same height is connected with the plurality of short pipes, and the short pipes are arranged in parallel with the long pipe, so that the plurality of short pipes form an assembly connecting part; one or more of the assembly connecting parts are arranged on one long pipe. The ascending operation platform component is low in cost and convenient and fast in assembly process. The utility model also discloses a climbing operation platform.

Description

Ascending operation platform component and ascending operation platform

Technical Field

The utility model relates to a climbing operation platform component and a climbing operation platform.

Background

The ascending operation platform is necessary equipment in the field of industrial and engineering production, can facilitate ascending operation of operators, ensures operation safety and improves production efficiency. At present, the climbing operation is generally assisted by a fixed climbing platform, a movable climbing ladder or a scaffold and the like. The existing climbing operation platform has the problems of high equipment cost, low flexibility level, inconvenience in movement, time and labor waste and the like.

SUMMERY OF THE UTILITY MODEL

In view of the above, an object of the present invention is to provide a high-rise work platform member, which has low equipment cost and can be assembled into a high-rise work platform with adjustable length quickly.

The utility model also aims to provide the ascending operation platform.

The utility model adopts the following technical scheme to achieve the purpose.

The utility model provides a member of an ascending operation platform, which comprises a vertical column, wherein the vertical column comprises a long pipe and a plurality of short pipes,

the outer periphery of the long pipe at the same height is connected with a plurality of short pipes, and the short pipes are arranged in parallel with the long pipe, so that the short pipes form an assembly connecting part;

one or more of the assembly connecting parts are arranged on one long pipe.

In the utility model, a plurality of short pipes, such as four, six, nine and the like, are arranged on one upright post. The lengths of the short tubes are preferably equal. In some embodiments, the column assembly comprises a long pipe and nine short pipes with equal length, the short pipes are arranged in parallel on the outer circumference of the long pipe, and every three short pipes are connected at the same height of the long pipe, so that the three short pipes form one assembly connecting part, and thus three assembly connecting parts are arranged on one long pipe. The long and short tubes may be selected from steel tubes. The long pipe and the short pipe can be connected by welding.

The ascending operation platform component preferably further comprises a connecting rod, wherein the connecting rod is connected with the upright post in a combined manner, and the connecting rod and the upright post form a frame of the ascending operation platform;

the connecting rod comprises a long connecting pipe and two short connecting pipes, the two short connecting pipes are respectively and vertically arranged at two ends of the long connecting pipe, and the two short connecting pipes are positioned at the same side of the long connecting pipe; the connecting short pipes at the two ends of the connecting rod are respectively spliced with the assembling and connecting parts which are formed by the two upright posts and have the same height.

The connecting rod is formed by the connecting column and the upright column, the assembling and connecting parts are connected in an inserting mode, and assembling and disassembling speeds of the ascending operation platform can be improved. The length of the connecting rod can be set by adjusting the length of the connecting long pipe. In certain embodiments, the elevated platform element comprises a plurality of short connecting rods and a plurality of long connecting rods.

The ascending work platform member according to the present invention preferably further comprises a pedal beam horizontally disposed on the frame;

the pedal beam comprises a supporting plate and at least two pedal pipes, the at least two pedal pipes are vertically arranged at two ends of the supporting plate, and the at least two pedal pipes are arranged at the same side of the supporting plate; the pedal pipe is arranged to be capable of being inserted into the assembling connection part.

According to the ascending operation platform member of the present invention, preferably, the support plate is an angle iron;

the ascending operation platform component further comprises a pedal, and the pedal is arranged on the angle steel.

According to some embodiments of the utility model, the pedal beam comprises an angle steel and two pedal tubes welded at both ends of the angle steel.

The length of the pedal beam can be set by adjusting the length of the support plate. In certain embodiments, the elevated work platform elements comprise a plurality of short pedal beams and a plurality of long pedal beams.

The pedal can be a rectangular pedal or a square pedal. The pedal can be formed by assembling and welding a steel plate and round steel and is used for being trampled by workers.

The ascending operation platform component preferably further comprises a ladder stand which is vertically arranged on the side surface of the frame;

the crawling ladder comprises two support legs and a plurality of cross rods, and two ends of each cross rod are respectively connected with the two support legs; the supporting legs are arranged to be capable of being connected with the assembling connection parts in an inserting mode at two ends.

The ascending operation platform component preferably further comprises a bottom plate, and the upright post assembly is arranged above the bottom plate; the bottom plate is arranged to be capable of supporting the upright post assembly.

According to the ascending operation platform member of the present invention, preferably, the bottom plate includes a rectangular plate and a cylindrical pin, and the cylindrical pin is disposed on the rectangular plate and is configured to be capable of being inserted into a long pipe formed by the columns.

In some embodiments, the bottom plate is provided with a plurality of connecting holes for inserting the long tube composed of the upright posts. In other embodiments, the bottom plate is provided with a plurality of cylindrical pins for inserting the long tube composed of the upright posts.

In the utility model, the size of the bottom plate can be adjusted according to actual requirements. According to some embodiments of the utility model, the elevated work platform element comprises a plurality of large floors and a plurality of small floors, wherein the distance between the cylindrical pins on the large floors is equal to the distance between the cylindrical pins on the small floors. The large bottom plate comprises a large rectangular plate and four cylindrical pins, and the four cylindrical pins are arranged at four corners of the rectangular plate respectively. The small bottom plate comprises a small rectangular plate and two cylindrical pins, and the two cylindrical pins are symmetrically arranged on the rectangular plate. The rectangular plate may be a rectangular plate or a square plate.

The utility model also provides a climbing operation platform which comprises the climbing operation platform component.

The working platform according to the present invention preferably comprises at least one set of assembly platform consisting of the base plate, the columns, the connecting rods, the pedal beams, the pedals, and the ladder, wherein,

the number of the bottom plates is at least two, each bottom plate comprises a rectangular plate and a cylindrical pin, and the cylindrical pins are arranged on the rectangular plates and are arranged to be long pipes formed by splicing the stand columns;

the upright post assemblies are arranged into at least eight, and every four upright post assemblies or every two upright post assemblies are connected with one bottom plate;

the number of the connecting rods is at least four, two ends of the at least four connecting rods are respectively connected with an assembling connection part formed by two upright columns, and the two upright columns are arranged at the end part of the assembling platform;

the number of the pedal beams is at least four, and two ends of the pedal beams are respectively connected with an assembly connecting part consisting of two upright posts; the pedal beam is arranged to connect the upright posts on different bottom plates;

the number of the pedals is at least two, and the pedals are arranged on the pedal beam;

the cat ladder sets up to at least one, the assembly connecting portion that cat ladder and two adjacent stands are constituteed are connected.

According to the ascending operation platform, preferably, the assembling platforms are arranged into at least two groups, and the assembling platforms are connected through the connecting rods;

the crawling ladder sets up to four at least, its set up respectively in the both ends of equipment platform.

The ascending operation platform component is simple in structure and low in cost, is connected in a plugging mode, is convenient and fast in assembly process, and can be rapidly assembled and disassembled according to production requirements. The ascending operation platform is low in equipment cost, good in stability and adjustable in length, and can be suitable for indoor and outdoor industrial and engineering production processes.

Drawings

Fig. 1 is a schematic structural view of an ascending operation platform member according to the present invention.

Fig. 2 is a schematic structural diagram of a pillar assembly according to the present invention.

Fig. 3 is a schematic structural diagram of a connecting rod of the present invention.

Fig. 4 is a schematic structural view of a pedal beam according to the present invention.

Fig. 5 is a schematic structural view of a ladder stand according to the present invention.

Fig. 6 is a schematic structural diagram of a base plate according to the present invention.

Fig. 7 is a schematic structural diagram of an ascending operation platform according to the present invention.

The reference numerals are explained below:

1-upright post component, 11-long tube, 12-short tube, 13-assembly connecting part,

2-connecting rod, 21-connecting long pipe, 22-connecting short pipe,

3-pedal beam, 31-angle steel, 32-pedal pipe,

4-a pedal plate is arranged on the upper portion of the frame,

5-ladder, 51-legs, 52-cross bar,

6-bottom plate, 61-rectangular plate, 62-cylindrical pin,

10-assembly of the platform.

Detailed Description

The present invention will be further described with reference to the following specific examples, but the scope of the present invention is not limited thereto.

Example 1

Fig. 1 is a schematic structural view of an ascending operation platform member according to the present invention. As shown in fig. 1, the ascending work platform member of the present invention includes a column assembly 1, a connecting rod 2, a pedal beam 3, a pedal 4, a ladder 5, and a base plate 6.

Fig. 2 is a schematic structural diagram of a pillar assembly according to the present invention. As shown in fig. 1 and 2, the post assembly 1 may be provided in multiple pieces. The upright post assembly 1 is used for connecting other ascending operation platform components and is a main structural component of the ascending operation platform. The upright post assembly 1 comprises a long pipe 11 and a plurality of short pipes 12. The short pipes 12 are arranged at the periphery of the long pipe 11 in the same direction, and every three or four short pipes 12 are arranged in a group and are surrounded at the same height of the long pipe 11, so that an assembling connecting part 13 is formed. A long pipe 11 is provided with a plurality of, for example three, assembly connection portions 13.

Fig. 3 is a schematic structural diagram of a connecting rod of the present invention. As shown in fig. 1 and 3, the connecting rods 2 are provided with a plurality of connecting rods, the connecting rods 2 are connected with the upright post assembly 1, and the connecting rods and the upright post assembly form a frame of the climbing operation platform, so that the stability of the climbing operation platform is improved. The connecting rod 2 has both a long connecting rod and a short connecting rod. The connecting rod 2 comprises a long connecting pipe 21 and two short connecting pipes 22, the two short connecting pipes 22 are respectively vertically arranged at two ends of the long connecting pipe 21, and the two short connecting pipes 22 are positioned at the same side of the long connecting pipe 21. Two short connecting pipes 22 are respectively inserted with the assembling connecting parts 13 of the upright post assembly 1. A connecting rod 2 is respectively connected with two upright post assemblies 1, and a long connecting pipe 21 of the connecting rod 2 is perpendicular to the long pipe 11 of the upright post assemblies 1.

Fig. 4 is a schematic structural view of a pedal beam according to the present invention. As shown in fig. 1 and 4, the pedal beam 3 is provided in plural, and the pedal beam 3 is horizontally provided on the frame for supporting the pedal 4. The pedal beam 3 has both a long pedal beam and a short pedal beam. The pedal beam 3 comprises one angle steel 31 and two pedal tubes 32. The two pedal pipes 32 are located on the same side of the angle steel 31, are respectively welded at two ends of the angle steel 31, and are perpendicular to the same panel of the angle steel 31. The two pedal tubes 32 are each adapted to be plugged into the mounting connection 13. One pedal beam 3 can be respectively connected with the two upright post assemblies 1, and the angle steel 31 of the pedal beam 3 is vertical to the long pipe 11 of the upright post assembly 1. A plurality of pedal beams 3 can be respectively connected with the two upright post components 1, and the pedal beams 3 are arranged in parallel.

In the present embodiment, the pedal 4 is provided in plurality. One pedal 4 can be arranged on two parallel angle steels 31, and the pedal 4 is provided for the staff to step on. The step 4 includes a rectangular step and a square step. The pedal 4 can be formed by assembling and welding a steel plate and round steel.

Fig. 5 is a schematic structural view of a ladder stand according to the present invention. As shown in fig. 1 and 5, the ladder stand 5 is provided in plurality, and the ladder stand is vertically provided at a side of the frame for a worker to ascend. The ladder 5 comprises two legs 51 and a plurality of crossbars 52. The cross bar 52 is connected at both ends thereof to the two legs 51, respectively. A plurality of crossbars 52 are arranged in parallel. Both ends of the leg 51 are respectively inserted into the fitting connection portions 13. The legs 51 are arranged parallel to the long tube 11 of the upright assembly 1.

Fig. 6 is a schematic structural diagram of a base plate according to the present invention. As shown in fig. 1 and 6, the bottom plate 6 is provided in plurality for supporting the column assembly 1. The floor 6 includes a plurality of large floors and a plurality of small floors. The large bottom plate can comprise a large square plate 61 and four cylindrical pins 62, wherein the four cylindrical pins 62 are respectively arranged at four corners of the square plate 61. The small bottom plate comprises a small rectangular plate 61 and two cylindrical pins 62, and the two cylindrical pins 62 are arranged on the rectangular plate 61. The distance between at least two adjacent cylindrical pins 62 on the large base plate is equal to the distance between the cylindrical pins 62 on the small base plate. The cylindrical pin 62 is used for inserting the long pipe 11 of the upright post component 1.

Example 2

The present embodiment provides an ascending work platform assembled from the ascending work platform members according to embodiment 1. The working platform of ascending a height includes two sets of equipment platform 10, and two sets of equipment platform 10 parallel arrangement, and connect through longer connecting rod 2 between the two.

Fig. 7 is a schematic structural diagram of an ascending operation platform according to the present invention. As shown in fig. 1 and 7, each set of assembly platform 10 is constructed by three bottom plates 6, ten upright post assemblies 1, fourteen connecting rods 2, sixteen pedal beams 3, eight pedals 4 and two ladders 5. Wherein:

the bottom plate 6 comprises two large bottom plates and a small bottom plate, the small bottom plate is arranged between the two large bottom plates, and the three are arranged in a straight line.

The long pipe 11 of the upright post assembly 1 is inserted on the cylindrical pin 62 of the bottom plate 6. Four upright posts are respectively inserted into the two large bottom plates to form a group 1, and two upright posts are inserted into the small bottom plate to form a group 1. Each upright assembly 1 is provided with 3 assembly connections 13 (located at the top, middle and bottom of the long tube 11, respectively).

The connecting rod 2 is connected with the upright post assembly 1, and the short connecting pipes 22 at the two ends of the connecting rod 2 are respectively connected with the assembly connecting parts 13 at the same height on the two upright post assemblies 1, so that the long connecting pipe 21 of the connecting rod 2 is perpendicular to the long pipe 11 of the upright post assembly 1. In the x-axis direction, three short connecting rods 2 are inserted between two adjacent upright post components 1 at the left end of the assembling platform 10, and three short connecting rods 2 are inserted between two adjacent upright post components 1 at the right end. In the y-axis direction, a connecting rod 2 is inserted between two adjacent upright post components 1 through an assembly connecting part 13 at the top of the upright post components, wherein short connecting rods 2 are inserted between the upright post components 1 inserted on the same large bottom plate, and the upright post components 1 inserted on the large bottom plate and the upright post components 1 inserted on the small bottom plate are connected through the long connecting rods 2.

The pedal beam 3 is inserted into the assembling connection part 13 of the upright post assembly 1. In the y-axis direction, two adjacent upright post components 1 are respectively inserted with two pedal beams 3 through the assembling connection parts 13 at the bottom and the middle part, wherein the upright post components 1 inserted on the same large bottom plate are inserted with short pedal beams 3, and the upright post components 1 inserted on the large bottom plate and the upright post components 1 inserted on the small bottom plate are inserted with long pedal beams 3.

The pedals 4 are respectively provided on the angle steels 31 of the pedal beam 3. The length of the eight pedals 4 is equal to the length of the pedal beam 3 in contact therewith.

The ladder stands 5 are respectively provided at the left and right ends of the assembly platform 10. The two ends of the legs 51 of the ladder 5 are respectively connected with the assembling and connecting parts 13 of the upright post assembly 1. The upper end of the supporting leg 51 is inserted with the middle assembling and connecting part 13 of the upright post assembly 1, and the lower end of the supporting leg 51 is inserted with the bottom assembling and connecting part 13 of the upright post assembly 1.

Example 3

The remaining structure is the same as in example 2, except for the following arrangement:

in this embodiment, only one set of assembly platforms 10 is included.

Example 4

The remaining structure is the same as in example 2, except for the following arrangement:

in this embodiment, one or more sets of assembly platforms 10 are connected to the ends of two sets of assembly platforms 10 (i.e., along the length direction of the assembly platforms 10) along the y-axis direction shown in fig. 7, so as to extend the length of the ascending operation platform.

The present invention is not limited to the above-described embodiments, and any variations, modifications, and substitutions which may occur to those skilled in the art may be made without departing from the spirit of the utility model.

Claims (10)

1. A high-altitude operation platform component is characterized by comprising a vertical column, wherein the vertical column comprises a long pipe and a plurality of short pipes,

the outer periphery of the long pipe at the same height is connected with a plurality of short pipes, and the short pipes are arranged in parallel with the long pipe, so that the short pipes form an assembly connecting part;

one or more of the assembly connecting parts are arranged on one long pipe.

2. The ascending work platform assembly according to claim 1, further comprising a connecting rod connected to said column assembly, both forming a frame of the ascending work platform;

the connecting rod comprises a long connecting pipe and two short connecting pipes, the two short connecting pipes are respectively and vertically arranged at two ends of the long connecting pipe, and the two short connecting pipes are positioned at the same side of the long connecting pipe; the connecting short pipes at the two ends of the connecting rod are respectively spliced with the assembling and connecting parts which are formed by the two upright posts and have the same height.

3. The elevated work platform element of claim 2 further comprising a pedal beam disposed horizontally on the frame;

the pedal beam comprises a supporting plate and at least two pedal pipes, the at least two pedal pipes are vertically arranged at two ends of the supporting plate, and the at least two pedal pipes are arranged at the same side of the supporting plate; the pedal pipe is arranged to be capable of being inserted into the assembling connection part.

4. The ascending work platform assembly according to claim 3, wherein said support plate is an angle iron;

the ascending operation platform component further comprises a pedal, and the pedal is arranged on the angle steel.

5. The elevated work platform element of claim 4 further comprising a ladder vertically disposed to a side of the frame;

the crawling ladder comprises two support legs and a plurality of cross rods, and two ends of each cross rod are respectively connected with the two support legs; the supporting legs are arranged to be capable of being connected with the assembling connection parts in an inserting mode at two ends.

6. The ascend work platform element of claim 5 further comprising a floor, said mast assembly being disposed above said floor; the bottom plate is arranged to be capable of supporting the upright post assembly.

7. The ascending work platform assembly according to claim 6, wherein said base plate comprises a rectangular plate and a cylindrical pin, said cylindrical pin being disposed on said rectangular plate and being configured to receive a long tube of said column.

8. An ascending work platform comprising the ascending work platform member according to any one of claims 6 to 7.

9. The ascending work platform according to claim 8, wherein said ascending work platform comprises at least one set of assembly platforms consisting of said base plate, said columns, said connecting rods, said footboard beams, said footboard and said ladder, wherein,

the number of the bottom plates is at least two, each bottom plate comprises a rectangular plate and a cylindrical pin, and the cylindrical pins are arranged on the rectangular plates and are arranged to be long pipes formed by splicing the stand columns;

the upright post assemblies are arranged into at least eight, and every four upright post assemblies or every two upright post assemblies are connected with one bottom plate;

the number of the connecting rods is at least four, two ends of the at least four connecting rods are respectively connected with an assembling connection part formed by two upright columns, and the two upright columns are arranged at the end part of the assembling platform;

the number of the pedal beams is at least four, and two ends of the pedal beams are respectively connected with an assembly connecting part consisting of two upright posts; the pedal beam is arranged to connect the upright posts on different bottom plates;

the number of the pedals is at least two, and the pedals are arranged on the pedal beam;

the cat ladder sets up to at least one, the assembly connecting portion that cat ladder and two adjacent stands are constituteed are connected.

10. The ascend work platform of claim 9 wherein said assembly platforms are arranged in at least two groups, said assembly platforms being connected by said connecting rods;

the crawling ladder sets up to four at least, its set up respectively in the both ends of equipment platform.

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