CN209735642U - Small-size equipment debugging experiment platform - Google Patents

Abstract

The utility model relates to a small-sized equipment debugging experiment platform, which comprises a bottom pipe, a supporting pipe, universal wheels, a side pipe, a middle column, a top pipe, a supporting pipe, an inclined pipe, a supporting plate, a joist, a flat plate, a first handle, an object placing component and a supporting component; the utility model discloses simple structure, it is small, can all hold equipment and relevant device and instrument for the experiment to realized holistic transport and removal, after the experiment was accomplished, as long as with whole platform and equipment remove the original department can, need not frequent dismouting, made things convenient for the use widely, labour saving and time saving, and avoid equipment to appear damaging and the accessory is lost in the transport.

Description

Small-size equipment debugging experiment platform

Technical Field

The utility model relates to a small-size equipment debugging experiment platform.

Background

the student is when experimenting in the laboratory, need just can accomplish with the help of certain professional equipment, and equipment need remove the assigned position after taking in the application, current equipment removes and all accomplishes with the help of the manpower, the student need with equipment and supporting device and instrument manual transport in proper order to the laboratory on the fixed table surface, connect the debugging back again so that equipment can develop the experiment smoothly, after accomplishing, demolish equipment again, put back the original place at last, it is comparatively inconvenient to use, and very easily cause equipment to fall because of the error among the frequent handling to damage and accessory to lose, waste time and energy, be ready for further improvement.

SUMMERY OF THE UTILITY MODEL

To the current situation of above-mentioned prior art, the utility model aims to solve the technical problem that a simple structure is provided, and is small, can all hold equipment and relevant device and instrument for the experiment to realized holistic transport and removal, made things convenient for the use widely, labour saving and time saving, and avoided equipment to appear damaging in the transport and the small-size equipment debugging experiment platform that the accessory is lost.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: a small-sized equipment debugging experiment platform comprises a bottom pipe, supporting pipes, universal wheels, side pipes, a center column, jacking pipes, supporting pipes, inclined pipes, a supporting plate, a joist, a flat plate, a first handle, an object placing assembly and a supporting assembly, and is characterized in that the left side and the right side of the lower plane of the flat plate are respectively fixed with one jacking pipe which is symmetrical and distributed in parallel, the lower side surface of each jacking pipe is respectively fixed with two vertically distributed supporting pipes, and the lower end of each supporting pipe is respectively fixed with one universal wheel; bottom tubes which are symmetrical and transversely distributed are fixed between two supporting tubes on the left side and between two supporting tubes on the right side, side tubes which are symmetrical and transversely distributed are fixed between two supporting tubes on the front side and between two supporting tubes on the rear side, central columns which are symmetrical and vertically distributed are fixed between one bottom tube and one top tube on the same side, supporting tubes which are transversely distributed and positioned at the same horizontal height are fixed between two supporting tubes on the front side and between two supporting tubes on the rear side and between two central columns, supporting plates are fixed on the side surfaces of the upper sides of the three supporting tubes, and an inclined tube is fixed between one supporting tube and one top tube on the same side; a plurality of joists which are distributed in parallel are fixed between the two jacking pipes; a plurality of first handles are fixed on the lateral side of the outer side of the most front joist; the upper side of each of the rest joists is provided with a plurality of supporting assemblies; two article placing components are arranged above the bottom pipe.

Preferably, the support assembly comprises a bolt, a profile tube, a polyurethane cover plate and a screw; the upper side of each joist is provided with a plurality of bolts capable of translating, each bolt is provided with a vertically distributed section pipe, and the upper end of each section pipe is fixed with a polyurethane cover plate through a screw.

Preferably, a sliding groove is formed on the upper side surface of the joist, a sliding block is formed at the head of the bolt, the sliding block is inserted and connected in the sliding groove and can move horizontally along the sliding block, the threaded end of the bolt is upwards inserted and screwed in the lower end of the section tube, and the threaded end of the bolt downwards penetrates through the center of the polyurethane cover plate and is inserted and screwed in the upper end of the section tube.

Preferably, the article holding assembly comprises a frame pipe, a U-shaped plate, a sliding rail, a tray and a second handle; two of front side prop between the pipe, two of rear side prop between the pipe and two all be fixed with a transverse distribution and be located same level between the center pillar and manage, adjacent two all be provided with a tray that can slide between the frame pipe, two all be fixed with a second handle on the right side of tray.

Preferably, two sides of each tray are respectively fixed with a sliding rail which is transversely distributed, the outer side of each sliding rail is respectively fixed with a plurality of inverted U-shaped plates which are distributed at equal intervals, and each inverted U-shaped plate is correspondingly sleeved and fixed on the frame pipes positioned at two sides of the tray.

Compared with the prior art, the utility model has the advantages of: the utility model discloses simple structure, it is small, can all hold equipment and relevant device and instrument for the experiment to realized holistic transport and removal, after the experiment was accomplished, as long as with whole platform and equipment remove the original department can, need not frequent dismouting, made things convenient for the use widely, labour saving and time saving, and avoid equipment to appear damaging and the accessory is lost in the transport.

Drawings

FIG. 1 is a front structural view of the present invention;

FIG. 2 is a rear structural view of the present invention;

FIG. 3 is a bottom view of the present invention;

Fig. 4 is a structural diagram of the support assembly of the present invention.

Detailed Description

As shown in fig. 1 to 4, a small-sized device debugging experiment platform comprises a bottom pipe 1, a supporting pipe 2, a universal wheel 3, a side pipe 4, a center pillar 5, a top pipe 6, a supporting pipe 7, an inclined pipe 8, a supporting plate 9, a joist 10, a flat plate 11, a first handle 12, a storage component and a supporting component; two symmetrical and parallel top pipes 6 are fixed on the left side and the right side of the lower plane of the flat plate 11, two vertically distributed supporting pipes 2 are fixed on the lower side surface of each top pipe 6, and a universal wheel 3 is fixed at the lower end of each supporting pipe 2; bottom tubes 1 which are symmetrical and transversely distributed are fixed between two supporting tubes 2 on the left side and between two supporting tubes 2 on the right side, side tubes 4 which are symmetrical and transversely distributed are fixed between two supporting tubes 2 on the front side and between two supporting tubes 2 on the rear side, central columns 5 which are symmetrical and vertically distributed are fixed between one bottom tube 1 and one top tube 6 on the same side, supporting tubes 7 which are transversely distributed and located at the same horizontal height are fixed between two supporting tubes 2 on the front side, between two supporting tubes 2 on the rear side and between two central columns 5, supporting plates 9 are fixed on the side surfaces of the upper sides of the three supporting tubes 7, and an inclined tube 8 is fixed between one supporting tube 2 and one top tube 6 on the same side for improving the connection strength; a plurality of joists 10 which are distributed in parallel are fixed between the two jacking pipes 6; a plurality of first handles 12 are fixed on the outer side surface of the most front joist 10; the upper side of each rest joist 10 is provided with a plurality of supporting components, and each supporting component comprises a bolt 14, a section pipe 19, a polyurethane cover plate 20 and a screw 13; a plurality of bolts 14 capable of translating are arranged on the upper side of each joist 10, each bolt 14 is provided with a vertically distributed section pipe 19, and the upper end of each section pipe 19 is fixed with a polyurethane cover plate 20 through a screw 13; a sliding groove 1001 is formed on the upper side surface of the joist 10, a sliding block 141 is formed at the head of the bolt 14, the sliding block 141 is inserted into the sliding groove 1001 and can move horizontally along the sliding block 141, the threaded end of the bolt 14 is upwards inserted and screwed into the lower end of the section tube 19, and the threaded end of the screw 13 downwards passes through the center of the polyurethane cover plate 20 and is inserted and screwed into the upper end of the section tube 19; two article placing components are arranged above the two bottom tubes 1, and each article placing component comprises a frame tube 21, a U-shaped plate 15, a sliding rail 16, a tray 17 and a second handle 18; a frame pipe 21 which is transversely distributed and is positioned at the same horizontal height is fixed between the two stay pipes 2 at the front side, between the two stay pipes 2 at the rear side and between the two center pillars 5, a slidable tray 17 is arranged between the two adjacent frame pipes 21, and a second handle 18 is fixed on the right side surface of each tray 17; two sides of each tray 17 are respectively fixed with a sliding rail 16 which is transversely distributed, the outer side of each sliding rail 16 is respectively fixed with a plurality of inverted U-shaped plates 15 which are distributed at equal intervals, and each inverted U-shaped plate 15 is correspondingly sleeved and fixed on frame pipes 21 which are positioned on two sides of the tray 17.

When the device is used, the device is moved to the positions above the plurality of supporting components, the number and the positions of the supporting components required to be used are selected according to the size of the contact surface of the device, then the supporting components slowly descend and are flatly placed at the upper ends of the plurality of selected supporting components, and the polyurethane cover plate 20 is attached to the small device, so that the antiskid and protection effects are achieved; then, the platform is held by hands and moved to a specified position by four universal wheels 3, and the supporting plate 9 and the flat plate 11 can be used for placing some small-sized matching equipment; the trays 17 in the two article placing assemblies can be used for placing tools for installation, and the second handle 18 is held by hands and pulled outwards, so that the trays 17 can be pulled outwards, and the arrangement is convenient for taking the tools; the sliding rail 16 is a conventional hardware connecting component fixed on a cabinet body of furniture and used for a drawer or a cabinet plate of the furniture to move in and out; after the platform is moved to a specified position, the equipment can be debugged and tested.

When students perform experiments in a laboratory, the experiments can be completed by using some special equipment, the equipment needs to be moved to a designated position after application and taking, the movement of the existing equipment is completed by using manpower, the students need to manually carry the equipment and matched devices and tools to a fixed table board in the laboratory in sequence, then the equipment is connected and debugged so that the experiments can be smoothly performed on the equipment, the equipment is dismantled after the experiments are completed, and finally the equipment is put back to the original place, so that the use is inconvenient, and the equipment is very easy to fall and damage and the accessories are lost due to errors in the frequent carrying process, thereby wasting time and labor; the utility model discloses simple structure, it is small, can all hold equipment and relevant device and instrument for the experiment to realized holistic transport and removal, after the experiment was accomplished, as long as with whole platform and equipment remove the original department can, need not frequent dismouting, made things convenient for the use widely, labour saving and time saving, and avoid equipment to appear damaging and the accessory is lost in the transport.

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 will be understood by those skilled in the art that various changes in the embodiments and modifications thereof may be made, and equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention in its corresponding aspects.

Claims (5)

1. A small-sized equipment debugging experiment platform comprises a bottom pipe, supporting pipes, universal wheels, side pipes, a center column, jacking pipes, supporting pipes, inclined pipes, a supporting plate, a joist, a flat plate, a first handle, an object placing assembly and a supporting assembly, and is characterized in that the left side and the right side of the lower plane of the flat plate are respectively fixed with one jacking pipe which is symmetrical and distributed in parallel, the lower side surface of each jacking pipe is respectively fixed with two vertically distributed supporting pipes, and the lower end of each supporting pipe is respectively fixed with one universal wheel; bottom tubes which are symmetrical and transversely distributed are fixed between two supporting tubes on the left side and between two supporting tubes on the right side, side tubes which are symmetrical and transversely distributed are fixed between two supporting tubes on the front side and between two supporting tubes on the rear side, central columns which are symmetrical and vertically distributed are fixed between one bottom tube and one top tube on the same side, supporting tubes which are transversely distributed and positioned at the same horizontal height are fixed between two supporting tubes on the front side and between two supporting tubes on the rear side and between two central columns, supporting plates are fixed on the side surfaces of the upper sides of the three supporting tubes, and an inclined tube is fixed between one supporting tube and one top tube on the same side; a plurality of joists which are distributed in parallel are fixed between the two jacking pipes; a plurality of first handles are fixed on the lateral side of the outer side of the most front joist; the upper side of each of the rest joists is provided with a plurality of supporting assemblies; two article placing components are arranged above the bottom pipe.

2. The small equipment debugging experimental platform according to claim 1, wherein the support assembly comprises bolts, profile pipes, polyurethane cover plates and screws; the upper side of each joist is provided with a plurality of bolts capable of translating, each bolt is provided with a vertically distributed section pipe, and the upper end of each section pipe is fixed with a polyurethane cover plate through a screw.

3. The small-sized equipment debugging experiment platform according to claim 2, wherein the upper side surface of the joist is formed with a sliding groove, the head of the bolt is formed with a sliding block, the sliding block is inserted and connected in the sliding groove and can translate along the sliding block, the threaded end of the bolt is inserted upwards and screwed inside the lower end of the section tube, and the threaded end of the bolt passes downwards through the center of the polyurethane cover plate and is inserted and screwed inside the upper end of the section tube.

4. The small-sized equipment debugging experiment platform according to claim 1, wherein the storage component comprises a frame tube, a U-shaped plate, a sliding rail, a tray and a second handle; two of front side prop between the pipe, two of rear side prop between the pipe and two all be fixed with a transverse distribution and be located same level between the center pillar and manage, adjacent two all be provided with a tray that can slide between the frame pipe, two all be fixed with a second handle on the right side of tray.

5. The small-sized equipment debugging experiment platform according to claim 4, wherein each tray is fixed with a sliding rail on both sides, a plurality of inverted U-shaped plates are fixed on the outer side of each sliding rail, the inverted U-shaped plates are distributed at equal intervals, and the inverted U-shaped plates are correspondingly sleeved and fixed on the frame pipes on both sides of the tray.