CN218595213U - Conveying system for gas cylinder processing - Google Patents

Abstract

The utility model discloses a conveying system is used in gas cylinder processing, relate to gas cylinder processing technology field, which comprises a frame, two connecting axles, a plurality of telescopic shaft and lift seat, the horizontal rigid coupling of connecting axle is in the frame, the telescopic shaft is including the coaxial first axis body and the second axis body that cup joints, the outer end of first axis body articulates in the connecting axle, the outer end of second axis body articulates in the lift seat, the outer coaxial roll body that has cup jointed of second axis body, be equipped with vertical spout and horizontal spout in the frame, the lift seat includes first connecting plate and second connecting plate, the bottom surface of first connecting plate is first inclined plane, second connecting plate sliding connection is in horizontal spout, the top surface of second connecting plate is the second inclined plane, first inclined plane pastes with the second inclined plane and leans on the setting, the spiro union has the screw rod in the frame, the one end and the connecting plate rotatable coupling of screw rod, the other end of screw rod is equipped with the handle, the spiro union has lock nut on the screw rod. The utility model discloses realize that gas cylinder processing is with swift accurate regulation of conveying system's delivery center high position.

Description

Conveying system for gas cylinder machining

Technical Field

The utility model relates to a gas cylinder processing technology field, in particular to conveying system is used in gas cylinder processing.

Background

The gas cylinder is the drum structure, and the conveying roller of usefulness is carried to gas cylinder mainly is V type roller table usually, and its support center's of present V type roller table high position is fixed, can not carry out swift adjustment according to the specification transform of gas cylinder, can only adjust V type roller table is whole through installing the cushion additional, and this adjustment mode is wasted time and energy, and the precision is poor.

SUMMERY OF THE UTILITY MODEL

To above defect, the utility model aims at providing a conveying system is used in gas cylinder processing aims at solving among the prior art technical problem that the high position of the support center of V type roller platform can not swiftly accurate adjustment.

In order to solve the technical problem, the technical scheme of the utility model is that:

a conveying system for processing gas cylinders, which comprises a frame, two connecting shafts, a plurality of telescopic shafts and a lifting seat, wherein the connecting shafts are horizontally and fixedly connected with the frame, the two connecting shafts are arranged in parallel at intervals,

the telescopic shaft comprises a first shaft body and a second shaft body, the first shaft body is coaxially sleeved in the second shaft body, the outer end of the first shaft body is hinged with the connecting shaft, the outer end of the second shaft body is hinged with the lifting seat, the second shaft body is coaxially sleeved with the roller body,

be equipped with vertical spout and horizontal spout in the frame, the lift seat includes first connecting plate and second connecting plate, first connecting plate sliding connection is in vertical spout, a plurality of second shaft is two rows of symmetries and articulates in the top of first connecting plate, the bottom surface of first connecting plate is first inclined plane, horizontal spout extends the setting along the axial direction of connecting axle, second connecting plate sliding connection is in horizontal spout, the top surface of second connecting plate is the second inclined plane, first inclined plane pastes with the second inclined plane and leans on the setting, the spiro union has the screw rod in the frame, screw rod and connecting axle parallel arrangement, the one end and the connecting plate rotatable coupling of screw rod, the other end of screw rod is equipped with the handle, the spiro union has lock nut on the screw rod.

Wherein, be equipped with first leading wheel in the vertical spout, first leading wheel rolls and presses on the side of first connecting plate, and the second leading wheel is installed on the ground of second connecting plate, and the second leading wheel rolls and presses in horizontal spout.

Wherein, install linear guide between first inclined plane and the second inclined plane.

The two second connecting plates are connected in the transverse sliding groove in a sliding mode at intervals, and the screw rods connected to the two second connecting plates are connected to the two ends of the rack in a threaded mode respectively.

Wherein, the second axle body is internally sleeved with a tension spring, and two ends of the tension spring are respectively and fixedly connected to the second axle body and the first axle body.

Wherein, the side of the first connecting plate is provided with scales.

After the technical scheme is adopted, the beneficial effects of the utility model are that:

by controlling the screw to be screwed in or out, when the screw is screwed in, the second connecting plate translates leftwards, and the vertical thrust generated by the second connecting plate pushes the first connecting plate to move upwards; on the contrary, when the screw rod is screwed out, the second connecting plate translates rightwards, and the first connecting plate moves downwards under the action of gravity, so that the height of the conveying center of the conveying system for processing the gas cylinder can be quickly and accurately adjusted.

Drawings

Fig. 1 is a schematic structural view of a conveying system for processing gas cylinders according to the present invention;

FIG. 2 is a right side view and partial cross-sectional view of FIG. 1;

FIG. 3 isbase:Sub>A cross-sectional view taken along line A-A of FIG. 2;

in the figure, a frame 1, a vertical sliding groove 10, a first guide wheel 100, a horizontal sliding groove 11, a screw 12, a handle 120, a lock nut 121, a connecting shaft 2, a telescopic shaft 3, a first shaft 30, a second shaft 31, a tension spring 310, a roller body 32, a lifting seat 4, a first connecting plate 40, a first inclined plane 400, a scale 401, a second connecting plate 41, a second inclined plane 410, a second guide wheel 411 and a linear guide rail 42.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

The position that involves in this specification all takes the position of the utility model discloses a conveying system for gas cylinder processing during normal operating is the standard, does not restrict the position when its storage and transportation, only represents relative positional relationship, does not represent absolute positional relationship.

As shown in fig. 1, 2 and 3, the conveying system for gas cylinder processing comprises a frame 1, two connecting shafts 2, a plurality of telescopic shafts 3 and a lifting seat 4, wherein the connecting shafts 2 are horizontally and fixedly connected to the frame 1, and the two connecting shafts 2 are arranged in parallel at intervals.

The telescopic shaft 3 includes the primary shaft body 30 and the secondary shaft body 31, the coaxial slide opening that is equipped with in the secondary shaft body 31, the primary shaft body 30 is coaxial to be cup jointed in the slide opening, the outer end of the primary shaft body 30 articulates in connecting axle 2, make the primary shaft body 30 can swing around connecting axle 2, it is same, the outer end of the secondary shaft body 31 articulates in lift seat 4, make the secondary shaft body 31 can swing around lift seat 4, the primary shaft body 30 is located same vertical plane with the swing direction of the secondary shaft body 31, the outer coaxial roll body 32 that has cup jointed of the secondary shaft body 31, the bottom of the secondary shaft body 31 is equipped with spacing seat, install thrust bearing between spacing seat and the roll body 32 bottom.

The lifting seat 4 comprises a first connecting plate 40 and a second connecting plate 41, the plurality of second shaft bodies 31 are symmetrically hinged to the top of the first connecting plate 40 in two rows, the first connecting plate 40 is connected to the vertical sliding groove 10 in a sliding mode, the bottom surface of the first connecting plate 40 is a first inclined surface 400, the rack 1 is provided with a transverse sliding groove 11, the transverse sliding groove 11 extends along the axial direction of the plurality of connecting shafts 2, the second connecting plate 41 is connected to the transverse sliding groove 11 in a sliding mode, the top surface of the second connecting plate 41 is a second inclined surface 410, the first inclined surface 400 is attached to the second inclined surface 410, the rack 1 is screwed with a screw 12, the screw 12 is arranged in parallel to the connecting shafts 2, the end of the screw 12 is limited on the second connecting plate 41, the end of the screw 12 is rotatably connected with the second connecting plate 41, the screw 12 can be driven to synchronously translate when rotating, the other end of the screw 12 is provided with a handle 120, and the screw 12 is screwed with a locking nut 121. The operator controls the screw 12 to screw in or out by rotating the handle 120, when the screw 12 is screwed in, the second connecting plate 41 translates leftwards, and the vertical thrust generated by the second connecting plate 41 pushes the first connecting plate 40 to move upwards; conversely, when the screw 12 is unscrewed, the second link plate 41 translates to the right and the first link plate 40 moves downwards under the effect of gravity. Therefore, the height position of the conveying center of the conveying system for processing the gas cylinder is adjusted. By turning the lock nut 121, the lock nut 121 is pressed against the frame 1, thereby fixing the screw 12.

Further, a first guide wheel 100 is arranged in the vertical sliding chute 10, the first guide wheel 100 is pressed against the side surface of the first connecting plate 40 in a rolling manner, and the first guide wheel 100 and the first connecting plate 40 form rolling friction, so that the friction force between the first connecting plate 40 and the vertical sliding chute 10 is reduced. A second guide wheel 411 is mounted on the ground of the second connecting plate 41, and the second guide wheel 411 is rolled and pressed in the transverse sliding chute 11. The friction between the second link plate 41 and the lateral sliding groove 11 is reduced by the rolling friction between the second guide wheel 411 and the second link plate 41. In this embodiment, two first guide wheels 100 and two second guide wheels 411 are provided.

Furthermore, the linear guide 42 is installed between the first inclined plane 400 and the second inclined plane 410, and the friction force between the first inclined plane 400 and the second inclined plane 410 can be effectively reduced through the linear guide 42, so that the friction loss is reduced, and the smoothness of the relative movement between the first connecting plate 40 and the second connecting plate 41 is improved.

Furthermore, two second connecting plates 41 are provided, two second connecting plates 41 are connected in the transverse sliding chute 11 at intervals in a sliding manner, and the screw rods 12 connected to the two second connecting plates 41 are respectively screwed at two ends of the rack 1. The two second connecting plates 41 can be driven respectively, that is, two operators can adjust the two second connecting plates 41 together, and the two second connecting plates 41 drive the first connecting plate 40 to ascend and descend, so that the adjusting difficulty is reduced.

Furthermore, a tension spring 310 is sleeved in the inner cavity of the second shaft body 31, one end of the tension spring 310 is fixedly connected to the bottom surface of the inner cavity of the second shaft body 31, and the other end of the tension spring 310 is fixedly connected to the end surface of the first shaft body 30, so that the difficulty of moving the first connecting plate 40 upwards is reduced by the tension spring 310.

Furthermore, scales 401 are arranged on the side surface of the first connecting plate 40, and the height position of the conveying center of the conveying system for processing the gas cylinders can be accurately calculated through the scales 401.

The present invention is not limited to the above specific embodiments, and those skilled in the art can make various changes without creative labor from the above conception, and all the changes fall within the protection scope of the present invention.

Claims (6)

1. A conveying system for processing a gas cylinder comprises a frame, two connecting shafts, a plurality of telescopic shafts and a lifting seat, wherein the connecting shafts are horizontally and fixedly connected with the frame, the two connecting shafts are arranged in parallel at intervals,

the telescopic shaft comprises a first shaft body and a second shaft body, the first shaft body is coaxially sleeved in the second shaft body, the outer end of the first shaft body is hinged to the connecting shaft, the outer end of the second shaft body is hinged to the lifting seat, and a roller body is coaxially sleeved outside the second shaft body;

be equipped with vertical spout and horizontal spout in the frame, the lift seat includes first connecting plate and second connecting plate, first connecting plate sliding connection in vertical spout, a plurality of the second shaft body is two rows of symmetries and articulates in the top of first connecting plate, the bottom surface of first connecting plate is first inclined plane, horizontal spout is along a plurality of the axial direction of connecting axle extends the setting, second connecting plate sliding connection in the horizontal spout, the top surface of second connecting plate is the second inclined plane, first inclined plane with the second inclined plane pastes and leans on the setting, the spiro union has the screw rod in the frame, the screw rod with connecting axle parallel arrangement, the one end of screw rod with connecting plate rotatable coupling, the other end of screw rod is equipped with the handle, the spiro union has lock nut on the screw rod.

2. A gas cylinder processing conveying system as claimed in claim 1, wherein a first guide wheel is arranged in the vertical chute and is rolled and pressed against a side surface of the first connecting plate, and a second guide wheel is mounted on the ground of the second connecting plate and is rolled and pressed against the inside of the horizontal chute.

3. A conveying system for gas cylinder processing as claimed in claim 2, characterized in that a linear guide is installed between the first inclined surface and the second inclined surface.

4. The conveying system for gas cylinder processing according to claim 3, wherein there are two second connecting plates, two second connecting plates are slidably connected in the transverse sliding groove at intervals, and the screws connected to the two second connecting plates are respectively screwed to two ends of the frame.

5. The conveying system for gas cylinder processing according to claim 1, wherein a tension spring is sleeved in the second shaft body, and two ends of the tension spring are respectively and fixedly connected to the second shaft body and the first shaft body.

6. A gas cylinder processing delivery system according to claim 1, wherein the first connecting plate is provided with graduations on its side.

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