CN220761218U - Automatic positioning tool for gas cylinder alignment port - Google Patents

Abstract

The utility model discloses an automatic positioning tool for gas cylinder alignment ports. Comprises a rear positioning mechanism, a front positioning mechanism, a supporting mechanism, a frame, a first guide rail, a moving-out mechanism and a transmission mechanism; the sawing machine comprises a sawing machine blade, a frame, a rear positioning mechanism, a front positioning mechanism, a rear positioning mechanism, a transmission mechanism, a first guide rail, a second guide rail, a support mechanism and a support mechanism, wherein the rear positioning mechanism and the support mechanism are respectively arranged on the first guide rail; the rear positioning mechanism comprises a rear positioning ring, the front positioning mechanism comprises a front positioning ring, positioning blocks are arranged on the rear positioning ring and the front positioning ring, the positioning blocks are matched with structures at two ends of the gas cylinder, and the center lines of the rear positioning ring, the front positioning ring and the moving-out mechanism are flush with the center line of the gas cylinder arranged on the supporting mechanism. The sizes of the closing-in positions at the two ends of the gas cylinder after being cut are consistent.

Description

Automatic positioning tool for gas cylinder alignment port

Technical field:

the utility model belongs to the technical field of gas cylinder production, and particularly relates to an automatic positioning tool for gas cylinder alignment ports.

The background technology is as follows:

after the production of the gas cylinder is completed, the closing-in positions at the two ends of the gas cylinder are generally longer than the design size by one section, the redundant parts are required to be cut off by a saw, and after the cutting is completed, the closing-in positions at the two ends of the gas cylinder are consistent in size.

In the existing production process, due to errors in positioning, after cutting, inconsistent length and size often appear in the sizes of the closing-in positions at the two ends of the gas cylinder, and the quality of the gas cylinder is affected.

The information disclosed in this background section is only for enhancement of understanding of the general background of the utility model and should not be taken as an acknowledgement or any form of suggestion that this information forms the prior art already known to a person of ordinary skill in the art.

The utility model comprises the following steps:

the utility model aims to provide an automatic positioning tool for gas cylinder alignment ports, which is used for clamping and fixing the same parts at two ends of a gas cylinder, so that the length and the size remained after cutting at the closing-in positions at two ends of the gas cylinder are the same, and the defects in the prior art are overcome.

In order to achieve the aim, the utility model provides an automatic positioning tool for an air bottle aligning port, which comprises a rear positioning mechanism, a front positioning mechanism, a supporting mechanism, a rack, a first guide rail, a moving-out mechanism and a transmission mechanism; the sawing machine comprises a sawing machine blade, a frame, a rear positioning mechanism, a front positioning mechanism, a rear positioning mechanism, a transmission mechanism, a first guide rail, a second guide rail, a support mechanism and a support mechanism, wherein the rear positioning mechanism and the support mechanism are respectively arranged on the first guide rail; the rear positioning mechanism comprises a rear positioning ring, the front positioning mechanism comprises a front positioning ring, positioning blocks are arranged on the rear positioning ring and the front positioning ring, the positioning blocks are matched with structures at two ends of the gas cylinder, and the central lines of the rear positioning ring, the front positioning ring and the moving-out mechanism are flush with the central line of the gas cylinder arranged on the supporting mechanism; the gas cylinder is clamped and fixed by the positioning blocks on the rear positioning ring and the front positioning ring, and the gas cylinder is separated from the front positioning ring by clamping the closing-in position on one side of the gas cylinder by the moving-out mechanism.

Preferably, in the technical scheme, the rear positioning mechanism comprises a movable seat and a rear positioning ring, wherein the movable seat is arranged on the first guide rail, and the rear positioning ring is arranged on the movable seat.

Preferably, in the technical scheme, the front positioning mechanism comprises a mounting seat and a front positioning ring, wherein the mounting seat is arranged on the sawing machine, and the front positioning ring is arranged on the mounting seat.

Preferably, in the technical scheme, three positioning blocks are respectively arranged on the rear positioning ring and the front positioning ring, an included angle between the positioning blocks is 120 degrees, an equilateral triangle formed on the inner side surfaces of the three positioning blocks is tangent to two ends of the gas cylinder, inscribed circles formed on the two ends of the gas cylinder are identical in size, and the two ends of the gas cylinder are ensured to be clamped and fixed at the same position.

Preferably, in the technical scheme, the front positioning mechanism further comprises a second guide rail, a first screw nut pair and a handle, wherein the second guide rail is arranged on the sawing machine, the mounting seat is arranged on the second guide rail, the handle, the mounting seat and the first screw nut pair are connected, the position of the front positioning ring on the second guide rail is adjusted through the rotation of the handle, and the cutting size of the closing-in position of the gas cylinder is adjusted.

Preferably, in the technical scheme, the transmission mechanism comprises a servo motor and a second screw nut pair, the servo motor is connected with the second screw nut pair, and the second screw nut pair is connected with the movable seat.

Preferably, in the technical scheme, the moving-out mechanism comprises a cylinder seat, a telescopic cylinder and a cylinder clamping jaw, wherein the cylinder seat is arranged on the moving seat, the telescopic cylinder is arranged on the cylinder seat, the output end of the telescopic cylinder is provided with the cylinder clamping jaw, the height of the telescopic cylinder and the cylinder clamping jaw are flush with the central line of a gas cylinder arranged on the supporting mechanism, and the cylinder clamping jaw is arranged towards the closing-in position of the gas cylinder.

Preferably, in the technical scheme, the supporting mechanism comprises a movable plate, a guide sleeve, a guide pillar, a supporting plate and a hoop, wherein the movable plate is arranged on the first guide rail, the guide sleeve is arranged on the movable plate, the guide pillar is sleeved in the guide sleeve, the supporting plate is arranged at the top of the guide pillar, the hoop is arranged on the supporting plate, and the gas cylinder is placed on the supporting plate and clamped through the hoop.

Preferably, in the technical scheme, the guide post is movably connected with the guide sleeve, and the supporting plate adjusts the height through the guide post, so that the gas cylinder is suitable for gas cylinders of different types.

Compared with the prior art, the utility model has the following beneficial effects:

the same parts at the two ends of the gas cylinder are clamped and fixed through the rear positioning ring and the front positioning ring, so that the dimension consistency of the closing-in parts at the two ends of the gas cylinder after the gas cylinder is cut is ensured, and the quality of the gas cylinder is improved. Through setting up adjustable preceding holding ring, can adjust the gas cylinder binding off department and get into the size of sawing machine, change the length of cutting. Through the height of adjustment backup pad, guarantee the central line of different model gas cylinders and the center alignment of back holding ring, preceding holding ring two, with telescopic cylinder, the high parallel and level of cylinder clamping jaw, satisfy the cutting to different model gas cylinders.

Description of the drawings:

FIG. 1 is a front view of an automatic positioning tool for a gas cylinder alignment port;

FIG. 2 is a left side view of the gas cylinder alignment automatic positioning tool of the utility model;

FIG. 3 is a schematic diagram of the loading state of the gas cylinder alignment automatic positioning tool of the utility model;

FIG. 4 is a schematic diagram showing a clamping starting state of the automatic positioning tool for the gas cylinder alignment port;

FIG. 5 is a schematic diagram of a clamping state completed by the gas cylinder alignment automatic positioning tool of the utility model;

FIG. 6 is a schematic view of the gas cylinder alignment automatic positioning tool in the moving-out state of the gas cylinder alignment automatic positioning tool;

FIG. 7 is a schematic diagram showing a complete removal state of the gas cylinder alignment automatic positioning tool;

fig. 8 is a schematic diagram of a cutting state completed by the gas cylinder alignment automatic positioning tool.

The specific embodiment is as follows:

the following detailed description of specific embodiments of the utility model is, but it should be understood that the utility model is not limited to specific embodiments.

Throughout the specification and claims, unless explicitly stated otherwise, the term "comprise" or variations thereof such as "comprises" or "comprising", etc. will be understood to include the stated element or component without excluding other elements or components.

1-2, the automatic positioning tool for the gas cylinder alignment port comprises a rear positioning mechanism 1, a front positioning mechanism 2, a supporting mechanism 3, a frame 4, a first guide rail 5, a moving-out mechanism 6 and a transmission mechanism 7; the machine frame 4 is provided with a first guide rail 5 and a transmission mechanism 7, the rear positioning mechanism 1 and the supporting mechanism 3 are respectively arranged on the first guide rail 5, the rear positioning mechanism 1 is connected with the transmission mechanism 7, the rear positioning mechanism 1 is provided with a moving-out mechanism 6, the front positioning mechanism 2 is arranged on a sawing machine 8, the front positioning mechanism 2 is positioned in front of a blade of the sawing machine 8, and the rear positioning mechanism 1 and the front positioning mechanism 2 are oppositely arranged;

the rear positioning mechanism 1 comprises a movable seat 10 and a rear positioning ring 11, wherein the movable seat 10 is arranged on the first guide rail 5, and the rear positioning ring 11 is arranged on the movable seat 10; three rear positioning blocks 12 are arranged on the rear positioning ring 11, the rear positioning blocks 12 are matched with structures at two ends of the gas cylinder 9, an included angle between the rear positioning blocks 12 is 120 degrees, and an equilateral triangle formed on the inner side surfaces of the three rear positioning blocks 12 is tangent to the two ends of the gas cylinder 9;

the front positioning mechanism 2 comprises a mounting seat 20, a front positioning ring 21, a second guide rail 23, a first screw nut pair 24 and a handle 25, wherein the front positioning ring 21 is arranged on the mounting seat 20, the second guide rail 23 is arranged on the sawing machine 8, the mounting seat 20 is arranged on the second guide rail 23, the handle 25 and the mounting seat 20 are connected with the first screw nut pair 24, the position of the front positioning ring 21 on the second guide rail 23 is adjusted through the rotation of the handle 25, and the cutting size of the closing-in position of the gas cylinder 9 is adjusted; three front positioning blocks 22 are arranged on the front positioning ring 21, the front positioning blocks 22 are matched with structures at two ends of the gas cylinder 9, an included angle between the front positioning blocks 22 is 120 degrees, and an equilateral triangle formed on the inner side surfaces of the three front positioning blocks 22 is tangent to the two ends of the gas cylinder 9;

the inscribed circles formed at the two ends of the gas cylinder 9 by the rear positioning block 12 and the front positioning block 22 have the same size, so that the two ends of the gas cylinder 9 are ensured to be clamped and fixed at the same position;

the transmission mechanism 7 comprises a servo motor 70 and a second screw nut pair 71, wherein the servo motor 70 is connected with the second screw nut pair 71, and the second screw nut pair 71 is connected with the movable seat 10.

The moving-out mechanism 6 comprises a cylinder seat 60, a telescopic cylinder 61 and a cylinder clamping jaw 62, wherein the cylinder seat 60 is arranged on the moving seat 10, the telescopic cylinder 61 is arranged on the cylinder seat 60, the cylinder clamping jaw 62 is arranged at the output end of the telescopic cylinder 61, and the cylinder clamping jaw 62 is arranged towards the closing-in position of the gas cylinder 9.

The supporting mechanism 3 comprises a moving plate 30, a guide sleeve 31, a guide pillar 32, a supporting plate 33 and a hoop 34, wherein the moving plate 30 is arranged on the first guide rail 5, the guide sleeve 31 is arranged on the moving plate 30, the guide pillar 32 is sleeved in the guide sleeve 31, the supporting plate 33 is arranged at the top of the guide pillar 32, the hoop 34 is arranged on the supporting plate 33, and the gas cylinder 9 is placed on the supporting plate 33 and clamped through the hoop 34. The guide post 32 is movably connected with the guide sleeve 31, and the supporting plate 33 is adjusted in height through the guide post 32, so that the gas cylinder 9 with different types is adapted.

The center lines of the rear positioning ring 11 and the front positioning ring 21, the telescopic cylinder 61 and the cylinder clamping jaw 62 are flush with the center line of the gas cylinder 9 placed on the support plate 33; the gas cylinder 9 is clamped and fixed by the rear positioning ring 11, the rear positioning block 12 on the front positioning ring 21 and the front positioning block 22, and the gas cylinder 9 is separated from the front positioning ring 21 by clamping the closing-in position at one side of the gas cylinder 9 by the cylinder clamping jaw 62.

As shown in fig. 3 to 5, the support plate 33 is adjusted to a proper height according to the size of the gas cylinder 9, the mounting seat 20 is adjusted to the position of the second guide rail 23 according to the size to be cut, the gas cylinder 9 is placed on the support plate 33, and the anchor ear 34 clamps the gas cylinder 9. The servo motor 70 is started to drive the second screw nut pair 71 to rotate, the movable seat 10 moves along the first guide rail 5 towards the sawing machine 8, in the moving process, the rear positioning ring 11 is gradually sleeved into the rear end of the gas cylinder 9, the rear positioning block 12 is contacted and clamped with the rear end of the gas cylinder 9, in the forward moving process, the rear positioning ring 11 pushes the gas cylinder 9 to move towards the sawing machine 8 on the first guide rail 5 through the movable plate 30 until the front end of the gas cylinder 9 is sleeved into the front positioning ring 21, the front positioning block 22 clamps the front end of the gas cylinder, the rear end and the front end of the gas cylinder 9 are respectively clamped and fixed through the rear positioning block 12 and the front positioning block 22, and the servo motor 70 is closed. The part to be cut at the front end closing-in position of the gas cylinder 9 is positioned below the blade of the sawing machine 8, the sawing machine 8 is started, and the blade descends to cut the part to be cut.

As shown in fig. 5-8, after the front end closing-in position of the gas cylinder 9 is cut, the telescopic gas cylinder 61 is started to drive the gas cylinder clamping jaw 62 to extend forwards to the rear end closing-in position of the gas cylinder 9, the gas cylinder clamping jaw 62 clamps the rear end closing-in position of the gas cylinder 9, the servo motor 70 is reversed to drive the second screw nut pair 71 to be reversed, the movable seat 10 moves along the first guide rail 5 towards the opposite direction of the sawing machine 8, and in the moving process, the front end of the gas cylinder 9 is gradually moved out of the front positioning ring 21; when the gas cylinder 9 is reset along with the moving plate 30, the cylinder clamping jaw 62 loosens the closing-in position of the rear end of the gas cylinder 9, the telescopic cylinder 61 is reset, the moving seat 10 continues to move along the first guide rail 5 in the reverse direction of the sawing machine 8 until the gas cylinder is reset, the gas cylinder 9 is turned by the manipulator, the steps are repeated, the closing-in position of the rear end of the gas cylinder 9 is cut, after the cutting of the closing-in position of the front end and the closing-in position of the rear end of the gas cylinder 9 is completed, the manipulator moves the current gas cylinder 9 out, and the next gas cylinder 9 to be cut is placed. The same parts at the two ends of the gas cylinder 9 are clamped and fixed through the rear positioning ring 11 and the front positioning ring 21, so that the dimension consistency of the closing-in parts at the two ends of the gas cylinder 9 after the gas cylinder 9 is cut is ensured, and the quality of the gas cylinder 9 is improved.

The foregoing descriptions of specific exemplary embodiments of the present utility model are presented for purposes of illustration and description. It is not intended to limit the utility model to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. The exemplary embodiments were chosen and described in order to explain the specific principles of the utility model and its practical application to thereby enable one skilled in the art to make and utilize the utility model in various exemplary embodiments and with various modifications as are suited to the particular use contemplated. It is intended that the scope of the utility model be defined by the claims and their equivalents.

Claims (9)

1. Automatic positioning tool for gas cylinder alignment port is characterized in that: comprises a rear positioning mechanism, a front positioning mechanism, a supporting mechanism, a frame, a first guide rail, a moving-out mechanism and a transmission mechanism; the sawing machine comprises a sawing machine blade, a frame, a rear positioning mechanism, a front positioning mechanism, a rear positioning mechanism, a transmission mechanism, a first guide rail, a second guide rail, a support mechanism and a support mechanism, wherein the rear positioning mechanism and the support mechanism are respectively arranged on the first guide rail; the rear positioning mechanism comprises a rear positioning ring, the front positioning mechanism comprises a front positioning ring, positioning blocks are arranged on the rear positioning ring and the front positioning ring, the positioning blocks are matched with structures at two ends of the gas cylinder, and the central lines of the rear positioning ring, the front positioning ring and the moving-out mechanism are flush with the central line of the gas cylinder arranged on the supporting mechanism; the gas cylinder is clamped and fixed by the positioning blocks on the rear positioning ring and the front positioning ring, and the gas cylinder is separated from the front positioning ring by clamping the closing-in position on one side of the gas cylinder by the moving-out mechanism.

2. The gas cylinder alignment automatic positioning tool according to claim 1, wherein: the rear positioning mechanism comprises a movable seat and a rear positioning ring, the movable seat is arranged on the first guide rail, and the movable seat is provided with the rear positioning ring.

3. The gas cylinder alignment automatic positioning tool according to claim 2, wherein: the front positioning mechanism comprises a mounting seat and a front positioning ring, the mounting seat is arranged on the sawing machine, and the front positioning ring is arranged on the mounting seat.

4. The gas cylinder alignment automatic positioning tool according to claim 3, wherein: three positioning blocks are respectively arranged on the rear positioning ring and the front positioning ring, the included angle between the positioning blocks is 120 degrees, the equilateral triangle formed on the inner side surfaces of the three positioning blocks is tangent to two ends of the gas cylinder, and inscribed circles formed on the two ends of the gas cylinder are identical in size.

5. The gas cylinder alignment automatic positioning tool according to claim 3, wherein: the front positioning mechanism further comprises a second guide rail, a first screw nut pair and a handle, the second guide rail is arranged on the sawing machine, the mounting seat is arranged on the second guide rail, the handle and the mounting seat are connected with the first screw nut pair, the position of the front positioning ring on the second guide rail is adjusted through the rotation of the handle, and the cutting size of the closing-in position of the gas cylinder is adjusted.

6. The gas cylinder alignment automatic positioning tool according to claim 3, wherein: the transmission mechanism comprises a servo motor and a second screw nut pair, the servo motor is connected with the second screw nut pair, and the second screw nut pair is connected with the movable seat.

7. The gas cylinder alignment automatic positioning tool according to claim 3, wherein: the moving-out mechanism comprises a cylinder seat, a telescopic cylinder and a cylinder clamping jaw, wherein the cylinder seat is arranged on the moving seat, the telescopic cylinder is arranged on the cylinder seat, the output end of the telescopic cylinder is provided with the cylinder clamping jaw, the height of the telescopic cylinder and the cylinder clamping jaw are flush with the central line of the gas cylinder arranged on the supporting mechanism, and the cylinder clamping jaw is arranged towards the closing-in position of the gas cylinder.

8. The gas cylinder alignment automatic positioning tool according to claim 3, wherein: the supporting mechanism comprises a moving plate, a guide sleeve, a guide pillar, a supporting plate and a hoop, wherein the moving plate is arranged on the first guide rail, the guide sleeve is arranged on the moving plate, the guide pillar is sleeved in the guide sleeve, the supporting plate is arranged at the top of the guide pillar, the hoop is arranged on the supporting plate, and the gas cylinder is placed on the supporting plate and clamped through the hoop.

9. The gas cylinder alignment automatic positioning tool of claim 8, wherein: the guide post is movably connected with the guide sleeve, and the supporting plate is adjusted in height through the guide post.