CN220838797U - Automatic corrugated pipe assembling machine - Google Patents

Abstract

An automatic corrugated pipe assembling machine comprises a working panel, a supporting mechanism, a lifting mechanism and an assembling mechanism. The supporting mechanism comprises a lifting bracket and a lifting block. The lifting mechanism comprises an air cylinder bracket, a first air cylinder and a connecting piece. And a mounting groove is formed in the cylinder bracket. The assembly mechanism includes a clamping device and a mounting mechanism. The clamping device comprises a mounting plate, a second air cylinder and clamping jaws. The mounting mechanism comprises a third cylinder, a cylinder connecting piece, a fourth cylinder, a positioning column connecting plate and a positioning column. And setting the lifting support and the overall height of the lifting block adjusting device. The first cylinder is arranged to adjust the height of the assembly mechanism connected with the lifting structure. The clamping device and the mounting mechanism are arranged to replace an artificial corrugated pipe with one hand, and the joint with one hand is assembled. Through the promotion installation of first cylinder, replace manual equipment, work efficiency is high and the occupied manual work is less.

Description

Automatic corrugated pipe assembling machine

Technical Field

The utility model relates to the technical field of corrugated pipe assembly equipment, in particular to an automatic corrugated pipe assembly machine.

Background

The corrugated pipe is a tubular elastic sensing element formed by connecting foldable corrugated sheets along the folding and stretching directions. The bellows is widely used in instruments and meters, and is mainly used as a measuring element of a pressure measuring instrument to convert pressure into displacement or force. The corrugated pipe has thinner pipe wall and higher sensitivity, and the measuring range is tens of Pa to tens of megaPa. The open end is fixed, the sealed end is in a free state, and the elasticity is increased by using an auxiliary spiral spring or reed. When in operation, the movable end is stretched along the length direction of the pipe under the action of internal pressure, so that the movable end generates displacement in a certain relation with the pressure. The movable end drives the pointer to directly indicate the pressure. Bellows often in combination with displacement sensors constitute a pressure sensor that outputs an electrical quantity, sometimes also serving as an isolating element. The bellows has a lower response speed than the bourdon tube because of the large volume change required for expansion. The bellows is adapted to measure low pressure.

When the existing corrugated pipe is assembled with the connector, the corrugated pipe is generally manually held by one hand, the connector is manually held by one hand, and the manual assembly is performed, so that the working efficiency is low and the labor is wasted.

Disclosure of utility model

In view of the above, the present utility model provides an automatic assembling machine for corrugated pipes to solve the above-mentioned technical problems.

An automatic corrugated pipe assembling machine comprises a working panel, a supporting mechanism vertically arranged on the working panel, a lifting mechanism arranged on the supporting mechanism, and an assembling mechanism arranged on the lifting mechanism, wherein the supporting mechanism comprises a lifting bracket vertically arranged on the working panel, a lifting block slidingly arranged on the lifting bracket, the lifting mechanism comprises a cylinder bracket arranged on the first end surface of the lifting block, a first cylinder arranged on the cylinder bracket, a connecting piece arranged on the movable end of the first cylinder, a mounting groove arranged in the cylinder bracket, the assembling mechanism comprises a clamping device arranged on the end part of the connecting piece, which is opposite to the first cylinder, and a mounting mechanism connected with the cylinder bracket, the clamping device comprises a second cylinder arranged on one side of the cylinder bracket, a cylinder arranged on one side of the cylinder bracket, and a connecting piece arranged on one side of the cylinder, which is far away from the cylinder, a connecting plate arranged on the other side of the cylinder bracket, a connecting piece arranged on the cylinder is axially far away from the first cylinder, a connecting plate arranged on the end part of the cylinder bracket, a connecting piece arranged on the connecting piece is axially far away from the first cylinder, a connecting plate is arranged on the connecting piece, a connecting plate is axially positioned on the connecting plate is arranged on the end part of the connecting piece, a connecting plate is axially arranged on the connecting plate is arranged on the connecting plate, the connecting plate is axially far from the connecting plate, the connecting plate is arranged on the connecting plate, the connecting plate is axially arranged on the connecting plate, and the connecting plate is axially moved by the connecting plate, the corrugated pipe is sleeved on the positioning column, the clamping device automatically clamps the corrugated pipe, and the corrugated pipe is pressed to a designated position under the action of the first air cylinder.

Further, the lifting block is fixed with the lifting support through a tight supporting screw.

Further, a plurality of through holes are formed in the cylinder support.

Further, the first cylinder is vertically arranged on the cylinder bracket, and the movable end of the first cylinder is arranged towards the working panel.

Further, a swinging piece is movably arranged between the connecting piece and the air cylinder, one end of the swinging piece is fixedly arranged with the movable end of the air cylinder, and the other end of the swinging piece is movably arranged with the connecting piece.

Further, the movable end of the second cylinder is disposed toward the jaw.

Further, a guide block is arranged between the second cylinder and the clamping jaw.

Further, the guide block is fixedly arranged on the mounting plate.

Further, the clamping jaw comprises a clamping jaw plate arranged on the end part of the mounting plate, far away from the second air cylinder, two swing arms rotatably arranged in the clamping jaw plate, and two corrugated pipe clamps symmetrically arranged on one end part of the swing arms.

Further, two opposite end surfaces of the swing arms are provided with an inclined groove.

Compared with the prior art, the automatic corrugated pipe assembling machine provided by the utility model is provided with the lifting support and the overall height of the lifting block adjusting device. The first cylinder is arranged to adjust the height of the assembly mechanism connected with the lifting structure. The clamping device and the mounting mechanism are arranged to replace an artificial corrugated pipe with one hand, and the joint with one hand is assembled. Through the promotion installation of first cylinder, replace manual equipment, work efficiency is high and the occupied manual work is less.

Drawings

Fig. 1 is a schematic structural diagram of an automatic corrugated pipe assembling machine provided by the utility model.

Fig. 2 is a schematic structural view of an assembling mechanism of the automatic bellows assembling machine of fig. 1.

Detailed Description

Specific embodiments of the present utility model are described in further detail below. It should be understood that the description herein of the embodiments of the utility model is not intended to limit the scope of the utility model.

Fig. 1 to 2 are schematic structural views of an automatic bellows assembling machine according to the present utility model. The automatic assembling machine for corrugated pipes comprises a working panel 10, a supporting mechanism 20 vertically arranged on the working panel 10, a lifting mechanism 30 arranged on the supporting mechanism 20, and an assembling mechanism 40 arranged on the lifting mechanism 30. It is conceivable that the bellows automatic assembling machine further includes other functional structures, such as connection screws, bearings, etc., which are known to those skilled in the art and will not be described herein.

The working panel 10 is a rectangular metal plate, and is used for placing a workpiece and connecting with equipment such as a rack. The working panel 10 is provided with a limiting tool 11. The limiting tool 11 is used for placing semi-finished parts.

The supporting mechanism 20 includes a bracket 21 vertically provided on the work panel 10, and a lifting block 22 slidably provided on the lifting bracket 21.

The lifting support 21 is composed of two metal rods with smooth surfaces, the lifting block 22 can slide along the lifting support 21 conveniently, and the lifting block 22 and the lifting support 21 are fixed by a tight screw, so that the lifting block 22 is fixed at a required height on the lifting support 21.

The lifting mechanism 30 includes a cylinder bracket 31 provided on one end surface of the lifting block 22, a first cylinder 32 provided on the cylinder bracket 31, and a connection member 33 provided on the movable end of the first cylinder 32.

The cylinder bracket 31 is fixedly disposed on one end surface of the lifting block 22. The cylinder bracket 31 is provided with a plurality of through holes 311 for reducing the weight of the cylinder bracket 31. A mounting groove 312 is provided in the cylinder bracket 31, and the mounting groove 312 is used in cooperation with the assembly mechanism 40.

The first cylinder 32 is vertically disposed on the cylinder bracket 31. And the movable end of the first cylinder 32 is disposed toward the work panel 10.

The outer contour of the connecting piece 33 is a cylindrical step. A swinging member 34 is movably arranged between the connecting member 33 and the cylinder 32. One end of the swinging member 34 is fixedly arranged with the movable end of the air cylinder 32, and the other end of the swinging member 34 is movably arranged with the connecting member 33, so that the connecting member 33 can swing along the swinging member 34, and the assembly mechanism 40 with different specifications can be conveniently detached and installed.

The assembly means 40 comprise a clamping device 41 arranged at the end of the connecting piece 33 facing away from the first cylinder 32, and a mounting means 42 connected to the cylinder support 31 and to the clamping device 41.

The clamping device 41 comprises a mounting plate 411 arranged at the end of the connecting piece 33, a second cylinder 412 arranged at the side of the mounting plate 411 close to the bracket 21, and a clamping jaw 413 arranged at the side of the mounting plate 411 remote from the second cylinder 412.

The middle area of the mounting plate 411 is fixedly connected with the connecting piece 33. The second cylinder 412 is disposed at an end of the mounting plate 411 near the lifting bracket 21. The movable end of the second cylinder 412 is disposed toward the jaw 413. A guide block 414 is arranged between the second cylinder 412 and the clamping jaw 413. The guide block 414 is fixedly disposed on the mounting plate 411. The movable end of the second cylinder 412 is inserted into the guide block 414, so as to perform a guiding function.

The clamping jaw 413 comprises a clamping jaw plate 415 arranged on the end of the mounting plate 411 away from the second cylinder 412, two swing arms 416 rotatably arranged in the clamping jaw plate 415, and two corrugated tube clamps 417 symmetrically arranged on one end of the swing arms 416.

Opposite end surfaces of the two swing arms 416 are provided with an inclined groove 418. Two inclined grooves 418 correspond to the movable end positions of the second cylinder 412. When the movable end of the second cylinder 412 is pushed out toward the inclined groove 418, the two swing arms 416 are swung open in opposite directions.

The mounting mechanism 42 includes a third cylinder 421 disposed in the mounting groove 312, a cylinder connecting member 422 penetrating through the mounting plate 11 and connected to the movable end of the third cylinder 421, a fourth cylinder 423 disposed on an end of the cylinder connecting member 422 remote from the third cylinder 421, a positioning post connecting plate 424 having one end disposed on the movable end of the fourth cylinder 423, and a positioning post 425 disposed on the other end of the positioning post connecting plate 424. When the bellows is sleeved on the positioning column 425, the central axis of the positioning column 425 coincides with the central axis of the clamping jaw 413. The positioning column 425 is used for sleeving a corrugated pipe to be installed, and after the corrugated pipe is stable, the clamping device 41 grabs the corrugated pipe and presses the corrugated pipe to a designated position of a product.

The movable end of the third cylinder 421 passes through the mounting slot 312, so that the third cylinder 421 can drive the cylinder connecting member 422 to move axially.

The movable end of the fourth cylinder 423 is disposed opposite to the lifting bracket 21.

The positioning column connecting plate 424 is vertically disposed on the movable end of the fourth cylinder 423. The outer contour of the positioning post connecting plate 424 is an acute triangle. And three through holes 426 are provided between the positioning column 425 and the fourth cylinder 423, with the positioning column connecting plate 424. The three through holes 426 are arranged in sequence from small to large along the positioning posts 425. Each of the through holes 426 may be provided with one of the positioning posts 425, and the diameter of the positioning post 425 is the same as the diameter of each of the through holes 426.

In use, semi-finished parts are placed on the work panel 10. An operator first sleeves an end of the bellows over the positioning post 425. When the bellows is stably sleeved on the positioning column 425. The clamping jaw 413 in the clamping device 41 grips the bellows and the fourth cylinder 423 then withdraws the positioning stud connecting plate 424. The operator then places the semi-finished part in the designated position, and then the first cylinder 32 pushes the clamping device 41, pushing the bellows down to the product designated position, thereby sleeving the bellows onto the semi-finished part.

Compared with the prior art, the automatic corrugated pipe assembling machine provided by the utility model is provided with the lifting support 21 and the lifting block 22 for adjusting the overall height of the equipment. The first cylinder 32 is provided to adjust the height of the assembly mechanism 40 connected to the elevation structure 30. The clamping device 41 and the mounting mechanism 42 are provided instead of a manual assembly method for holding the bellows in one hand and holding the joint in the other hand. By the push-fitting of the first cylinder 32, manual assembly is replaced, working efficiency is high and labor is less occupied.

The above is only a preferred embodiment of the present utility model and is not intended to limit the scope of the present utility model, and any modifications, equivalent substitutions or improvements within the spirit of the present utility model are intended to be covered by the claims of the present utility model.

Claims (10)

1. An automatic kludge of bellows, its characterized in that: the automatic corrugated pipe assembling machine comprises a working panel, a supporting mechanism vertically arranged on the working panel, a lifting mechanism arranged on the supporting mechanism, and an assembling mechanism arranged on the lifting mechanism, wherein the supporting mechanism comprises a lifting bracket vertically arranged on the working panel, a lifting block slidingly arranged on the lifting bracket, the lifting mechanism comprises a cylinder bracket arranged on the first end surface of the lifting block, a first cylinder arranged on the cylinder bracket, a connecting piece arranged on the movable end of the first cylinder, a mounting groove arranged in the cylinder bracket, the assembling mechanism comprises a clamping device arranged on the end part of the connecting piece and facing away from the first cylinder, a mounting mechanism connected with the cylinder bracket, the clamping device comprises a mounting plate arranged on the end part of the connecting piece, a second cylinder arranged on one side of the mounting plate and close to the bracket, a first cylinder arranged on one side of the mounting plate and far from the cylinder, a connecting piece arranged on the end part of the first cylinder and far from the first cylinder, a connecting plate arranged on the end part of the first cylinder and a connecting piece can be axially moved away from the first cylinder, a connecting plate is arranged in the connecting piece and a connecting plate is axially positioned on the end part of the connecting plate, a connecting plate is arranged on the connecting plate, a connecting piece is axially far from the connecting plate is arranged on the end part of the first cylinder, the connecting plate is axially positioned, the connecting plate is arranged on the connecting plate, the connecting plate is axially positioned on the connecting plate, and the connecting plate is positioned on the connecting plate, the corrugated pipe is sleeved on the positioning column, the clamping device automatically clamps the corrugated pipe, and the corrugated pipe is pressed to a designated position under the action of the first air cylinder.

2. The automated bellows assembling machine according to claim 1, wherein: the lifting block is fixed with the lifting support through a tight supporting screw.

3. The automated bellows assembling machine according to claim 1, wherein: and a plurality of through holes are formed in the cylinder bracket.

4. The automated bellows assembling machine according to claim 1, wherein: the first cylinder is vertically arranged on the cylinder bracket, and the movable end of the first cylinder is arranged towards the working panel.

5. The automated bellows assembling machine according to claim 1, wherein: a swinging piece is movably arranged between the connecting piece and the air cylinder, one end of the swinging piece is fixedly arranged at the movable end of the air cylinder, and the other end of the swinging piece is movably arranged at the connecting piece.

6. The automated bellows assembling machine according to claim 1, wherein: the movable end of the second cylinder is arranged towards the clamping jaw.

7. The automated bellows assembling machine according to claim 1, wherein: a guide block is arranged between the second cylinder and the clamping jaw.

8. The automated bellows assembling machine of claim 7, wherein: the guide block is fixedly arranged on the mounting plate.

9. The automated bellows assembling machine according to claim 1, wherein: the clamping jaw comprises a clamping jaw plate arranged on the end part of the mounting plate, which is far away from the second air cylinder, two swing arms which are rotatably arranged in the clamping jaw plate, and two corrugated pipe clamps which are symmetrically arranged on one end part of the swing arms.

10. The automated bellows assembling machine of claim 9, wherein: the opposite end surfaces of the two swing arms are provided with an inclined groove.