CN215928645U - Automatic connecting and separating device for cross displacement pipeline - Google Patents

Abstract

The utility model relates to the technical field of automatic connection of pipelines, and provides an automatic cross-displacement pipeline connecting and separating device which comprises a support, a clamping piece and a blocking piece, wherein the clamping piece is arranged in a sliding mode in the horizontal direction, the blocking piece is arranged on the support, a second framework is arranged on the support and slides on the support in the vertical direction, an inclined plate is arranged on the second framework and hinged with the second framework, the inclined plate is positioned between the blocking piece and the clamping piece, a baffle plate is arranged on the second framework, and a spring is arranged between the baffle plate and the clamping piece and used for providing a force for the clamping piece to approach the blocking piece. Through above-mentioned technical scheme, solved prior art, because the technology demand, need frequent connection and dismantlement between two conveying pipelines, and the mode inefficiency through artifical the installing and removing among the prior art, problem that degree of automation is low.

Description

Automatic connecting and separating device for cross displacement pipeline

Technical Field

The utility model relates to the technical field of automatic connection of conveying pipelines, in particular to an automatic connection and separation device for cross displacement pipelines.

Background

In the prior art, need pass through multichannel production processes in the production process of coating, wherein connect gradually by a plurality of platforms, all have the conveying pipeline between every platform, because the technology demand, some platforms need along vertical displacement, but rather than adjacent platform need not remove, this conveying pipeline disconnection on these two platforms just needs, then need connect two conveying pipelines again when the platform removes the return, generally need earlier the manual work to dismantle the conveying pipeline when the platform removes among the prior art, then remove the platform again, then need earlier the platform to remove to the right place during the platform return, manual connection conveying pipeline again, this kind of operating method needs the platform to dismantle manually when in place, connect the conveying pipeline, there is the problem that intensity of labour is big on the one hand, on the other hand efficiency is also lower.

SUMMERY OF THE UTILITY MODEL

The utility model provides an automatic connecting and separating device for cross displacement pipelines, which solves the problems that in the prior art, due to process requirements, two conveying pipelines need to be frequently connected and detached, and in the prior art, the efficiency is low and the automation degree is low through a manual assembling and disassembling mode.

The technical scheme of the utility model is as follows:

an automatic connecting and separating device for cross displacement pipelines comprises a bracket and a clamping piece which is arranged in a sliding way along the horizontal direction,

also comprises the following steps of (1) preparing,

a stopper disposed on the bracket,

the second framework is arranged on the bracket and slides vertically on the bracket, the inclined plate is arranged on the second framework and hinged with the second framework, the inclined plate is positioned between the blocking piece and the clamping piece,

a baffle plate disposed on the second frame,

a spring positioned between the stop plate and the clamping member for providing a force of the clamping member against the stop member.

As a further technical scheme, the baffle is provided with an opening, and the opening is positioned at one end, close to the conveying pipeline, of the baffle.

As a further technical solution, the guide rail is provided on the baffle, and the clamping member slides along the guide rail.

As a further technical solution, the bracket further comprises,

a support rod arranged on the sliding platform,

a first connecting rod arranged on the supporting rod, the stopper arranged on the first connecting rod,

the second framework comprises a second connecting rod, the second connecting rod is arranged on the supporting rod in a sliding mode and located below the first connecting rod, the baffle is arranged on the second connecting rod, and the inclined plate is arranged on the second connecting rod in a swinging mode.

As a further technical scheme, the limiting plate is arranged on the supporting rod.

As a further technical solution, the support rod comprises,

the telescopic pipe is arranged on the sliding platform, wedge blocks are arranged on the outer pipe wall of the telescopic pipe, the number of the wedge blocks is multiple, the wedge blocks are sequentially arranged along the vertical direction,

the telescopic pipe is sleeved with the telescopic pipe and is provided with a plurality of bolt holes, the bolt holes correspond to the wedge blocks one by one,

and a plurality of bolts are arranged in the bolt holes and are in contact with the wedge blocks.

As a further technical scheme, the sleeve is arranged on the supporting rod in a sliding mode, the second connecting rod is arranged on the sleeve, and the sleeve is located between the first connecting rod and the limiting plate.

As a further technical scheme, the clamping piece is further provided with a pipe sleeve, and the pipe sleeve is used for being connected with a material conveying pipe.

As a further technical solution, the sleeve includes a plurality of rollers, and the rollers are in rolling contact with the brackets.

The working principle and the beneficial effects of the utility model are as follows:

in the prior art, multiple production processes are required in the production process of the coating, wherein a plurality of platforms are connected in sequence, a material conveying pipe is arranged between each platform, some platforms need to be displaced along the vertical direction due to process requirements, but the adjacent platforms do not need to be moved, so that the material conveying pipes on the two platforms need to be disconnected, and the two material conveying pipes need to be connected when the platforms are moved to return, the prior art adopts manual operation, not only is the labor intensity high, but also the working efficiency is low, and the automation degree is low, in order to solve the problem of low automation degree in the prior art, the scheme is specially provided with the automatic connecting and separating device for the cross displacement pipeline,

the bracket moves synchronously along with the sliding platform, the bracket plays a role of bearing other components, and the clamping piece is used for clamping the conveying pipeline, so that the conveying pipeline can be driven to move along the horizontal direction, and the pipeline can be connected and separated; the second framework can slide vertically along the bracket and can drive parts on the second framework and parts on the bracket to have relative displacement; the inclined plate is arranged on the second framework and hinged with the second framework; meanwhile, a stopper is arranged on the bracket, so that the inclined plate is positioned between the stopper and the clamping piece, the stopper plays a role of limiting the inclined plate, the inclined plate is limited by the stopper, an included angle between the plate surface direction of the inclined plate and the vertical direction is reduced, the inclined plate moves towards the clamping piece to further drive the clamping piece to move along the horizontal direction, the clamping piece drives the material conveying pipe to move and is connected with another material conveying pipe,

the baffle is arranged on the second framework to play a role of relatively moving the bracket and the second framework, the other end of the clamping piece is contacted with the baffle, when two material conveying pipes are required to be separated, the second framework and the bracket relatively move, the force of the clamping piece approaching to the blocking piece is provided by the spring, so that the clamping piece drives the material conveying pipes to be far away from the other material conveying pipe, the separation of the two material conveying pipes is realized, when the two material conveying pipes are required to be connected, the sliding platform slides relative to the fixed platform, the bracket synchronously slides along with the sliding platform, when the baffle is contacted with the material conveying pipes of the fixed platform, the baffle stops moving, the second framework connected with the baffle also stops moving, the inclined plate hinged with the second framework stops moving, but the platform also drives the bracket to move, at the moment, the bracket relatively moves relative to the second framework, the baffle on the bracket continues moving under the driving of the bracket, the inclined plate is positioned between the baffle and the clamping piece, so that the baffle moves to stir the inclined plate to rotate, the inclined plate rotates to drive the clamping piece to move, and the clamping piece moves to drive the conveying pipes to move towards the other conveying pipe, so that the connection between the two conveying pipes is realized; through the setting of above-mentioned spare part, can realize automatic connection and separation between two conveying pipeline, solve the problem that degree of automation is low among the prior art.

Drawings

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

FIG. 1 is a schematic diagram of the overall three-dimensional structure of the present invention;

FIG. 2 is a schematic side view of the present invention;

FIG. 3 is a schematic view of another angular three-dimensional structure according to the present invention;

FIG. 4 is a schematic view of another angular three-dimensional structure according to the present invention;

FIG. 5 is a schematic cross-sectional view of the present invention;

FIG. 6 is a side view of the bracket and second frame of the present invention;

FIG. 7 is a schematic three-dimensional structure of the stent of the present invention;

FIG. 8 is a schematic three-dimensional structure of a guide rail and a clamping member according to the present invention;

FIG. 9 is a schematic view of the structure at A in FIG. 5 according to the present invention;

FIG. 10 is a schematic view of the structure of FIG. 5 at B in accordance with the present invention;

in the figure: 1. the device comprises a bracket, 2, a clamping piece, 3, a second framework, 4, a roller, 6, a baffle, 7, an inclined plate, 8, a guide rail, 9, a first connecting end, 10, a second connecting end, 11, a spring, 12, a supporting rod, 13, a first connecting rod, 14, a second connecting rod, 15, a sleeve, 16, a limiting plate, 17, a sleeve, 18, an opening, 19, a bolt, 20, a stopper, 21, an extension pipe, 22, an extension sleeve, 23 a fixed platform, 24, a sliding platform, 25 and a wedge block.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any inventive step, are intended to be within the scope of the present invention.

Example 1

As shown in fig. 1 to 10, the present embodiment provides an automatic connection and separation device for cross displacement pipes, which comprises a bracket 1, a clamping member 2 slidably disposed in a horizontal direction,

also comprises the following steps of (1) preparing,

a stopper 20, said stopper 20 being arranged on said support 1,

the second framework 3 is arranged on the bracket 1 and slides on the bracket 1 along the vertical direction, the inclined plate 7 is arranged on the second framework 3, the inclined plate 7 is hinged with the second framework 3, the inclined plate 7 is positioned between the stopper 20 and the clamping piece 2,

a baffle 6, the baffle 6 being provided on the second frame 3,

a spring 11, wherein said spring 11 is located between said baffle 6 and said clamping member 2 for providing a force of said clamping member 2 to approach said stop 20.

In the prior art, multiple production processes are required in the production process of the coating, wherein a plurality of platforms are connected in sequence, a material conveying pipe is arranged between each platform, some platforms need to be displaced along the vertical direction due to process requirements, but the adjacent platforms do not need to be moved, so that the material conveying pipes on the two platforms need to be disconnected, and the two material conveying pipes need to be connected when the platforms are moved to return, the prior art adopts manual operation, not only is the labor intensity high, but also the working efficiency is low, and the automation degree is low, in order to solve the problem of low automation degree in the prior art, the scheme is specially provided with the automatic connecting and separating device for the cross displacement pipeline,

the bracket 1 moves synchronously along with the sliding platform 24, the bracket 1 plays a role of bearing other components, and the clamping piece 2 is used for clamping the conveying pipeline, so that the conveying pipeline can be driven to move along the horizontal direction, and the pipeline connection and separation can be realized; the second framework 3 can slide vertically along the support 1 and can drive parts on the second framework 3 and parts on the support 1 to move relatively; the inclined plate 7 is arranged on the second framework 3 and is hinged with the second framework 3; meanwhile, a stopper 20 is arranged on the bracket 1, so that the inclined plate 7 is positioned between the stopper 20 and the clamping piece 2, the stopper 20 plays a role in limiting the inclined plate 7, the inclined plate 7 is limited by the stopper 20, an included angle between the surface direction of the inclined plate 7 and the vertical direction is reduced, meanwhile, the inclined plate 7 moves towards the clamping piece 2, the clamping piece 2 is further driven to move along the horizontal direction, the clamping piece 2 drives a material conveying pipe to move and is connected with another material conveying pipe,

the baffle 6 is arranged on the second framework 3 to play a role of relatively moving the bracket 1 and the second framework 3, and the other end of the clamping piece 2 is contacted with the baffle 6, when two material conveying pipes are required to be separated, the second framework 3 and the bracket 1 relatively move, the force of the clamping piece 2 close to the blocking piece 20 is provided by the spring 11, so that the clamping piece 2 drives the material conveying pipes to be far away from the other material conveying pipe, the separation of the two material conveying pipes is realized, when the two material conveying pipes are required to be connected, the sliding platform 24 slides relative to the fixed platform, the bracket 1 synchronously slides along with the sliding platform 24, when the baffle 6 is contacted with the material conveying pipes of the fixed platform, the baffle 6 stops moving, the second framework 3 connected with the baffle 6 also stops moving, the inclined plate 7 hinged with the second framework 3 stops moving, but the platform also drives the bracket 1 to move, at the moment, the bracket 1 relatively moves relative to the second framework 3, the baffle 6 on the bracket 1 is driven by the bracket 1 to move continuously, and the inclined plate 7 is positioned between the baffle 6 and the clamping piece 2, so that the baffle 20 moves to stir the inclined plate 7 to rotate, the inclined plate 7 rotates to drive the clamping piece 2 to move, and the clamping piece 2 moves to drive the material conveying pipes to move towards the other material conveying pipe, thereby realizing the connection between the two material conveying pipes; through the setting of above-mentioned spare part, can realize automatic connection and separation between two conveying pipeline, solve the problem that degree of automation is low among the prior art.

Further, the baffle 6 has an opening 18, said opening 18 being located at the end of said baffle 6 adjacent to the feed conveyor pipe.

In this embodiment, baffle 6 has been set up specially in order to realize the relative movement between support 1 and second framework 3, but when baffle 6 keeps off on the fixed platform conveying pipeline, can produce an impact vibrations to body or baffle 6 itself, in order to protect the conveying pipeline body, protect baffle 6 simultaneously, opening 18 has been set up on baffle 6 specially, the profile and the pipe diameter outer wall of opening 18 are laminated mutually in this scheme, guarantee when baffle 6 and conveying pipeline clash, there is a great area of contact, thereby the impact force that the relative reduction unit area received, realize the protection to conveying pipeline and baffle 6 with this.

Further, a guide rail 8 is provided on the shutter 6, and the holder 2 slides along the guide rail 8.

In order to realize the guide for the clamping part 2 in the embodiment, the baffle 6 is specially provided with the guide rail 8, the clamping part 2 slides along the guide rail 8, and the guide effect for the clamping part 2 is realized through the arrangement of the guide rail 8.

Furthermore, the support 1 also comprises a support body,

a support rod 12, wherein the support rod 12 is arranged on the sliding platform,

a first connecting rod 13, wherein the first connecting rod 13 is arranged on the supporting rod 12, the blocking piece 20 is arranged on the first connecting rod 13,

the second frame 3 comprises a second connecting rod 14, the second connecting rod 14 is arranged on the supporting rod 12 in a sliding mode and located below the first connecting rod 13, the baffle 6 is arranged on the second connecting rod 14, and the inclined plate 7 is arranged on the second connecting rod 14 in a swinging mode.

In order to realize the relative displacement between the support 1 and the second frame 3 in the embodiment, the support 1 is specially provided with a support rod 12, a first connecting rod 13, a second frame 3 and a second connecting rod 14, the support rod 12 plays a role of supporting the first connecting rod 13 and the stopper 20, the second frame 3 is arranged on the support rod 12 in a sliding way and plays a role of supporting the second connecting rod 14, and the relative displacement with the support rod 12 can be realized through the sliding of the second frame 3.

Further, a stopper plate 16 is provided on the support rod 12.

In this embodiment, in order to realize that cross displacement pipeline automatic connection separator when sliding platform 24 removes, can drive the synchronous lift of conveying pipeline, limiting plate 16 has been set up specially, limiting plate 16 sets up on bracing piece 12, and be located sleeve pipe 15 below, when bracing piece 12 rises with sliding platform 24 is synchronous, can pass through the restriction of limiting plate 16 position, it upwards slides to drive sleeve pipe 15, thereby realize when cross displacement pipeline automatic connection separator removes sliding platform 24, can drive the synchronous lift of conveying pipeline.

Further, the support pole 12 includes, among other things,

the extension tube 21 is arranged on the sliding platform, a plurality of wedge blocks 25 are arranged on the outer tube wall of the extension tube 21 and are sequentially arranged along the vertical direction,

a telescopic tube 22, the telescopic tube 21 is sleeved on the telescopic tube 21 and is provided with a plurality of bolt holes, the bolt holes correspond to the wedge blocks 25 one by one,

and a plurality of bolts 19, wherein the bolts 19 are arranged in the holes of the bolts 19 and are in contact with the wedge blocks 25.

In this embodiment, in order to facilitate the height of the support 1 to adapt to the material conveying pipes with different heights, the support rod 12 on the support 1 is specially provided with an extension tube 21, an extension sleeve 22 and a bolt 19, wherein the extension tube 21 is arranged on the sliding platform 24 and plays a role of supporting the extension sleeve 22, the extension sleeve 22 is sleeved on the extension tube 21, and the relative movement between the extension tube 21 and the extension sleeve 22 can be realized, so that the function of adjusting the height of the support 1 is realized, the outer wall of the extension tube 21 is provided with a plurality of wedge blocks 25, the extension sleeve 22 is provided with a plurality of bolt holes, the bolt 19 is arranged in the bolt hole, and the bolt 19 is screwed and pressed on the wedge blocks 25 to realize the fixation of the extension tube 21 and the extension sleeve 22 after the position adjustment.

Further, a sleeve 15 is slidably disposed on the supporting rod 12, the second connecting rod 14 is disposed on the sleeve 15, and the sleeve 15 is located between the first connecting rod and the limiting plate 16.

In this embodiment, in order to realize the sliding of the second connecting rod 14 relative to the supporting rod 12, the sleeve 15 is specially provided, the sleeve 15 is sleeved on the supporting rod 12, the sliding along the supporting rod 12 can be realized, and the sleeve 15 is arranged on the sleeve 15, so that the sliding along the supporting rod 12 can be realized.

Furthermore, the clamping member 2 is further provided with a pipe sleeve 17, and the pipe sleeve 17 is used for connecting a material conveying pipe.

In order to realize that the clamping member 2 can drive the conveying pipeline to move synchronously in the embodiment, the pipe sleeve 17 is specially arranged, wherein the pipe sleeve 17 is arranged on the clamping member 2, and the pipe sleeve 17 bypasses the conveying pipeline to be connected with the clamping member 2, so that the clamping member 2 is moved to drive the conveying pipeline to move.

Further, the sleeve 15 comprises a plurality of rollers 4, said rollers 4 being in rolling contact with said cradle 1.

In order to facilitate the sliding of the sleeve 15 on the bracket 1 in the embodiment, a plurality of rollers 4 are specially arranged on the sleeve 15, the rollers 4 are rotatably arranged on the sleeve 15, and the rollers 4 are in rolling contact with the bracket 1, so that the previous sliding friction is converted into rolling friction, the friction coefficient between the sleeve 15 and the bracket 1 is reduced, and the sliding of the sleeve 15 on the bracket 1 is more labor-saving.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions, improvements, etc. within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. An automatic connecting and separating device for cross displacement pipelines comprises a bracket (1) and a clamping piece (2) arranged in a sliding way along the horizontal direction, and is characterized in that,

also comprises the following steps of (1) preparing,

a stopper (20), said stopper (20) being arranged on said support (1),

the second framework (3) is arranged on the support (1), the second framework (3) slides on the support (1) along the vertical direction, the clamping piece (2) slides on the second framework (3) along the horizontal direction,

the inclined plate (7), the inclined plate (7) is arranged on the second framework (3), the inclined plate (7) is hinged with the second framework (3), the inclined plate (7) is positioned between the stopper (20) and the clamping piece (2),

a baffle (6), the baffle (6) being arranged on the second frame (3),

a spring (11) for providing a force of the clamping member (2) against the stop member (20).

2. A cross-displacement pipe automatic connection and disconnection apparatus as claimed in claim 1, wherein said baffle (6) has an opening (18), said opening (18) being located at an end of said baffle (6) adjacent to the feed conveyor pipe.

3. The automatic connection and disconnection device of a cross displacement pipe according to claim 2, further comprising a guide rail (8), wherein the guide rail (8) is disposed on the baffle (6), and the clamping member (2) slides along the guide rail (8).

4. The automatic connection and disconnection device of a cross displacement pipe according to claim 2, wherein the bracket (1) further comprises,

a support rod (12), the support rod (12) is arranged on the sliding platform,

a first connecting rod (13), the first connecting rod (13) is arranged on the supporting rod (12), the stopper (20) is arranged on the first connecting rod (13),

the second framework (3) comprises a second connecting rod (14), the second connecting rod (14) is arranged on the supporting rod (12) in a sliding mode and located below the first connecting rod (13), the baffle (6) is arranged on the second connecting rod (14), and the inclined plate (7) is arranged on the second connecting rod (14) in a swinging mode.

5. The automatic connection and disconnection device of a cross displacement pipeline according to claim 4, further comprising a limiting plate (16), wherein the limiting plate (16) is disposed on the support rod (12).

6. The automatic connection and disconnection device of a cross displacement pipe according to claim 4, wherein the support bar (12) comprises,

the telescopic pipe (21) is arranged on the sliding platform, wedge blocks (25) are arranged on the outer pipe wall of the telescopic pipe (21), a plurality of wedge blocks (25) are arranged in sequence along the vertical direction,

the telescopic pipe (21) is sleeved on the telescopic pipe (21) and is provided with a plurality of bolt holes, the bolt holes correspond to the wedge blocks (25) one by one,

and a plurality of bolts (19), wherein the bolts (19) are arranged in the bolt (19) holes and are in contact with the wedge blocks (25).

7. The automatic connection and disconnection device of a cross displacement pipeline according to claim 5, further comprising a sleeve (15), wherein the sleeve (15) is slidably disposed on the support rod (12), the second link (14) is disposed on the sleeve (15), and the sleeve (15) is located between the first link and the limiting plate (16).

8. A device for automatic connection and disconnection of cross-displacement pipes according to claim 2, characterized in that said holding member (2) is further provided with a sleeve (17), said sleeve (17) being adapted to be connected to a feed conveyor pipe.

9. A cross-displacement pipe automatic connection and disconnection device according to claim 6, wherein the sleeve (15) comprises a plurality of rollers (4), the rollers (4) being in rolling contact with the bracket (1).

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