CN113977794B - Pipeline raw material conveying device - Google Patents

Abstract

The invention relates to the related field of polypropylene production, in particular to a pipeline raw material conveying device; the pipeline raw material conveying device comprises a pipeline frame, a plurality of conveying pipelines arranged in the pipeline frame, a blocking plate arranged at one end of each conveying pipeline and a sampling plate rotatably arranged on the blocking plate; a sampling through hole is formed in the barrier plate and is connected and communicated with the conveying pipeline; the sampling plate is provided with a plurality of sampling grooves; the sampling groove is connected and communicated with the sampling through hole; when the sampling groove rotates to be connected and communicated with the sampling through hole, the raw material in the conveying pipeline flows to the sampling groove; when the end surface of the sampling plate is abutted against the sampling through hole, the sampling through hole is sealed; the sample is sampled in a fixed time through the blocking plate and the sampling plate, so that the change of the concentration of the liquid in the conveying pipeline in unit time can be effectively detected.

Description

Pipeline raw material conveying device

Technical Field

The invention relates to the field related to polypropylene production, in particular to a pipeline raw material conveying device.

Background

The patent document CN208180187U discloses an anti-blocking extrusion device for producing heat-resistant polypropylene pipelines, which comprises a mounting seat and is characterized in that an extrusion cylinder body is horizontally arranged above the mounting seat, the side wall of one end of a first cooling layer is connected with a second water inlet pipe, and the other end of the second water inlet pipe is communicated with a circulating water tank. Above-mentioned patent compact structure, reasonable in design, through set up the stirring cutter in the feeder hopper, and set up filter screen one and filter screen two that have the vibrator in the top and bottom of stirring cutter, the feeding jam feeder hopper has effectively been reduced, set up cooling layer two through the outer wall at charge-in pipeline, the material has effectively been prevented to melt in advance at the feed end, through set up the recess on the heating section inner wall of extruding the barrel, prevent that the melting material from solidifying, through set up cooling layer one at the aircraft nose outer wall, the junction of the inner chamber of having solved the material and having attached to extrusion device and discharge gate, and the jam condition that leads to, the frequency of handling has been shut down has been reduced, and the production efficiency is greatly improved.

However, the above patent cannot detect the production raw material in the production.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: the pipeline raw material conveying device comprises a pipeline frame, a plurality of conveying pipelines arranged in the pipeline frame, a blocking plate arranged at one end of each conveying pipeline and a sampling plate rotatably arranged on the blocking plate;

a sampling through hole is formed in the barrier plate and is connected and communicated with the conveying pipeline;

the sampling plate is provided with a plurality of sampling grooves; the sampling groove is connected and communicated with the sampling through hole;

when the sampling groove rotates to be connected and communicated with the sampling through hole, the raw material in the conveying pipeline flows to the sampling groove;

and when the end surface of the sampling plate is abutted against the sampling through hole, the sampling through hole is sealed.

Further, the outer side surfaces of the blocking plate and the sampling plate are both threaded surfaces;

an installation groove is formed in the end part of the conveying pipeline, and the installation groove is connected and communicated with the conveying pipeline;

the threaded groove has been seted up to the medial surface of mounting groove, the barrier plate with the sampling plate all with mounting groove threaded connection.

Further, the pipeline raw material conveying device also comprises a sealing circular plate arranged on the blocking plate, a sealing rubber gasket arranged on the outer side of the sealing circular plate and a pressing circular plate arranged on the sampling plate;

the pressing circular plate is arranged on one side surface of the sampling plate facing the blocking plate;

the bottom of the pressing circular plate can abut against the sealing rubber gasket, so that the sealing rubber gasket deforms towards the direction of the mounting groove.

Furthermore, one surface of the sampling plate, which is back to the sampling groove, is provided with a plurality of sampling detection holes;

the sampling detection holes correspond to the sampling grooves one by one;

each sampling detection hole is far away from the circle center of the sampling plate;

the sampling detection hole is connected and communicated with the sampling groove.

Further, the pipe rack comprises an outer frame and a support frame arranged in the outer frame;

each conveying pipeline is erected on the supporting frame.

Further, the support frame comprises a plurality of transverse support pipes and vertical support pipes arranged among the transverse support pipes;

the transverse supporting tubes and the vertical supporting tubes form a plurality of erection frames;

the erection frames correspond to the conveying pipelines one by one;

the conveying pipeline is arranged in the erection frame.

Furthermore, the pipeline raw material conveying device also comprises a plurality of erection blocks;

one end of the erection block is fixedly connected with the conveying pipeline, and the other end of the erection block is fixedly connected with any one side edge of the erection frame.

Furthermore, the pipeline raw material conveying device also comprises a plurality of connecting pipelines;

each connecting pipeline is connected and communicated with the two conveying pipelines.

Furthermore, the pipeline raw material conveying device also comprises a mixing barrel arranged in the pipeline frame, a hollow stirring shaft arranged in the mixing barrel, a displacement cylinder arranged in the pipeline frame, a displacement motor, a driving rod, a plurality of limiting blocks arranged in the hollow stirring shaft, stirring gears arranged outside the hollow stirring shaft, a plurality of stirring rods rotatably arranged on the inner wall of the mixing barrel and rotating gears arranged at the end parts of the stirring rods;

the stirring gear can be meshed with the rotating gear so as to drive the second blade connected with the stirring rod to rotate;

the shell of the displacement cylinder is fixedly connected with the shell of the displacement motor, and the rotating shaft of the displacement motor is fixedly connected with the driving rod;

when each clamping block is clamped between two adjacent limiting blocks, the displacement motor drives the driving rod to rotate so as to drive the hollow stirring shaft to rotate, so that the first blade and the second blade at the bottom of the hollow stirring shaft are driven to rotate, and the technical effects of up-and-down mixing and left-and-right mixing of liquid in the mixing barrel are realized;

when the bottom surface of the driving rod is abutted to the upper surfaces of the limiting blocks, the driving rod is driven by the displacement motor to rotate, an additive is added along the axis of the hollow stirring shaft, the additive can fall along the gap between the limiting blocks in the rotating process of the driving rod, and the additive with larger volume is clamped between the limiting blocks and is crushed into small volume to fall along the gap between the limiting blocks.

The sampling device has the beneficial effects that the barrier plate and the sampling plate are used for sampling samples in fixed time, so that the change of the concentration of the liquid in the conveying pipeline in unit time can be effectively detected.

Drawings

The invention is further illustrated with reference to the following figures and examples.

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

FIG. 2 is an enlarged view of a portion of the invention at A in FIG. 1;

FIG. 3 is a cross-sectional view of an end of a delivery conduit of the present invention;

FIG. 4 is a schematic view of the structure within the mixing tub of the present invention;

FIG. 5 is a cross-sectional view at the hollow stirring shaft of the present invention;

in the figure:

200. a pipe rack; 2001. an outer frame; 2002. a support frame; 201. a delivery conduit; 2011. mounting grooves; 202. a blocking plate; 2021. a sampling through hole; 203. a sampling plate; 2031. a sampling groove; 2032. sampling a detection hole; 204. erecting a block; 205. a rubber pad; 206. sealing the circular plate; 207. sealing the rubber gasket; 208. pressing the circular plate; 100. a mixing barrel; 101. a hollow stirring shaft; 102. a displacement cylinder; 103. a displacement motor; 104. a drive rod; 105. a limiting block; 106. a stirring gear; 107. a stirring rod; 108. a rotating gear; 109. a barrel cover; 110. a first blade; 111. a second blade; 112. an arc-shaped air bag.

Detailed Description

The present invention will now be described in further detail with reference to the accompanying drawings. These drawings are simplified schematic views illustrating only the basic structure of the present invention in a schematic manner, and thus show only the constitution related to the present invention.

Example one

As shown in fig. 1 to 5, the present invention provides a pipeline material conveying device, which includes a pipeline frame 200, a conveying pipeline 201, a blocking plate 202 and a sampling plate 203. The conduit rack 200 is adapted to support a number of different transport conduits 201. The delivery conduit 201 is adapted to have a reagent flowing therein. The blocking plate 202 is adapted to hold a reagent sample within the delivery conduit 201. The sampling plate 203 is adapted to sample the reagent in the delivery conduit 201 and deliver the reagent into the blocking plate 202. With respect to the above components, a detailed description is given below.

Pipe rack 200

The pipe rack 200 is fixed on a horizontal plane and is adapted to support several different conveying pipes 201.

The duct rack 200 includes an outer frame 2001 and a support bracket 2002 provided in the outer frame 2001. The size of the outer frame 2001 can limit the size of the entire pipe rack 200. The support frame 2002 is adapted to support a plurality of delivery pipes 201, and each delivery pipe 201 is erected on the support frame 2002.

To achieve the above-mentioned effect, the supporting frame 2002 comprises a plurality of transverse supporting tubes and a vertical supporting tube arranged between the transverse supporting tubes. The two transverse supporting tubes and the two vertical supporting tubes can form a rectangular erection frame, the plurality of transverse supporting tubes and the plurality of vertical supporting tubes are arranged in a staggered mode to form a plurality of net-shaped erection frames, the conveying pipelines 201 are arranged in the erection frames, and the erection frames correspond to the conveying pipelines 201 one by one. In addition, in order to make the erection frame capable of providing reliable support for the conveying pipe 201, the pipe raw material conveying apparatus further includes a plurality of erection blocks 204. One end of the erection block 204 is fixedly connected with the conveying pipeline 201, and the other end is fixedly connected with any one side edge of the erection frame. By the arrangement of the erection block 204, the conveying pipe 201 can be reliably fixed to the erection frame. Therefore, in the process of conveying the reagent by the conveying pipeline 201, the erection frame provides reliable support for the conveying pipeline 201. A plurality of rubber pads 205 are further arranged below the outer frame 2001, so that the friction force between the outer frame 2001 and a horizontal plane can be increased through the rubber pads 205, the outer frame 2001 is prevented from being displaced horizontally, and the overall stability is increased.

Conveying pipe 201

The delivery duct 201 is fixed within the corresponding hypothetical frame, and the delivery duct 201 is adapted to circulate a reagent therein. It is to be noted that different reagents can be circulated in different delivery lines 201. The pipeline raw material conveying device further comprises a plurality of connecting pipelines, and each connecting pipeline is connected and communicated with two conveying pipelines 201. The reagents in the different delivery lines 201 can be communicated and mixed through the connecting lines.

Stop plate 202

A blocking plate 202 is arranged at one end of said transport pipe 201, and said blocking plate 202 is adapted to hold a reagent sample inside the transport pipe 201.

In order to realize the above effect, the outside of the blocking plate 202 is a thread surface, a mounting groove 2011 is opened at the end of the conveying pipeline 201, the mounting groove 2011 is connected with the conveying pipeline 201 and communicated with the conveying pipeline, a thread groove is opened at the inner side surface of the mounting groove 2011, and the blocking plate 202 is connected with the mounting groove 2011 in a threaded manner. In this way, the blocking plate 202 can be fixed to one end of the conveying pipe 201, and the axial sliding of the blocking plate 202 is effectively restricted. A sampling through hole 2021 is formed in the barrier plate 202, and the sampling through hole 2021 is connected and communicated with the conveying pipeline 201. The sample taken out from the conveyance pipe 201 by the sampling plate 203 can be introduced into the sampling through-hole 2021, and stored in the sampling through-hole 2021 or taken out by an operator.

Sampling plate 203

The sampling plate 203 is rotatably disposed on the blocking plate 202, and the sampling plate 203 is adapted to sample the reagent in the conveying pipeline 201 and convey the reagent into the blocking plate 202. Specifically, the sampling plate 203 is provided with a plurality of sampling grooves 2031; the sampling groove 2031 can be connected to and communicate with the sampling through-hole 2021. When the sampling groove 2031 is rotated to be connected and communicated with the sampling through hole 2021, the raw material in the transfer pipe 201 flows to the sampling groove 2031.

In order to achieve the above effect, a plurality of sampling detection holes 2032 are formed in a surface of the sampling plate 203 facing away from the sampling groove 2031, and the sampling detection holes 2032 correspond to the sampling grooves 2031 one to one. Each sampling detection hole 2032 is far away from the center of the sampling plate 203. The sampling detection hole 2032 is connected to and communicates with the sampling groove 2031. The reagent in the conveying pipeline 201 can push the sampling plate 203 to rotate to be close to the blocking plate 202, and when the sampling plate 203 rotates to the sampling groove 2031 to be communicated with the sampling through hole 2021, the reagent in the conveying pipeline 201 can flow into the sampling through hole 2021 through the sampling detection hole 2032 and the sampling groove 2031.

In addition, in order to seal the sampling through hole 2021, the outer wall of the sampling plate 203 is also a threaded surface, and the sampling plate 203 is screwed to the mounting groove 2011. The blocking plate 202 further has a sealing circular plate 206, a sealing rubber pad 207 disposed outside the sealing circular plate 206, and a pressing circular plate 208 disposed on the sampling plate 203. The sealing disk 206 is disposed on one side of the blocking plate 202 facing the sampling plate 203, the pressing disk 208 is disposed on one side of the sampling plate 203 facing the blocking plate 202, the sealing disk 206 is disk-shaped, the pressing disk 208 is dome-shaped, and the sealing disk 206 is fitted to the pressing disk 208. When the sampling plate 203 moves to the end face to abut against the sampling through hole 2021, the bottom of the pressing circular plate 208 can abut against the sealing rubber pad 207, so that the sealing rubber pad 207 deforms in the direction of the mounting groove 2011, thereby achieving the effect of sealing the sampling through hole 2021.

Raw material preparation part

The pipeline raw material conveying device further comprises a mixing barrel 100 arranged in the external frame 2001, a hollow stirring shaft 101 arranged in the mixing barrel 100, a displacement cylinder 102 arranged in the external frame 2001, a displacement motor 103, a driving rod 104, a plurality of limiting blocks 105 arranged in the hollow stirring shaft 101, a stirring gear 106 arranged outside the hollow stirring shaft 101, a plurality of stirring rods 107 rotatably arranged on the inner wall of the mixing barrel 100 and rotating gears 108 arranged at the end parts of the stirring rods 107;

the stirring gear 106 can be meshed with the rotating gear 108, so that a second blade 111 connected with the stirring rod 107 is driven to rotate;

the mixing barrel 100 is provided with a barrel cover 109, a plurality of locking buckles are circumferentially arranged on a side plate of the barrel cover 109, and the barrel cover 109 is connected with and disconnected from the mixing barrel 100 through locking or releasing;

a plurality of clamping blocks are axially arranged on the driving rod 104;

the end part of the outer side surface of the hollow stirring shaft 101 is provided with an adjusting thread, the top of the barrel cover 109 is provided with an adjusting thread groove, and the end part of the hollow stirring shaft 101 is in threaded connection with the barrel cover 109;

when the displacement cylinder 102 drives the displacement motor 103 to move downwards, the displacement motor 103 pushes the driving rod 104 to move downwards until the bottom surface of the clamping block abuts against the upper surface of the limiting block 105, under the condition, an additive is added from the hollow inlet of the hollow stirring shaft 101, and the additive is agglomerated at the moment due to the fact that the additive is wet during daily storage and under the condition of alternative natural environment or severe weather; in the process of rotating the driving rod 104, the additive will fall down along the gap between the two limit blocks 105, and when the additive with a larger volume is clamped between the two limit blocks 105, the rotating driving rod 104 is broken into a small volume and falls down along the gap between the two limit blocks 105.

When the displacement cylinder 102 drives the displacement motor 103 to move downwards, the displacement motor 103 pushes the driving rod 104 to move downwards to a position where each clamping block is clamped between two adjacent limiting blocks 105, the connection between the barrel cover 109 and the mixing barrel 100 is released, and when the displacement motor 103 drives the driving rod 104 to rotate, the hollow stirring shaft 101 is further driven to rotate, so that the first blade 110 and the second blade 111 at the bottom of the hollow stirring shaft 101 are driven to rotate, and the technical effects of up-down mixing and left-right mixing of liquid in the mixing barrel 100 are realized;

when the displacement cylinder 102 drives the displacement motor 103 to move downwards, the displacement motor 103 pushes the driving rod 104 to move downwards to a position where each clamping block is clamped between two adjacent limiting blocks 105, the connection between the barrel cover 109 and the mixing barrel 100 is maintained, because the mixing barrel 100 is fixedly connected with the ground, when the displacement motor 103 rotates clockwise, the hollow stirring shaft 101 and the barrel cover 109 can relatively displace, the stirring gear 106 can be disengaged from the rotating gear 108, the connection between the barrel cover 109 and the mixing barrel 100 is released, and the displacement motor 103 drives the driving rod 104 to rotate, so as to drive the first blade 110 connected with the hollow stirring shaft 101 to rotate; so as to realize the stirring of the materials in the mixing barrel 100; when the first blade 110 and the second blade 111 are required to rotate, the barrel cover 109 and the mixing barrel 100 are locked, the displacement motor 103 rotates anticlockwise, and the hollow stirring shaft 101 and the barrel cover 109 can generate relative displacement; the stirring gear 106 can be meshed with the rotating gear 108, and the second blade 111 connected with the stirring rod 107 is driven to rotate through the displacement motor 103;

when the displacement cylinder 102 drives the displacement motor 103 to move downwards, the displacement motor 103 pushes the driving rod 104 to move downwards to each clamping block, when the clamping block is clamped at the bottom between two adjacent limiting blocks 105, each side surface of the clamping block at the bottom is provided with an arc-shaped air bag 112, the tip end of the arc-shaped air bag 112 faces the rotating motor, when the driving rod 104 extrudes the arc-shaped air bag 112, a one-way valve at the side surface of the hollow stirring shaft 101 blows air, and the one-way valve needle cleans the stirring gear 106.

In light of the foregoing description of the preferred embodiment of the present invention, many modifications and variations will be apparent to those skilled in the art without departing from the spirit and scope of the invention. The technical scope of the present invention is not limited to the content of the specification, and must be determined according to the scope of the claims.

Claims (8)

1. A pipeline raw material conveying device is characterized by comprising a pipeline frame, a plurality of conveying pipelines arranged in the pipeline frame, a blocking plate arranged at one end of each conveying pipeline and a sampling plate rotatably arranged on the blocking plate;

a sampling through hole is formed in the barrier plate and is connected and communicated with the conveying pipeline;

the sampling plate is provided with a plurality of sampling grooves; the sampling groove is connected and communicated with the sampling through hole;

when the sampling groove rotates to be connected and communicated with the sampling through hole, the raw material in the conveying pipeline flows to the sampling groove;

when the end surface of the sampling plate is abutted against the sampling through hole, the sampling through hole is sealed;

the pipeline raw material conveying device also comprises a mixing barrel arranged in the pipeline frame, a hollow stirring shaft arranged in the mixing barrel, a displacement cylinder arranged in the pipeline frame, a displacement motor, a driving rod, a plurality of limiting blocks arranged in the hollow stirring shaft, a stirring gear arranged outside the hollow stirring shaft, a plurality of stirring rods rotatably arranged on the inner wall of the mixing barrel and rotating gears arranged at the end parts of the stirring rods;

the stirring gear can be meshed with the rotating gear so as to drive the second blade connected with the stirring rod to rotate;

the shell of the displacement cylinder is fixedly connected with the shell of the displacement motor, and the rotating shaft of the displacement motor is fixedly connected with the driving rod;

when each clamping block is clamped between two adjacent limiting blocks, the displacement motor drives the driving rod to rotate so as to drive the hollow stirring shaft to rotate, so that the first blade and the second blade at the bottom of the hollow stirring shaft are driven to rotate, and the technical effects of up-and-down mixing and left-and-right mixing of liquid in the mixing barrel are realized;

when the bottom surface of the driving rod is abutted to the upper surfaces of the limiting blocks, the driving rod is driven by the displacement motor to rotate, an additive is added along the axis of the hollow stirring shaft, the additive can fall along the gap between the limiting blocks in the rotating process of the driving rod, and the additive with larger volume is clamped between the limiting blocks and is crushed into small volume to fall along the gap between the limiting blocks.

2. The piping material transporting apparatus as claimed in claim 1,

the outer side surfaces of the blocking plate and the sampling plate are both threaded surfaces;

an installation groove is formed in the end part of the conveying pipeline, and the installation groove is connected and communicated with the conveying pipeline;

the threaded groove has been seted up to the medial surface of mounting groove, the barrier plate with the sampling plate all with mounting groove threaded connection.

3. The piping material transporting apparatus as claimed in claim 2,

the pipeline raw material conveying device also comprises a sealing circular plate arranged on the blocking plate, a sealing rubber gasket arranged on the outer side of the sealing circular plate and a pressing circular plate arranged on the sampling plate;

the pressing circular plate is arranged on one side surface of the sampling plate facing the blocking plate;

the bottom of the pressing circular plate can abut against the sealing rubber gasket, so that the sealing rubber gasket deforms towards the direction of the mounting groove.

4. The piping material transporting apparatus as claimed in claim 3,

one surface of the sampling plate, which is back to the sampling groove, is provided with a plurality of sampling detection holes;

the sampling detection holes correspond to the sampling grooves one by one;

each sampling detection hole is far away from the circle center of the sampling plate;

the sampling detection hole is connected and communicated with the sampling groove.

5. The piping material transporting apparatus as claimed in claim 4,

the pipeline frame comprises an outer frame and a support frame arranged in the outer frame;

each conveying pipeline is erected on the supporting frame.

6. The piping material transporting apparatus as claimed in claim 5,

the support frame comprises a plurality of transverse support tubes and vertical support tubes arranged among the transverse support tubes;

the transverse supporting tubes and the vertical supporting tubes form a plurality of erection frames;

the erection frames correspond to the conveying pipelines one by one;

the conveying pipeline is arranged in the erection frame.

7. The piping material transporting apparatus as claimed in claim 6,

the pipeline raw material conveying device also comprises a plurality of erection blocks;

one end of the erection block is fixedly connected with the conveying pipeline, and the other end of the erection block is fixedly connected with any one side edge of the erection frame.

8. The piping material transporting apparatus as claimed in claim 7,

the pipeline raw material conveying device also comprises a plurality of connecting pipelines;

each connecting pipeline is connected and communicated with the two conveying pipelines.

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