CN109250229B - High-temperature corrosion medium collecting and transporting device - Google Patents

Abstract

The invention relates to a high-temperature corrosion medium collecting and transporting device in the technical field of fluid medium transportation, which comprises a container, a conveying pipe, a lifting mechanism, a bracket, a connecting seat, a butt joint flange plate, a cup seat, an electric control part and an electric heating element with a heat-insulating layer, wherein the conveying pipe is arranged on the container; the connecting seat is detachably arranged on the bracket, the butt joint flange disc is combined with the upper end of the container into a whole, and the butt joint flange disc is detachably arranged on the connecting seat; the upper end of the cup seat is fixedly connected with the connecting seat, the cup seat extends downwards into the inner cavity of the container and corresponds to the upper part of the inner cavity of the container, a bottom hole is formed in the bottom of the cup seat, and the conveying pipe movably penetrates through the bottom hole and is communicated with the inner cavity of the container; the outer wall of the conveying pipe is coated by the heat-insulating layer of the electric heating element, the conveying pipe and the heat-insulating layer movably penetrate through the connecting seat, the heat-insulating layer also extends into the cup seat, and the electric control component is electrically connected with the electric heating element. Can ensure that the conveying pipe is not influenced by the action of the disassembling offset force when the container is disassembled, and ensure the service life of the conveying pipe.

Description

High-temperature corrosion medium collecting and transporting device

Technical Field

The invention relates to the technical field of fluid medium transportation, in particular to a high-temperature corrosive medium collecting and transporting device.

Background

When the high-temperature corrosive medium is transported, the high-temperature corrosive medium needs to be conveyed into a specially arranged container through a conveying pipe, and the container is supported by a supporting mechanism during collection. In the prior art, the conveying pipe is of a hard pipe structure, the conveying pipe is fixedly inserted into the container, the container needs to be detached when the container is fully loaded, and the offset force generated by detachment inevitably acts on the conveying pipe when the container is detached, so that the conveying pipe is broken by carelessness.

Disclosure of Invention

The invention aims to provide a high-temperature corrosive medium collecting and transporting device, which can ensure that a conveying pipe is not subjected to the action of a disassembling offset force when a container is disassembled and ensure the service life of the conveying pipe.

The purpose of the invention is realized as follows: a high-temperature corrosion medium collecting and transporting device comprises a container, a hard conveying pipe, a movable lifting mechanism, a bracket, a connecting seat, a butt joint flange plate, a cup seat, an electric control component and an electric heating element, wherein the container is used for collecting high-temperature corrosion media, the upper end of the container is of an open structure, the hard conveying pipe is used for conveying the high-temperature corrosion media into the container, the movable lifting mechanism is used for supporting the container, and the electric heating element is provided with a heat insulation layer; the bracket is fixedly arranged, the connecting seat is detachably arranged on the bracket, the butt joint flange plate is combined with the upper end of the container into a whole, the butt joint flange plate is detachably arranged on the connecting seat, and the upper end of the container is sealed when the connecting seat and the butt joint flange plate form an installation relation; the cup base is of a cup-shaped structure with an opening at the upper end, the upper end of the cup base is fixedly connected with the connecting base, the cup base extends downwards into the inner cavity of the container and corresponds to the upper part of the inner cavity of the container, a bottom hole is formed in the bottom of the cup base, and the conveying pipe movably penetrates through the bottom hole and is communicated with the inner cavity of the container; the heat-insulating layer of the electric heating element coats the outer wall of the conveying pipe, the conveying pipe and the heat-insulating layer movably penetrate through the connecting seat, the heat-insulating layer also extends into the cup seat, and the electric control component is electrically connected with the electric heating element and used for controlling the electric heating element.

Furthermore, an air outlet pipe is arranged on the connecting seat, the lower end of the air outlet pipe is communicated with the inner cavity of the container, and the upper end of the air outlet pipe is connected with the external atmosphere.

Further, the connecting seat downside includes the last flange dish of connecting together with butt joint ring flange detachably assembly, go up the flange dish and be used for sealed container's upper end for apron column structure, go up the flange dish of connecting and be equipped with the through-hole that can hold conveyer pipe and heat preservation activity and pass, the cup upper end links to each other with the downside of last flange dish of connecting, and through-hole and cup upper end intercommunication, the flange dish is worn to adorn by the outlet duct.

Furthermore, the upper side of the connecting seat is provided with an abutting flange protruding towards the outer side, and the abutting flange is detachably erected on the bracket.

Furthermore, the connecting seat is of an upright hollow cylindrical structure, the connecting seat is provided with lightening holes, the conveying pipe and the electric heating element both penetrate through an inner cavity of the connecting seat, and the upper end of the air outlet pipe penetrates out of the lightening holes.

Further, the lower end of the conveying pipe is flush with the bottom of the cup seat.

Furthermore, the lifting mechanism comprises a transfer frame, a vertical driving mechanism arranged on the transfer frame, an electric cabinet arranged on the transfer frame and used for controlling the output action of the vertical driving mechanism, and a lifting platform horizontally arranged and arranged at the output end of the vertical driving mechanism, wherein the lifting platform is used for supporting the container.

Furthermore, a pair of symmetrically arranged idler wheels for supporting the ground are movably mounted at the front end and the rear end of the transfer frame, and the transfer frame is provided with an upwards extending armrest handle.

The invention has the beneficial effects that: the conveying pipe can be prevented from being affected by the disassembling offset force when the container is disassembled, and the service life of the conveying pipe is ensured; when the container is fully loaded, the butt joint flange plate can be detached from the upper connecting flange plate, and the conveying pipe can movably penetrate through the bottom hole and is communicated with the inner cavity of the container, so that the container can be detached downwards when the container is detached, the detaching direction of the container is well controlled, and the conveying pipe cannot be affected by detaching offset force; moreover, because the electric heating element with the heat-insulating layer is arranged, the conveying pipe can be continuously heated, the heat of the conveying pipe can be kept not to be easily dissipated, and the fluidity of the medium can be kept; because the heat-insulating layer also extends into the cup base, the heat of the conveying pipe section corresponding to the cup base can not be dissipated, and the fluidity of the medium in the conveying pipe is fully ensured.

Drawings

Fig. 1 is a perspective layout view of the present invention.

Fig. 2 is a side layout view of the present invention.

Fig. 3 is a schematic view of the arrangement of the electric heating element and the insulating layer.

Fig. 4 is an enlarged view of a portion a in fig. 3.

In the figure, 1 container, 2 delivery pipes, 3 lifting mechanisms, 301 lifting platform, 302 vertical driving mechanisms, 303 transport frame, 304 rollers, 305 electric control box, 306 armrest handle, 4 brackets, 5 lap flanges, 6 connecting seats, 6a lightening holes, 7 upper connecting flange plates, 7a through holes, 8 butt joint flange plates, 9 cup seats, 9a bottom holes, 10 air outlet pipes, 11 electric control parts, 12 electric heating elements and 13 heat insulation layers.

Detailed Description

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

As shown in fig. 1-4, a high temperature corrosive medium collecting and transporting device comprises a container 1 for collecting high temperature corrosive medium and having an open top, a hard delivery pipe 2 for delivering high temperature corrosive medium into the container 1, a movable lifting mechanism 3 for supporting the container 1, a bracket 4, a connecting seat 6, a butt flange 8, a cup holder 9, an electric control part 11, and an electric heating element 12 with an insulating layer 13.

The bracket 4 is fixedly arranged, the connecting seat 6 is detachably arranged on the bracket 4, the butt joint flange plate 8 and the upper end of the container 1 are combined into a whole, the butt joint flange plate 8 is detachably arranged on the connecting seat 6, and the connecting seat 6 seals the upper end of the container 1 when forming an installation relation with the butt joint flange plate 8. In order to avoid that the container 1 causes a large loss of heat when collecting the high-temperature corrosive medium.

Above-mentioned cup 9 is upper end open-ended cup structure, and cup 9 upper end links to each other with connecting seat 6 is fixed, and cup 9 stretches into in the 1 inner chamber of container and correspond 1 inner chamber upper portion of container downwards, and cup 9 bottom is equipped with bottom outlet 9a, and conveyer pipe 2 activity passes bottom outlet 9a and communicates with the inner chamber of container 1.

The outer wall of the conveying pipe 2 is coated by the heat-insulating layer 13 of the electric heating element 12, the conveying pipe 2 and the heat-insulating layer 13 movably penetrate through the connecting seat 6, the heat-insulating layer 13 also extends into the cup seat 9, and the electric control part 11 is electrically connected with the electric heating element 12 and is used for controlling the electric heating element 12.

The connecting base 6 is provided with an air outlet pipe 10, the lower end of the air outlet pipe 10 is communicated with the inner cavity of the container 1, and the upper end of the air outlet pipe 10 is connected with the external atmosphere. The hot gas can be discharged in time when the high-temperature corrosive medium is collected so as to keep the pressure balance of the inner cavity of the container 1.

The lower side of the connecting seat 6 comprises an upper connecting flange 7 detachably assembled with a butt joint flange 8, the upper connecting flange 7 is of a cover plate-shaped structure and is used for the upper end of the sealed container 1, the upper connecting flange 7 is provided with a through hole 7a capable of allowing the conveying pipe 2 and the heat preservation layer 13 to movably penetrate, the upper end of the cup seat 9 is connected with the lower side of the upper connecting flange 7, the through hole 7a is communicated with the upper end of the cup seat 9, and the air outlet pipe 10 penetrates through the upper connecting flange 7.

The upper side of the connecting base 6 is provided with a leaning flange 5 protruding towards the outside, and the leaning flange 5 is detachably erected on the bracket 4 to support the connecting base 6.

The connecting seat 6 is arranged into a vertical hollow cylindrical structure, the connecting seat 6 is provided with lightening holes 6a, the conveying pipe 2 and the electric heating element 12 both penetrate through the inner cavity of the connecting seat 6, and the upper end of the air outlet pipe 10 penetrates out of the lightening holes 6 a. The lightening holes 6a lighten the weight of the connecting base 6, and the connecting base 6 is provided in an upright hollow cylindrical structure, so that the weight is light and the load of the bracket 4 is lightened.

The lower end of the delivery pipe 2 is flush with the bottom of the cup seat 9.

The lifting mechanism 3 comprises a transfer frame 303, a vertical driving mechanism 302 arranged on the transfer frame 303, an electric cabinet 305 arranged on the transfer frame 303 and used for controlling the output action of the vertical driving mechanism 302, and a lifting platform 301 horizontally arranged and arranged at the output end of the vertical driving mechanism 302, wherein the lifting platform 301 is used for supporting the container 1. After the container 1 is removed, the electric control box 305 is operated to activate the vertical driving mechanism 302, and the lifting platform 301 and the container 1 are lowered by the vertical driving mechanism 302, so that the full container 1 can be conveniently transported, the lifting mechanism 3 can be used for loading the empty container 1, and the lifting platform 301 can accurately position the container 1.

A pair of symmetrically arranged rollers 304 for supporting the ground is movably mounted at the front end and the rear end of the transfer frame 303, and an upwardly extending armrest handle 306 is mounted on the transfer frame 303.

When container 1 is fully loaded, can pull down butt joint flange 8 from last connection flange 7, because conveyer pipe 2 movably passes bottom hole 9a and communicates with the inner chamber of container 1, when dismantling container 1, can dismantle container 1 downwards, control the dismantlement direction of container 1, conveyer pipe 2 just can not receive the effect of dismantling the skew power.

Moreover, because the electric heating element 12 with the heat-insulating layer 13 is arranged, the conveying pipe 2 can be continuously heated, the heat of the conveying pipe 2 can be kept not to be easily dissipated, and the fluidity of the medium can be kept; because the insulating layer 13 also extends into the cup seat 9, the heat of the section of the conveying pipe 2 corresponding to the cup seat 9 can not be dissipated, and the fluidity of the medium in the conveying pipe 2 is fully ensured.

While the preferred embodiments of the present invention have been described, those skilled in the art will appreciate that various changes and modifications can be made therein without departing from the spirit and scope of the invention as defined by the appended claims.

Claims (8)

1. The utility model provides a collection and transportation device of high temperature corrosion medium, includes the container (1) that is used for collecting high temperature corrosion medium, the upper end is open structure, still includes the conveyer pipe (2) that is used for carrying high temperature corrosion medium in container (1), stereoplasm, still includes that the mobilizable lifting mechanism (3) that are used for holding container (1), its characterized in that: the cup is characterized by also comprising a bracket (4), a connecting seat (6), a butt joint flange plate (8), a cup seat (9), an electric control component (11) and an electric heating element (12) with a heat-insulating layer (13);

the bracket (4) is fixedly arranged, the connecting seat (6) is detachably arranged on the bracket (4), the butt joint flange (8) is combined with the upper end of the container (1) into a whole, the butt joint flange (8) is detachably arranged on the connecting seat (6), and the connecting seat (6) seals the upper end of the container (1) when forming an installation relation with the butt joint flange (8);

the cup seat (9) is of a cup-shaped structure with an opening at the upper end, the upper end of the cup seat (9) is fixedly connected with the connecting seat (6), the cup seat (9) extends downwards into the inner cavity of the container (1) and is positioned at the upper part of the inner cavity of the container (1), a bottom hole (9a) is formed in the bottom of the cup seat (9), and the conveying pipe (2) movably penetrates through the bottom hole (9a) and is communicated with the inner cavity of the container (1);

the outer wall of the conveying pipe (2) is coated with the heat-insulating layer (13) of the electric heating element (12), the conveying pipe (2) and the heat-insulating layer (13) movably penetrate through the connecting seat (6), the heat-insulating layer (13) also extends into the cup seat (9), and the electric control part (11) is electrically connected with the electric heating element (12) and is used for controlling the electric heating element (12).

2. A high temperature corrosive medium container as set forth in claim 1, wherein: an air outlet pipe (10) is installed on the connecting seat (6), the lower end of the air outlet pipe (10) is communicated with the inner cavity of the container (1), and the upper end of the air outlet pipe (10) is connected with the external atmosphere.

3. A high temperature corrosive medium container as set forth in claim 2, wherein: connecting seat (6) downside includes and assembles last flange plate (7) together with butt joint ring flange (8) detachably, go up flange plate (7) and be used for the upper end of sealed container (1) for lapping the column structure, it is equipped with through-hole (7a) that can hold conveyer pipe (2) and heat preservation (13) activity and pass to go up flange plate (7), cup (9) upper end links to each other with the downside of last flange plate (7), and through-hole (7a) and cup (9) upper end intercommunication, outlet duct (10) pass and connect flange plate (7) on.

4. A high temperature corrosive medium container as set forth in claim 1, wherein: the upside of connecting seat (6) is equipped with outside direction convex to take and lean on flange (5), it erects on bracket (4) to take to lean on flange (5) can dismantle.

5. A high temperature corrosive medium container as set forth in claim 3, wherein: the connecting seat (6) is of an upright hollow cylindrical structure, the connecting seat (6) is provided with lightening holes (6a), the conveying pipe (2) and the electric heating element (12) penetrate through an inner cavity of the connecting seat (6), and the upper end of the air outlet pipe (10) penetrates out of the lightening holes (6 a).

6. A high temperature corrosive medium container as set forth in claim 1, wherein: the lower end of the delivery pipe (2) is flush with the bottom of the cup seat (9).

7. A high temperature corrosive medium container as set forth in claim 1, wherein: the lifting mechanism (3) comprises a transfer frame (303), a vertical driving mechanism (302) installed on the transfer frame (303), an electric cabinet (305) installed on the transfer frame (303) and used for controlling the output action of the vertical driving mechanism (302), and a lifting platform (301) horizontally arranged and installed at the output end of the vertical driving mechanism (302), wherein the lifting platform (301) is used for supporting the container (1).

8. A high temperature corrosive medium container as set forth in claim 7, wherein: the front end and the rear end of the transfer frame (303) are respectively movably provided with a pair of rollers (304) which are symmetrically arranged and used for supporting the ground, and the transfer frame (303) is provided with an upward extending armrest handle (306).

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