CN216187561U - Photoelectric material turnover bucket - Google Patents

Abstract

The utility model discloses a photoelectric material turnover bucket, which comprises a heat preservation shell and a sealing mechanism, wherein the sealing mechanism is composed of a sealing shell, channels, sealing plugs, spring blocks, threaded rods, an extrusion block, a feeding pipe and a material sucking pipe, the surface of the shell is welded with the sealing shell, the inner wall of the sealing shell is provided with the two channels, the inner walls of the channels are matched and slidably connected with the sealing plugs, the surfaces of the sealing plugs are fixedly connected with the spring blocks, the inner wall of the sealing shell is matched and slidably connected with the extrusion block, and the surface of the extrusion block is matched and rotatably connected with the threaded rods.

Description

Photoelectric material turnover bucket

Technical Field

The utility model relates to the technical field of turnover barrels, in particular to a turnover barrel made of photoelectric materials.

Background

Photoelectric materials such as high-purity yellow phosphorus, red phosphorus, phosphorus oxychloride, phosphorus trichloride, phosphorus pentoxide and electronic grade phosphoric acid belong to new materials, and due to the particularity of the photoelectric materials, a specific turnover barrel is required for transporting the materials during turnover.

Particularly for the transportation of phosphorus trichloride, phosphorus oxychloride is also called phosphorus oxychloride and phosphorus oxychloride. Molecular formula POCl3, molecular weight 153.33. A colorless transparent fuming liquid. Melting point 2 ℃ and boiling point 105.3 ℃. The relative density was 1.675. Is volatile and has strong pungent smell. Exposed to humid air, and hydrolyzed into phosphoric acid and hydrogen chloride, and white smoke is generated. Is easily decomposed by water and ethanol and releases a large amount of heat and hydrogen chloride. Has strong corrosiveness. This puts high demands on the tightness of the revolving drum.

Patent number CN208963697U discloses a photoelectric material turnover bucket, which comprises a bracket, wherein the inside of the bracket is provided with a bucket body, the top end of the bucket body is connected with a bucket cover, the inside of the bucket body is provided with a baffle, a storage bin is arranged in the bucket body inside the baffle, one side of the storage bin is provided with an inlet pipe, the inlet pipe penetrates and extends to the outside of the baffle, the side surface of the inlet pipe is connected with a connecting pipe, the connecting pipe penetrates and extends to the outside of the bucket body, a first sealing plug is rotationally connected in the external inlet pipe of the baffle, the top end of the first sealing plug is provided with a first connecting rod, the photoelectric material turnover bucket can seal the inlet pipe, the inlet pipe and the outlet pipe by adjusting the position of each sealing plug, the structure is simpler, thereby being convenient for the operation and use of a user, and by changing the pressure inside the storage bin, thereby carry out the access operation of material to can effectually place and store the inside material in storehouse and be polluted.

The photoelectric material turnover barrel has the following defects: when the photoelectric material turnover barrel is used, the interface part is very easy to destroy the whole sealing property during storage and taking out. To this end, we propose a photovoltaic material turnover bucket.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims to provide a photoelectric material turnover barrel which can effectively solve the problems in the background technology.

In order to achieve the purpose, the utility model adopts the technical scheme that:

the utility model provides a photoelectric material turnover bucket, includes the heat preservation shell, still includes sealing mechanism, sealing mechanism specifically comprises sealed shell, passageway, sealing plug, spring block, threaded rod, extrusion piece, inlet pipe and inhale the material pipe, heat preservation shell skin weld has sealed shell, the passageway is installed to the sealed shell inner wall, and the passageway has two, passageway inner wall cooperation sliding connection has the sealing plug, sealing plug fixed surface is connected with the spring block, sealed shell inner wall cooperation sliding connection has the extrusion piece, extrusion piece surface cooperation rotates and is connected with the threaded rod, two the passageway surface is connected with the inlet pipe respectively and inhales the material pipe.

The connecting mechanism is composed of a connecting head, an air bag, a piston, a spherical block and a contact piece; through the connecting mechanism, the whole body still keeps good sealing performance when being connected with the outside.

Furthermore, the surface of the channel is fixedly connected with a connector, the inner wall of the connector is provided with an air bag, the inner wall of the air bag is matched and slidably connected with a piston, the inner wall of the air bag is provided with a spherical block, and the surface of the air bag is provided with a contact piece; when inserting external pipeline, its pipeline surface can produce the extrusion to the contact, forces it to take place the deformation, and at this moment in the gas in the contact will flow into the gasbag, atmospheric pressure can drive the piston and move backward to extrude the spherical piece, can let piston and atmospheric pressure keep relative steady state under the effect of spherical piece elasticity, will force the laminating of contact piece firmly like this and form seal structure at external pipeline surface, so effectively prevented when saving or taking out the material, the influence that external factor produced the material.

Further, a liquid level meter is arranged on the surface of the heat preservation shell; the storage capacity of the materials in the heat-insulating shell can be conveniently observed through the liquid level meter.

Furthermore, a plurality of baffle plates are welded on the inner wall of the heat preservation shell; the baffle effectively prevents the material from generating static electricity due to bumping in the transportation process, and finally influences the material.

Compared with the prior art, the utility model has the following beneficial effects: the threaded rod is rotated to drive the extrusion block on the surface of the threaded rod to move upwards so as to separate the threaded rod from the sealing plug, when the threaded rod is inserted into an external pipeline, the surface of the pipeline can be extruded to the contact piece to force the contact piece to deform, at the moment, gas in the contact piece can flow into the air bag, air pressure can drive the piston to move backwards, so that the spherical block is extruded, the piston and the air pressure can be kept in a relatively stable state under the action of the elastic force of the spherical block, the contact piece can be forced to be firmly attached to the surface of the external pipeline to form a sealing structure, the influence of external factors on materials is effectively prevented when the materials are stored or taken out, the sealing plug on the surface of the feeding pipe can be extruded along with the insertion of the pipeline to force the feeding pipe to be separated from the pipe opening, so that the external pipeline can smoothly pass through the feeding pipe to store the corresponding materials in the heat preservation shell, and the storage condition is observed through the liquid level meter, after the storage is finished, the external pipeline is pulled out outwards under the action of the spring block, the sealing plug can be firmly attached to the surface of the external pipeline until the pipeline is separated from the surface of the feeding pipe, the feeding pipe can be sealed by the sealing plug at the moment, the threaded rod is rotated at the moment, the extrusion block is driven by the threaded rod to be contacted with the sealing plug again to form a fixed structure, the capacity of resisting external force of the whole device is effectively improved, static electricity generated by bumping during the transportation of the material is effectively prevented through the baffle plate, the material is finally influenced, the like, the threaded rod is also rotated when the material is taken out, the external pipeline is inserted, the internal material is extracted outwards through the material suction pipe, the whole device is convenient and fast to operate, and has better capacity of resisting external force, and the whole device can keep a sealed state no matter when the material is taken out or transported through a multiple sealing structure, greatly reducing the loss caused by transportation.

Drawings

Fig. 1 is a schematic view of an overall structure of a photoelectric material transfer drum according to the present invention.

Fig. 2 is a schematic view of the structure of the inner wall of the heat-insulating shell of the photoelectric material turnover bucket.

Fig. 3 is a schematic view of a connector structure of a photoelectric material transfer barrel according to the present invention.

In the figure: 1. A heat preservation shell; 2. a sealing mechanism; 201. sealing the shell; 202. a channel; 203. a sealing plug; 204. a spring block; 205. a threaded rod; 206. extruding the block; 207. a feed pipe; 208. a material suction pipe; 3. a connecting mechanism; 301. a connector; 302. an air bag; 303. a piston; 304. a spherical block; 305. a contact piece; 4. a liquid level meter; 5. a baffle plate.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-3, a photoelectric material turnover bucket comprises a heat preservation shell 1 and a sealing mechanism 2, wherein the sealing mechanism 2 is specifically composed of a sealing shell 201, two channels 202, a sealing plug 203, a spring block 204, a threaded rod 205, an extrusion block 206, a feeding pipe 207 and a suction pipe 208, the sealing shell 201 is welded on the surface of the heat preservation shell 1, the channels 202 are installed on the inner wall of the sealing shell 201, the channels 202 are arranged on the inner wall of the channels 202, the sealing plug 203 is connected to the inner wall of the channels 202 in a sliding manner in a matching manner, the spring block 204 is fixedly connected to the surface of the sealing plug 203, the extrusion block 206 is connected to the inner wall of the sealing shell 201 in a sliding manner in a matching manner, the threaded rod 205 is rotatably connected to the surface of the extrusion block 206, and the feeding pipe 207 and the suction pipe 208 are respectively connected to the surfaces of the two channels 202.

The connecting device further comprises a connecting mechanism 3, wherein the connecting mechanism 3 is specifically composed of a connecting head 301, an air bag 302, a piston 303, a spherical block 304 and a contact piece 305; through the connecting mechanism 3, the whole body still keeps good sealing performance when being connected with the outside.

The surface of the channel 202 is fixedly connected with a connector 301, the inner wall of the connector 301 is provided with an air bag 302, the inner wall of the air bag 302 is matched and slidably connected with a piston 303, the inner wall of the air bag 302 is provided with a spherical block 304, and the surface of the air bag 302 is provided with a contact piece 305; when the external pipeline is inserted, the surface of the pipeline can extrude the contact piece 305 to force the contact piece to deform, at the moment, the gas in the contact piece 305 flows into the air bag 302, the air pressure can drive the piston 303 to move backwards, so that the spherical block 304 is extruded, the piston 303 and the air pressure can keep a relatively stable state under the action of the elastic force of the spherical block 304, the contact piece 305 is forced to be firmly attached to the surface of the external pipeline to form a sealing structure, and the influence of external factors on the material is effectively prevented when the material is stored or taken out.

Wherein, a liquid level meter 4 is arranged on the surface of the heat preservation shell 1; the storage amount of the materials in the heat-insulating shell can be conveniently observed through the liquid level meter 4.

Wherein, the inner wall of the heat preservation shell 1 is welded with a plurality of baffle plates 5; the baffle 5 effectively prevents the materials from generating static electricity due to bumping in the transportation process, and finally influences the materials.

It should be noted that, the present invention is a photoelectric material turnover bucket, the threaded rod 205 is rotated to drive the extrusion block 206 on its surface to move upwards, so as to separate from the sealing plug 203, when the bucket is inserted into an external pipeline, the pipeline surface will extrude the contact 305, forcing it to deform, at this time, the gas in the contact 305 will flow into the air bag 302, the air pressure will drive the piston 303 to move backwards, thereby extruding the spherical block 304, the piston 303 and the air pressure will keep a relatively stable state under the action of the elasticity of the spherical block 304, thus forcing the contact 305 to firmly adhere to the external pipeline surface to form a sealing structure, thus effectively preventing the external factor from affecting the material when the material is stored or taken out, the sealing plug 203 on its surface will be extruded with the insertion of the pipeline, forcing it to leave the mouth of the feeding pipe 207, so that the external pipeline can smoothly pass through the feeding pipe 207, corresponding materials are stored in the heat preservation shell 1, the storage condition is observed through the liquid level meter 4, after the storage is finished, the external pipeline is pulled out outwards under the action of the spring block 204, the sealing plug 203 is firmly attached to the surface of the external pipeline until the pipeline is separated from the surface of the feeding pipe 207, the feeding pipe 207 is also sealed by the sealing plug 203, at the moment, the threaded rod 205 is rotated to drive the extrusion block 206 to be contacted with the sealing plug 203 again, a fixed structure is formed, the overall external force resistance is effectively improved, static electricity generated by bumping in the transportation process of the materials is effectively prevented through the baffle 5, the materials are finally influenced, and the like, the threaded rod 205 is also rotated when the materials are taken out, the external pipeline is inserted, the internal materials are extracted outwards through the suction pipe 208, the whole device is convenient to operate, and has better external force resistance, through multiple seal structure, let whole no matter when the access or in transit, all can keep sealed state, great reduction the loss that the transportation caused.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (5)

1. A photoelectric material turnover barrel comprises a heat preservation shell (1) and is characterized by also comprising a sealing mechanism (2), the sealing mechanism (2) is composed of a sealing shell (201), a channel (202), a sealing plug (203), a spring block (204), a threaded rod (205), an extrusion block (206), a feeding pipe (207) and a suction pipe (208), the surface of the heat preservation shell (1) is welded with a sealing shell (201), the inner wall of the sealing shell (201) is provided with a channel (202), and two channels (202) are provided, the inner wall of the channel (202) is connected with a sealing plug (203) in a matching and sliding way, the surface of the sealing plug (203) is fixedly connected with a spring block (204), the inner wall of the sealing shell (201) is matched and slidably connected with an extrusion block (206), the surface of the extrusion block (206) is matched and rotatably connected with a threaded rod (205), and the surfaces of the two channels (202) are respectively connected with a feeding pipe (207) and a suction pipe (208).

2. The photovoltaic material transfer drum of claim 1, wherein: still include coupling mechanism (3), coupling mechanism (3) specifically by connector (301), gasbag (302), piston (303), spherical piece (304) and contact piece (305) constitute.

3. The photovoltaic material transfer drum of claim 2, wherein: passageway (202) fixed surface is connected with connector (301), gasbag (302) are installed to connector (301) inner wall, gasbag (302) inner wall cooperation sliding connection has piston (303), spherical piece (304) are installed to gasbag (302) inner wall, gasbag (302) surface mounting has contact piece (305).

4. The photovoltaic material transfer drum of claim 1, wherein: and a liquid level meter (4) is arranged on the surface of the heat preservation shell (1).

5. The photovoltaic material transfer drum of claim 1, wherein: the heat preservation shell (1) inner wall welding has separation blade (5), and separation blade (5) have a plurality ofly.

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