CN113998469B

CN113998469B - Chemical raw material sampling and extracting device

Info

Publication number: CN113998469B
Application number: CN202111249232.7A
Authority: CN
Inventors: 曹和生; 曹超; 曾安定
Original assignee: Heshan Jialong Chaoxiangyue Chemical Co ltd
Current assignee: Heshan Jialong Chaoxiangyue Chemical Co ltd
Priority date: 2021-10-26
Filing date: 2021-10-26
Publication date: 2023-08-11
Anticipated expiration: 2041-10-26
Also published as: CN113998469A

Abstract

The invention relates to the technical field of sampling equipment, and discloses a chemical raw material sampling and extracting device which comprises a device main body, a butt joint device, a feeding device, a conveying device, a suction device, a power device and a storage box. This industrial chemicals sampling extraction device, through opening the valve that does not install sealed cavity one side conveyer pipe, make the raw materials get into the conveyer pipe by the pay-off hole under auger transport, get into the bin at last, when the raw materials is liquid, then open the valve of sealed cavity one side conveyer pipe, and cup joint the driving belt tail end in the cover wheel, along with driving motor drives the cover wheel rotation of gear front end, driving the connecting rod rotation is started to driving to the driving belt, the connecting rod drives turbine leaf and rotates in sealed cavity inboard, the air in the inserted pipe that the extraction conveyer pipe front end is connected forms the negative pressure, liquid upwards gets into the conveyer pipe and gets into the bin under the auger rotation drive and the negative pressure suction simultaneous action this moment, the beneficial effect that can extract multiple form raw materials has been reached.

Description

Chemical raw material sampling and extracting device

Technical Field

The invention relates to the technical field of sampling equipment, in particular to a chemical raw material sampling and extracting device.

Background

The chemical raw materials are of various kinds and wide in application range, and can be generally divided into two main kinds of organic chemical raw materials and inorganic chemical raw materials, wherein the main raw materials of inorganic chemical products are chemical minerals such as sulfur, sodium, phosphorus, potassium, calcium and the like, coal, petroleum, natural gas, air, water and the like, and in addition, byproducts and wastes of various industrial departments are also raw materials of inorganic chemical industry, such as: the ammonia contained in the coke oven gas in the coking production process in the iron and steel industry can be recovered by sulfuric acid to prepare ammonium sulfate, and the sulfur dioxide in the smelting waste gas of chalcopyrite, galena and sphalerite can be used for producing sulfuric acid and the like, and a sampling and extracting device is required to be used for sampling and detecting the industrial raw materials in the production process of the industrial raw materials.

At present, the detection device relies on pumping when using, leads to remaining chemical solution to remain in the device and is difficult to clear up after the extraction is finished, and current device can only extract liquid chemical raw materials simultaneously, and to granule or dust can't extract, need take out in addition the device to current device uses the suction tube to take out the back, under differential pressure effect when taking out the body in taking out the raw materials pond, the chemical solution of backward flow is sputtered easily.

Disclosure of Invention

(one) solving the technical problems

Aiming at the defects of the prior art, the invention provides the chemical raw material sampling and extracting device which has the advantages of convenient and quick cleaning device, capability of extracting various raw materials, capability of avoiding the sputtering of a reflux solution and the like, and solves the technical problems.

Technical proposal

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides a chemical raw material sampling extraction device, includes device main part, interfacing apparatus, loading attachment, conveyor, suction device, power device and bin, device main part bottom sets up interfacing apparatus, interfacing apparatus includes spigot, opening, sealing port and pay-off hole, the opening is seted up in the spigot bottom surface, the sealing port sets up in the spigot top surface, the pay-off hole sets up in the spigot both sides, loading attachment sets up in the spigot top surface, loading attachment includes auger, sealing block and first arbor wheel, auger head end is located the inboard and the middle-end sealing block that connects the sealing port that sets up of spigot, first arbor wheel sets up in the auger top, conveyor sets up in the device main part both sides, conveyor includes conveyer pipe and valve, conveyer pipe head end connects the pay-off hole, the valve sets up in the conveyer pipe front end, suction device sets up in the inboard middle-end of conveyer pipe, suction device includes seal chamber, impeller, connecting rod and driving belt, seal chamber sets up in the conveyer pipe middle-end, turbine impeller motor inboard sets up in the gear wheel inboard and sets up in the top surface and sets up in the gear wheel drive pulley, the power transmission pulley is set up in the top surface, the power transmission pulley is connected to the top surface, and is set up in the power transmission pulley, and is connected to the top surface, and is connected to the power device sets up, the input end of the storage box is connected with the tail end of the conveying pipe.

Preferably, the insertion tube is a hard tube body made of anti-corrosion materials, the opening penetrates through the bottom surface of the insertion tube and is communicated with the tail end of the auger, the sealing opening penetrates through the top surface of the insertion tube and is matched with the head end of the auger on the inner side, and the feeding holes are symmetrically formed in two sides of the insertion tube.

According to the technical scheme, the plugging tube is inserted into the raw material pool, and the opening is immersed into the solution or the particle pile.

Preferably, the auger is rotationally connected inside the plug-in pipe, the sealing block is in sealing connection with the connection part of the auger and the sealing port, and the first shaft wheel is fixedly arranged on the top surface of the auger and is rotationally connected with the tail end of the hinge.

Through above-mentioned technical scheme, drive the wheel of a number through the hinge rotation, synchronous drive auger when the wheel of a number rotates, carry the granule from the opening part to the inboard top of pegging graft pipe through the auger rotation, further sealing block is used for sealing the mouth, prevents that the raw materials from spilling over from the sealing mouth.

Preferably, the front end of the conveying pipe is connected with the feeding hole in a sealing way, and the valve is connected to the front end of the conveying pipe in a rotating way and is close to the feeding hole.

Through the technical scheme, when the chemical raw material is the particle, a valve of a conveying pipe at one side without the sealing chamber is opened, so that the raw material enters the conveying pipe from a feeding hole under the conveying of the auger and finally enters the storage box from the conveying pipe.

Preferably, the sealing chamber is arranged at the middle end of the inside of the conveying pipe at one side, the turbine blade is rotationally connected to the inner side of the sealing chamber and fixedly connected with a connecting rod at the axis, the connecting rod penetrates through and rotationally connects with the conveying pipe, and the head end of the driving belt is sleeved with the connecting rod and the tail end of the driving belt is sleeved with the sleeve wheel.

Through the technical scheme, when the raw materials are liquid, then open the valve of sealed cavity one side conveyer pipe to cup joint the driving belt tail end in the cover wheel, this moment is along with driving motor drives the cover wheel rotation of gear front end, driving belt begins the transmission, it is rotatory to drive the connecting rod, the connecting rod drives the turbine leaf this moment, the turbine leaf rotates the air of the connection plug pipe of extraction conveyer pipe front end in sealed cavity inboard and forms the negative pressure, liquid upwards gets into the conveyer pipe and finally gets into the bin under the simultaneous effect of auger rotation drive and negative pressure suction this moment, when the device main part stops sampling, because the auger is the spirochete, the inboard remaining raw materials of plug pipe is down-flowing along the auger guide this moment, can not direct downward impact, cause the splash.

Preferably, the power box is located right above the sealing chamber, the driving motor is installed at the middle end of the inner side of the power box and the output end of the driving motor is connected with the gear, and the sleeve wheel is fixedly connected with the front end axle center of the gear and is located at the outer side of the power box.

Through above-mentioned technical scheme, through the gear with its output rotation when normally starting driving motor.

Preferably, the side wall of the driven wheel is meshed with the gear, the top surface of the driven wheel is fixedly connected with a second shaft wheel, the axis of the second shaft wheel is fixedly connected with the top surface of the inner side of the power box, and the head end of the hinge is rotatably connected with the second shaft wheel.

Through above-mentioned technical scheme, through the rotatory driving from the driving wheel of gear, further from the synchronous rotation of driving No. two arbor wheels of driving, through No. two arbor wheels rotation, drive the hinge rotation this moment to drive No. one arbor wheels by the hinge, thereby realize that the auger is rotatory.

Preferably, the storage box is connected with the tail end of the conveying pipe in a sealing way.

Through above-mentioned technical scheme, through storage box sealing connection conveyer pipe, reveal when preventing the raw materials and carry, the storage box is demountable installation simultaneously, takes off the storage box after the sampling finishes, inspects, takes off the storage box access water pipe when needs wash, again with drive belt sleeve wheel to reverse driving motor makes the washing liquid in the turbine blade reverse extraction water pipe, leads the washing liquid to pegging graft the pipe from the conveyer pipe water conservancy diversion, and follow auger rotatory downflow whole washing.

Compared with the prior art, the invention provides a chemical raw material sampling and extracting device, which has the following beneficial effects:

1. this industrial chemicals sampling extraction device, through the time with drive belt sleeve wheel to reverse driving motor makes turbine blade reversal draw the washing liquid in the water pipe, with the washing liquid water conservancy diversion from the conveyer pipe to the pegging graft pipe, and follow the rotatory downflow of auger and wholly wash, reached the beneficial effect of belt cleaning device convenient and fast.

2. This industrial chemicals sampling extraction device, through opening the valve that does not install sealed cavity one side conveyer pipe, make the raw materials get into the conveyer pipe by the pay-off hole under the auger is carried, and get into the bin by the conveyer pipe at last, when the raw materials is liquid, then open the valve of sealed cavity one side conveyer pipe, and cup joint the driving belt tail end in the cover wheel, at this moment along with the cover wheel rotation of driving motor drive gear front end, driving belt begins the transmission, drive the connecting rod rotation, the connecting rod drives the turbine leaf this moment, the turbine leaf rotates the air of the connecting tube of extraction conveyer pipe front end connection at sealed cavity inboard and forms the negative pressure, liquid at this moment rotates and drives and negative pressure suction simultaneously under the effect upwards gets into the conveyer pipe and finally gets into the bin, the beneficial effect that can extract multiple form raw materials has been reached.

3. This industrial chemicals sampling extraction device, when stopping sampling through the device main part, because the auger is the spirochaeta, the inboard remaining raw materials of grafting pipe is along auger guide downflow this moment, can not direct downward impact, causes the sputtering, has reached the beneficial effect that avoids backward flow solution to sputter.

Drawings

FIG. 1 is a schematic elevational view in cross-section of the overall structure of the present invention;

FIG. 2 is a schematic illustration of a cross-sectional view of a plug tube structure according to the present invention;

FIG. 3 is a schematic front cross-sectional view of the auger structure of the present invention;

FIG. 4 is a schematic elevational view in cross-section of the conveyor of the present invention;

FIG. 5 is a schematic illustration of a power plant of the present invention in front cross-section;

fig. 6 is a schematic top view of the hinge structure of the present invention.

Wherein: 1. a device body; 2. a docking device; 201. a connecting pipe is inserted; 202. an opening; 203. sealing the mouth; 204. a feeding hole; 3. a feeding device; 301. an auger; 302. a sealing block; 303. a first shaft wheel; 4. a conveying device; 401. a delivery tube; 402. a valve; 5. a suction device; 501. sealing the chamber; 502. turbine blades; 503. a connecting rod; 504. a drive belt; 6. a power device; 601. a power box; 602. a driving motor; 603. a gear; 604. a sleeve wheel; 605. driven wheel; 606. a second wheel; 607. a hinge; 7. a storage box.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1-6, an apparatus for sampling and extracting chemical raw materials comprises a main body 1, a butt joint device 2, a feeding device 3, a conveying device 4, a suction device 5, a power device 6 and a storage box 7, wherein the butt joint device 2 is arranged at the bottom of the main body 1, the butt joint device 2 comprises a butt joint pipe 201, an opening 202, a sealing opening 203 and a feeding hole 204, the opening 202 is arranged on the bottom surface of the butt joint pipe 201, the sealing opening 203 is arranged on the top surface of the butt joint pipe 201, the feeding hole 204 is arranged on two sides of the butt joint pipe 201, the feeding device 3 is arranged on the top surface of the butt joint pipe 201, the feeding device 3 comprises a packing auger 301, a sealing block 302 and a first shaft wheel 303, the head end of the packing auger 301 is positioned on the inner side of the butt joint pipe 201, the middle end of the packing block 302 is connected with the sealing opening 203, the first shaft wheel 303 is arranged on the top of the packing auger 301, the conveying device 4 is arranged on two sides of the main body 1, the conveying device 4 comprises a conveying pipe 401 and a valve 402, the front end of the conveying pipe 401 is connected with the feeding hole 204, the valve 402 is arranged at the front end of the conveying pipe 401, the suction device 5 is arranged at the middle end of the inner side of the conveying pipe 401, the suction device 5 comprises a sealing cavity 501, a turbine blade 502, a connecting rod 503 and a transmission belt 504, the sealing cavity 501 is arranged at the middle end of the conveying pipe 401, the turbine blade 502 is arranged at the inner side of the sealing cavity 501 and is connected with the connecting rod 503 in an axial mode, the front end of the connecting rod 503 is positioned at the outer side of the conveying pipe 401 and is connected with the transmission belt 504, the power device 6 is arranged at the top surface of the conveying pipe 401, the power device 6 comprises a power box 601, a driving motor 602, a gear 603, a sleeve wheel 604, a driven wheel 605, a second shaft wheel 606 and a hinge 607, the power box 601 is arranged at the top surface of the conveying pipe 401, the driving motor 602 is arranged at the inner side of the power box 601 and is connected with the gear 603, the front end of the gear 603 is provided with a sleeve wheel 604 which is meshed with the transmission belt 504, the top surface of the gear 603 is connected with the driven wheel 605, the top surface of the driven wheel 605 is provided with a second shaft wheel 606, the second shaft wheel 606 is provided with a hinge 607 connected with the first shaft wheel 303, and the input end of the storage box 7 is connected with the tail end of the conveying pipe 401.

Specifically, the plugging tube 201 is a hard tube body made of an anti-corrosion material, the opening 202 is formed on the bottom surface of the plugging tube 201 in a penetrating manner and communicated with the tail end of the auger 301, the sealing opening 203 is formed on the top surface of the plugging tube 201 in a penetrating manner and is matched with the head end of the auger 301 on the inner side, and the feeding holes 204 are symmetrically formed on two sides of the plugging tube 201.

Specifically, auger 301 rotates to connect in inside grafting pipe 201, sealing block 302 sealing connection is in auger 301 and sealing port 203 junction, no. one arbor wheel 303 fixed mounting is in auger 301 top surface and rotates the end of connection hinge 607, the advantage is that rotate through hinge 607 and drive No. one arbor wheel 303, no. one arbor wheel 303 rotates the time synchronous drive auger 301, carry the granule body from opening 202 to the inboard top of grafting pipe 201 through auger 301 rotation, further sealing block 302 is used for sealing port 203, prevent that the raw materials from spilling over from sealing port 203.

Specifically, the front end of the conveying pipe 401 is connected with the feeding hole 204 in a sealing way, and the valve 402 is connected to the front end of the conveying pipe 401 in a rotating way and is close to the feeding hole 204.

Specifically, the sealed cavity 501 is opened at the middle end inside the one-side conveying pipe 401, the turbine blade 502 is rotationally connected to the inner side of the sealed cavity 501 and fixedly connected with the connecting rod 503 at the axis, the connecting rod 503 penetrates through and rotates to connect with the conveying pipe 401, the head end of the driving belt 504 is sleeved with the connecting rod 503 and the tail end is sleeved with the sleeve wheel 604, when the raw material is liquid, the valve 402 of the one-side conveying pipe 401 of the sealed cavity 501 is opened, the tail end of the driving belt 504 is sleeved with the sleeve wheel 604, at the moment, the driving motor 602 drives the sleeve wheel 604 at the front end of the gear 603 to rotate, the driving belt 504 starts to drive the connecting rod 503 to rotate, at the moment, the connecting rod 503 drives the turbine blade 502 to rotate at the inner side of the sealed cavity 501 to draw the air of the front end of the conveying pipe 401 to form negative pressure, at the moment, the liquid is driven by the rotation of the auger 301 and the negative pressure suction to enter the conveying pipe 401 upwards and finally enter the storage box 7, when the device main body 1 stops sampling, and as the auger 301 is a spiral, the raw material remained at the inner side of the auger 201 is guided to flow downwards along the auger 301, and does not directly impact downwards, and sputtering is not caused.

Specifically, the power box 601 is located right above the sealed cavity 501, the driving motor 602 is installed at the middle end of the inner side of the power box 601 and the output end is connected with the gear 603, the sleeve wheel 604 is fixedly connected to the front end axle center of the gear 603 and located on the outer side of the power box 601, and the advantage is that the gear 603 rotates along with the output end when the driving motor 602 is started normally.

Specifically, the side wall of the driven wheel 605 is meshed with the gear 603 and the top surface is fixedly connected with the second shaft wheel 606, the axle center of the second shaft wheel 606 is fixedly connected with the top surface of the inner side of the power box 601, and the head end of the hinge 607 is rotationally connected with the second shaft wheel 606.

Specifically, the storage box 7 is connected to the tail end of the conveying pipe 401 in a sealing manner, and has the advantages that the storage box 7 is connected to the conveying pipe 401 in a sealing manner, leakage is prevented during raw material conveying, meanwhile, the storage box 7 is detachably installed, the storage box 7 is taken down after sampling is completed, inspection is performed, the storage box 7 is taken down to be connected with a water pipe when cleaning is needed, the transmission belt 504 is sleeved with the sleeve wheel 604 again, the driving motor 602 is reversed to enable the turbine blade 502 to reversely draw cleaning liquid in the water pipe, the cleaning liquid is guided to the plug pipe 201 from the conveying pipe 401, and the cleaning liquid is integrally cleaned along the rotation downstream of the auger 301.

When the device is used, the plug pipe 201 is inserted into a raw material pool and the opening 202 is immersed into a solution or a particle pile, the gear 603 rotates along with the output end of the device when the driving motor 602 is normally started, the valve of the conveying pipe 401 at one side of the sealing cavity 501 is opened when the chemical raw material is a particle body, the raw material enters the conveying pipe 401 from the feeding hole 204 under the conveying of the auger 301 and finally enters the storage box 7 from the conveying pipe 401, when the raw material is liquid, the valve 402 of the conveying pipe 401 at one side of the sealing cavity 501 is opened, the tail end of the driving belt 504 is sleeved on the sleeve wheel 604, at the moment, the driving motor 602 drives the sleeve wheel 604 at the front end of the gear 603 to rotate, the driving belt 504 starts to drive the connecting rod 503 to rotate, at the moment, the connecting rod 503 drives the turbine blade 502 to rotate at the inner side of the sealing cavity 501 to extract air of the plug pipe 201, and at the moment, the liquid enters the conveying pipe 401 and finally enters the storage box 7 under the simultaneous action of the rotation of the auger 301 and the negative pressure suction.

Although embodiments of the present invention have been shown and described, it will be understood by those skilled in the art that various changes, modifications, substitutions and alterations can be made therein without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a chemical raw material sampling extraction device, includes device main part (1), interfacing apparatus (2), loading attachment (3), conveyor (4), suction device (5), power device (6) and bin (7), its characterized in that: the device comprises a device body (1), wherein a butt joint device (2) is arranged at the bottom of the device body (1), the butt joint device (2) comprises an insertion pipe (201), an opening (202), a sealing port (203) and a feeding hole (204), the opening (202) is formed in the bottom surface of the insertion pipe (201), the sealing port (203) is formed in the top surface of the insertion pipe (201), the feeding hole (204) is formed in two sides of the insertion pipe (201), a feeding device (3) is arranged on the top surface of the insertion pipe (201), the feeding device (3) comprises a packing auger (301), a sealing block (302) and a first shaft wheel (303), the head end of the packing auger (301) is located on the inner side of the insertion pipe (201) and is provided with the sealing block (302) connected with the sealing port (203), the first shaft wheel (303) is arranged on the top of the packing auger (301), a conveying device (4) is arranged on two sides of the device body (1), the conveying device (4) comprises a conveying pipe (401) and a valve (402), the head end of the feeding device (401) is connected with the feeding hole (204) and the valve (204) is arranged on the inner side of the packing device (5), and the suction device (401) comprises a suction chamber (502) and a suction chamber (5) Connecting rod (503) and driving belt (504), sealed cavity (501) set up in conveyer pipe (401) middle-end, turbine leaf (502) set up in sealed cavity (501) inboard and axle center connection connecting rod (503), connecting rod (503) head end is located conveyer pipe (401) outside and connects driving belt (504), power device (6) set up in conveyer pipe (401) top surface, power device (6) include headstock (601), driving motor (602), gear (603), cover wheel (604), from driving wheel (605), no. two arbor wheels (606) and hinge (607), headstock (601) set up in conveyer pipe (401) top surface, driving motor (602) set up in headstock (601) inboard and output connection gear (603), gear (603) front end sets up cover wheel (604) of meshing driving belt (504), driven wheel (605) are connected to gear (603) top surface, no. two arbor wheels (606) set up No. two arbor wheels (606) and connect No. one arbor wheels (303) tail end (303), conveyer pipe (7) are connected to storage tank (401).

2. The chemical raw material sampling and extracting device according to claim 1, wherein: the plug tube (201) is a hard tube body made of anti-corrosion materials, the opening (202) is formed in the bottom surface of the plug tube (201) in a penetrating mode and communicated with the tail end of the auger (301), the sealing opening (203) is formed in the top surface of the plug tube (201) in a penetrating mode and is matched with the head end of the auger (301) on the inner side of the plug tube, and the feeding holes (204) are symmetrically formed in two sides of the plug tube (201).

3. The chemical raw material sampling and extracting device according to claim 1, wherein: the auger (301) is rotationally connected inside the plug-in pipe (201), the sealing block (302) is connected to the connection part of the auger (301) and the sealing port (203) in a sealing mode, and the first shaft wheel (303) is fixedly arranged on the top surface of the auger (301) and rotates to be connected with the tail end of the hinge (607).

4. The chemical raw material sampling and extracting device according to claim 1, wherein: the front end of the conveying pipe (401) is connected with the feeding hole (204) in a sealing mode, and the valve (402) is connected to the front end of the conveying pipe (401) in a rotating mode and is close to the feeding hole (204).

5. The chemical raw material sampling and extracting device according to claim 1, wherein: the sealing chamber (501) is arranged at the middle end inside the conveying pipe (401) at one side, the turbine blade (502) is rotationally connected to the inner side of the sealing chamber (501) and fixedly connected with the connecting rod (503) at the axis, the connecting rod (503) penetrates through and rotationally connects with the conveying pipe (401), and the head end of the driving belt (504) is sleeved with the connecting rod (503) and the tail end of the driving belt is sleeved with the sleeve wheel (604).

6. The chemical raw material sampling and extracting device according to claim 1, wherein: the power box (601) is located right above the sealing cavity (501), the driving motor (602) is installed at the middle end of the inner side of the power box (601) and is connected with the gear (603) at the output end, and the sleeve wheel (604) is fixedly connected with the front end axle center of the gear (603) and is located on the outer side of the power box (601).

7. The chemical raw material sampling and extracting device according to claim 1, wherein: the side wall of the driven wheel (605) is meshed with the gear (603) and the top surface is fixedly connected with the second shaft wheel (606), the axis of the second shaft wheel (606) is fixedly connected with the top surface of the inner side of the power box (601), and the head end of the hinge (607) is rotatably connected with the second shaft wheel (606).

8. The chemical raw material sampling and extracting device according to claim 1, wherein: the storage box (7) is connected with the tail end of the conveying pipe (401) in a sealing mode.