CN203899240U - Glyphosate dehydration device - Google Patents

Glyphosate dehydration device Download PDF

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Publication number
CN203899240U
CN203899240U CN201420349361.2U CN201420349361U CN203899240U CN 203899240 U CN203899240 U CN 203899240U CN 201420349361 U CN201420349361 U CN 201420349361U CN 203899240 U CN203899240 U CN 203899240U
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CN
China
Prior art keywords
filtering bodies
rubber ring
dehydration cylinder
inlet pipe
circle
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Expired - Fee Related
Application number
CN201420349361.2U
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Chinese (zh)
Inventor
梁志国
李宏
徐菲
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
SICHUAN HUAYING CHEMICAL CO Ltd
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SICHUAN HUAYING CHEMICAL CO Ltd
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
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Priority to CN201420349361.2U priority Critical patent/CN203899240U/en
Application granted granted Critical
Publication of CN203899240U publication Critical patent/CN203899240U/en
Anticipated expiration legal-status Critical
Expired - Fee Related legal-status Critical Current

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Abstract

The utility model discloses a glyphosate dehydration device. A circle of steel plate ring bodies and a circle of rubber ring bodies are arranged on the inner peripheral wall of a dehydration cylinder body, and the end faces of the steel plate ring bodies are in seamless connection with the end faces of the rubber ring bodies. A circular filtering body and a circular pushing piston are arranged in the dehydration cylinder body, the rubber ring bodies are positioned between the filtering body and the steel plate ring bodies, and the steel plate ring bodies are positioned between the rubber ring bodies and the pushing piston. A circle of rubber coating circle bodies are arranged on the outer diameter surface of the rubber ring body, and a gap exists between the rubber coating circle bodies and the inner diameter surface of the dehydration cylinder body. One side, far away from the rubber ring bodies, of the rubber coating circle bodies is connected with a filtering body support. A water inlet pipe, a first air inlet pipe and a material collecting hole are formed on the outer wall of the dehydration cylinder body between the filtering body and the pushing piston, and a drainage opening is formed in the outer wall of the dehydration cylinder body on one side, far away from the pushing piston, of the filtering body. The glyphosate dehydration device is high in production efficiency, can quickly dehydrate and quickly dry and can automatically discharge during drying.

Description

Glyphosate dewater unit
Technical field
The utility model relates to the glyphosate dewater unit in medication device, and this device can fast dewatering, and reaches the object of rapid draing sediment separate out.
Background technology
What traditional glyphosate dewater unit adopted is a reactor, in this reactor, the precipitation mixture with glyphosate is left standstill in this reactor, then after glyphosate precipitation, the liquid on upper strata is siphoned away, then the glyphosate in heating evaporation reactor, moisture in glyphosate is removed, and then add pure water, rinsing again, again leave standstill, then separated heating dewaters, so repeated multiple times, finally obtain comparatively pure glyphosate powder, this structure and method of operating are comparatively complicated, need a large amount of water supply, therefore, seriously polluted to water, produce length consuming time.
Utility model content
The purpose of this utility model is to provide a kind of glyphosate dewater unit, and this device can fast dewatering, and rapid draing, can self-emptying when dry.
The purpose of this utility model is achieved through the following technical solutions: glyphosate dewater unit, comprise dehydration cylinder, the inner peripheral wall of dehydration cylinder is provided with the steel plate torus of a circle and the plantation rubber ring body of a circle, the end face seamless link of the toric end face of steel plate and plantation rubber ring body, in dehydration cylinder, be also provided with the piston of pushing of circular filtering bodies and circle, rubber ring body is positioned between filtering bodies and steel plate torus, steel plate torus is at plantation rubber ring body and push between piston, the external diametric plane of rubber ring is provided with the rubber coated circle body of a circle, there is gap with dehydration cylinder aperture surface in rubber coated circle body, the internal diameter of rubber coated circle body is greater than the internal diameter of plantation rubber ring body, rubber coated circle body is connected with filtering bodies support away from a side of plantation rubber ring body, filtering bodies support is connected with the output shaft that rotating shaft rotating shaft is motor, motor downside is provided with motor base, motor base slidably connects motor support base, filtering bodies and the dehydration cylinder outer wall of pushing between piston are provided with water inlet pipe, the first air inlet pipe, material collection hole, filtering bodies is provided with discharge outlet away from the dehydration cylinder outer wall of pushing piston one side.
The operation principle of said structure and technical purpose are: drive motor base slides with respect to motor support base, now motor base moves to dehydration cylinder direction, the rotating shaft of motor can drive filtering bodies support, rubber coated circle body moves towards plantation rubber ring body direction, form after crush seal until rubber coated circle body and rubber ring body, stop mobile motor base, now, rubber coated circle body and plantation rubber ring body are tightly connected, steel plate torus prevents plantation rubber ring body transition compression deflection, ensure sealing effectiveness, rubber coated circle body and plantation rubber ring body, the sealing filtration of filtering bodies composition is divided into dehydration cylinder between feed zone and between catchment, filtering bodies and pushing between piston as between feed zone, filtering bodies is between catchment away from a side of pushing piston, now, to have the sedimentary liquid material of glyphosate is given between feed zone by water inlet pipe, then drive and push piston and move to filtering bodies direction, under the filtration of filtering bodies, glyphosate sediment is trapped between feed zone, all the other assorted liquid arrive between catchment through filtering bodies, finally get rid of by discharge outlet, then drive and push piston it is moved away from filtering bodies direction, when reserving the clearance space of the first air inlet pipe insertion, insert the first air inlet pipe between feed zone, and pass into the dry air of HTHP by the first air inlet pipe, make the moisture evaporation in glyphosate sediment, the moisture of evaporation is discharged from discharge outlet, after to be dried, by motor base to moving away from dehydration cylinder direction, rubber coated circle body is separated with plantation rubber ring body, by motor rotating shaft, the rotation of drive filtering bodies, cause the glyphosate being attached in filtering bodies to separate, finally collect glyphosate from material collection hole.
Comparatively thorough for the feed separation in filtering bodies, filtering bodies is provided with the second air inlet pipe away from the dehydration cylinder outer wall of pushing piston one side.The second air inlet pipe passes into the dry air of HTHP, air-flow passes from filtering bodies, the material being attached in filtering bodies is applied to active force, make feed separation, the gap of air-flow through rubber coated circle body and plantation rubber ring body simultaneously, to the blowing of filtering bodies surface, arranges like this and can better remove most material, there is the wind of the second air inlet pipe, can make discharging self-emptying under the effect of wind.
Preferably, the utility model adopts promotion hydraulically extensible machine to drive and pushes piston, pushes piston and is connected with the expansion link that promotes hydraulically extensible machine away from a side of filtering bodies.Push piston and also can adopt all the other drives structure, as motor adds rotational structure.
Preferably, water inlet pipe, the first air inlet pipe, material collection hole are all arranged on steel plate torus and push on the dehydration cylinder outer wall between piston.
Preferably, for the effect of more drying, increase drying efficiency, the end face of giving vent to anger that the first air inlet pipe extends in dehydration cylinder is inclined-plane, this inclined-plane is provided with some ventholes, and this inclined-plane and filtering bodies are the angle that is less than or equal to 30 degree towards the one side of pushing piston.
The utility model has the advantage of: production efficiency is high, good separating effect, the material of obtaining is many, can fast dewatering, rapid draing, can self-emptying when dry.
Brief description of the drawings
Fig. 1 is the utility model original state structural representation.
Structural representation when Fig. 2 is extrusion dehydration state.
Fig. 3 is the structural representation of the first air inlet pipe while carrying out drying regime.
Fig. 4 is the structural representation of the second air inlet pipe while carrying out drying regime.
Fig. 5 is the structural representation of rubber coated circle and filtering bodies
Reference numeral in figure is expressed as: 1, dehydration cylinder; 2, water inlet pipe; 3, the first air inlet pipe; 4, the second air inlet pipe; 5, filtering bodies; 6, filtering bodies support; 7, rotating shaft; 8, motor; 9, motor base; 10, motor support base; 11, discharge outlet; 12, rubber coated circle body; 13, material collection hole; 14, plantation rubber ring body; 15, steel plate torus; 16, push piston; 17, promote hydraulically extensible machine.
Detailed description of the invention
Below in conjunction with embodiment and accompanying drawing, the utility model is described in further detail, but embodiment of the present utility model is not limited to this.
Embodiment 1:
As Figure 1-Figure 5.
Glyphosate dewater unit, comprise dehydration cylinder 1, the inner peripheral wall of dehydration cylinder 1 is provided with the steel plate torus 15 of a circle and the plantation rubber ring body 14 of a circle, the end face seamless link of the end face of steel plate torus 15 and plantation rubber ring body 14, dehydration is also provided with circular filtering bodies 5 and the circular piston 16 of pushing in cylinder 1, plantation rubber ring body 14 is between filtering bodies 5 and steel plate torus 15, steel plate torus 15 is at plantation rubber ring body 14 and push between piston 16, the outer diametric plane of plantation rubber ring body 14 is provided with the rubber coated circle body 12 of a circle, there is gap with dehydration cylinder 1 aperture surface in rubber coated circle body, the internal diameter of rubber coated circle body is greater than the internal diameter of plantation rubber ring body 14, rubber coated circle body is connected with filtering bodies support 6 away from a side of plantation rubber ring body 14, filtering bodies support 6 is connected with rotating shaft 7, rotating shaft 7 is the output shaft of motor 8, motor 8 downsides are provided with motor base 9, motor base 9 slidably connects motor support base 10, filtering bodies 5 and dehydration cylinder 1 outer wall of pushing between piston 16 are provided with water inlet pipe 2, the first air inlet pipe 3, material collection hole 13, filtering bodies 5 is provided with discharge outlet 11 away from dehydration cylinder 1 outer wall of pushing piston 16 1 sides.
The operation principle of said structure and technical purpose are: as Fig. 1 and Fig. 2, drive motor base 9 slides with respect to motor support base 10, now motor base 9 moves to dehydration cylinder 1 direction, 7 of the rotating shafts of motor 8 can drive filtering bodies support 6, rubber coated circle body moves towards plantation rubber ring body 14 directions, form after crush seal until rubber coated circle body and plantation rubber ring body 14, stop mobile motor base 9, now, rubber coated circle body and plantation rubber ring body 14 are tightly connected, steel plate torus 15 prevents plantation rubber ring body 14 transition compression deflections, ensure sealing effectiveness, rubber coated circle body and plantation rubber ring body 14, the sealing filtration that filtering bodies 5 forms is divided into dehydration cylinder 1 between feed zone and between catchment, filtering bodies 5 and pushing between piston 16 as between feed zone, filtering bodies 5 is between catchment away from a side of pushing piston 16, now, to have the sedimentary liquid material of glyphosate is given between feed zone by water inlet pipe 2, as Fig. 2, then drive and push piston 16 and move to filtering bodies 5 directions, under the filtration of filtering bodies 5, glyphosate sediment is trapped between feed zone, all the other assorted liquid arrive between catchment through filtering bodies 5, finally get rid of by discharge outlet 11, as Fig. 3, then drive and push piston 16 it is moved away from filtering bodies 5 directions, when the clearance space that reserves the first air inlet pipe 3 and insert, insert the first air inlet pipe 3 between feed zone, and pass into the dry air of HTHP by the first air inlet pipe 3, make the moisture evaporation in glyphosate sediment, the moisture of evaporation is discharged from discharge outlet 11, as Fig. 4, after to be dried, by motor base 9 to moving away from dehydration cylinder 1 direction, rubber coated circle body is separated with plantation rubber ring body 14, by motor rotating shaft, drive filtering bodies 5 to rotate, cause the glyphosate being attached in filtering bodies 5 to separate, finally collect glyphosate from material collection hole 13.
Comparatively thorough for the feed separation in filtering bodies, filtering bodies 5 is provided with the second air inlet pipe 4 away from dehydration cylinder 1 outer wall of pushing piston 16 1 sides.The second air inlet pipe 4 passes into the dry air of HTHP, air-flow passes from filtering bodies, the material being attached in filtering bodies is applied to active force, make feed separation, the gap of air-flow through rubber coated circle body and plantation rubber ring body 14 simultaneously, to the blowing of filtering bodies surface, arranges like this and can better remove most material, there is the wind of the second air inlet pipe 4, can make discharging self-emptying under the effect of wind.
Preferably, the utility model adopts promotion hydraulically extensible machine 17 to drive and pushes piston 16, pushes piston 16 and is connected with the expansion link that promotes hydraulically extensible machine 17 away from a side of filtering bodies 5.Push piston 16 and also can adopt all the other drives structure, as motor adds rotational structure.
Preferably, water inlet pipe 2, the first air inlet pipe 3, material collection hole 13 are all arranged on steel plate torus and push on dehydration cylinder 1 outer wall between piston 16.
Steel plate torus also can be passed in water inlet pipe 2, the first air inlet pipe 3, material collection hole 13.
Preferably, for the effect of more drying, increase drying efficiency, the end face of giving vent to anger that the first air inlet pipe 3 extends in dehydration cylinder 1 is inclined-plane, this inclined-plane is provided with some ventholes, and this inclined-plane and filtering bodies are the angle that is less than or equal to 30 degree towards the one side of pushing piston 16.As scheme this inclined-plane and filtering bodies are 20 degree angle towards the one side of pushing piston 16.
The number of the first air inlet pipe 3 is more than 3 or 3, waits gap to be evenly distributed on the periphery of dehydration cylinder 1.
The number of the first air inlet pipe 3 also can be 1, and the first air inlet pipe 3 forms coaxitron with water inlet pipe 2.
As mentioned above, can well realize the utility model.

Claims (5)

1. glyphosate dewater unit, it is characterized in that: comprise dehydration cylinder (1), the inner peripheral wall of dehydration cylinder (1) is provided with the steel plate torus (15) of a circle and the plantation rubber ring body (14) of a circle, the end face seamless link of the end face of steel plate torus (15) and plantation rubber ring body (14), what in dehydration cylinder (1), be also provided with circular filtering bodies (5) and circle pushes piston (16), plantation rubber ring body (14) is positioned between filtering bodies (5) and steel plate torus (15), steel plate torus (15) is positioned at plantation rubber ring body (14) and pushes between piston (16), the outer diametric plane of plantation rubber ring body (14) is provided with the rubber coated circle body (12) of a circle, there is gap with dehydration cylinder (1) aperture surface in rubber coated circle body, the internal diameter of rubber coated circle body is greater than the internal diameter of plantation rubber ring body (14), rubber coated circle body is connected with filtering bodies support (6) away from a side of plantation rubber ring body (14), filtering bodies support (6) is connected with rotating shaft (7), rotating shaft (7) is the output shaft of motor (8), motor (8) downside is provided with motor base (9), motor base (9) slidably connects motor support base (10), filtering bodies (5) and dehydration cylinder (1) outer wall of pushing between piston (16) are provided with water inlet pipe (2), the first air inlet pipe (3), material collection hole (13), filtering bodies (5) is provided with discharge outlet (11) away from dehydration cylinder (1) outer wall of pushing piston (16) one sides.
2. glyphosate dewater unit according to claim 1, is characterized in that: filtering bodies (5) is provided with the second air inlet pipe (4) away from dehydration cylinder (1) outer wall of pushing piston (16) one sides.
3. glyphosate dewater unit according to claim 1, is characterized in that: push piston (16) and be connected with the expansion link that promotes hydraulically extensible machine (17) away from a side of filtering bodies (5).
4. glyphosate dewater unit according to claim 1, is characterized in that: water inlet pipe (2), the first air inlet pipe (3), material collection hole (13) are all arranged on steel plate torus and push on dehydration cylinder (1) outer wall between piston (16).
5. glyphosate dewater unit according to claim 1, it is characterized in that: the end face of giving vent to anger that the first air inlet pipe (3) extends in dehydration cylinder (1) is inclined-plane, this inclined-plane is provided with some ventholes, and this inclined-plane and filtering bodies are towards the one side of pushing piston (16) angle that is less than or equal to 30 degree.
CN201420349361.2U 2014-06-27 2014-06-27 Glyphosate dehydration device Expired - Fee Related CN203899240U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201420349361.2U CN203899240U (en) 2014-06-27 2014-06-27 Glyphosate dehydration device

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201420349361.2U CN203899240U (en) 2014-06-27 2014-06-27 Glyphosate dehydration device

Publications (1)

Publication Number Publication Date
CN203899240U true CN203899240U (en) 2014-10-29

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ID=51773533

Family Applications (1)

Application Number Title Priority Date Filing Date
CN201420349361.2U Expired - Fee Related CN203899240U (en) 2014-06-27 2014-06-27 Glyphosate dehydration device

Country Status (1)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107642005A (en) * 2017-10-25 2018-01-30 天津秋缘纸制品有限公司 A kind of novel paper product producing device

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN107642005A (en) * 2017-10-25 2018-01-30 天津秋缘纸制品有限公司 A kind of novel paper product producing device

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GR01 Patent grant
CF01 Termination of patent right due to non-payment of annual fee
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20141029

Termination date: 20170627