CN105438673B - Molecular sieve pressure transfer pot - Google Patents
Molecular sieve pressure transfer pot Download PDFInfo
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- CN105438673B CN105438673B CN201410399072.8A CN201410399072A CN105438673B CN 105438673 B CN105438673 B CN 105438673B CN 201410399072 A CN201410399072 A CN 201410399072A CN 105438673 B CN105438673 B CN 105438673B
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- stainless steel
- steel tube
- molecular sieve
- tank body
- pressure
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Abstract
Molecular sieve pressure transfer pot, including pressure-relief device, tank body, tank bottom support element, pressure-relief device are mounted on the top of tank body, and the lower half portion that tank bottom support element is mounted on tank body plays a supportive role to tank body;The first stainless steel tube, the second stainless steel tube, third stainless steel tube and the 4th stainless steel tube are provided on the tank skin of tank body, its head is stretched into bent pipe fashion in the top surface of tank body, the tail portion of first stainless steel tube is dust catcher connector, the tail portion of second stainless steel tube is molecular sieve suction inlet, and the tail portion of third stainless steel tube is pressurization mouth;The head of 4th stainless steel tube is outlet molecular sieve.This molecular sieve pressure transfer pot improves the efficiency of molecular sieve conveying, ensure that the molecular sieve quality in transportational process, is provided with pressure-relief device, eliminates the security risk that transfer pot has, and has extraordinary using effect.
Description
Technical field
The present invention relates to molecular sieve conveying equipments, and in particular to a kind of molecular sieve pressure transfer pot.
Background technology
The water of the larger metal ion and compound state of ionic radius due to relatively low containing electricity price, hydrone connect after the heating
It loses continuously, but crystal framework structure is constant, forms the identical cavity of many sizes, there are many diameter is identical micro- again for cavity
Hole be connected, these small void diameters are uniform in size, can the inside of the Molecular Adsorption smaller than channel diameter to hole,
And the molecule bigger than duct is separated, that is, have the function of " sieving " molecule, therefore referred to as molecular sieve.The application of molecular sieve is non-
Often extensively, it is widely used, can be used as efficient in the industrial circles such as metallurgy, chemical industry, electronics, natural gas, medicine, building
Drier, selective absorbent, catalyst, exchange of particles agent etc..Common molecular sieve is the alumina silicate or silicate of crystalline state,
Therefore there is stringent regulation on preserving molecular sieve.
Traditional molecular sieve transport sieves tank using common molecular, need to manually ship molecular sieve, and shipped in molecular sieve
Vacuum pump is used to be vacuumized to being realized in tank body to ensure the Conservation environment of molecular sieve at rear.Also need to be by by molecular sieve output
Manually being exported, whole process is very cumbersome, time-consuming and laborious, using this traditional filling means of transportation, a general work
People one day can only canned 2 ~ 4 transfer pots, under efficiency is very low.
The above problem is to that should pay attention to and solve during the design and use of molecular sieve pressure transfer pot
Problem.
Invention content
In view of the above problems, the present invention provides a kind of molecular sieve pressure transfer pot.
Technical solution of the invention is:Molecular sieve pressure transfer pot, including pressure-relief device, tank body, tank bottom branch
Support member, the pressure-relief device are mounted on the top of the tank body, and the tank bottom support element is mounted on the lower half of the tank body
Part plays a supportive role to the tank body;It is vertically arranged with the first stainless steel tube, against the outer wall of the tank body top half
Two stainless steel tubes and third stainless steel tube, first stainless steel tube is identical with the second stainless steel tube internal diameter, and described first
The top surface of the tank body is stretched on the head of stainless steel tube, second stainless steel tube and the third stainless steel tube in bent pipe fashion
Interior, the tail portion of first stainless steel tube is dust catcher connector, and the tail portion of second stainless steel tube is molecular sieve suction inlet,
The tail portion of the third stainless steel tube is pressurization mouth;
Outer wall against the tank body lower half portion is vertically arranged with the 4th stainless steel tube, the bottom of the 4th stainless steel tube
Portion is stretched into the form of bend pipe in the bottom surface of the tank body, and the head of the 4th stainless steel tube is outlet molecular sieve.
Further improvement of the present invention is:The pressure-relief device include safety valve, two pass joints, four-way connection,
5th stainless steel tube, pressure reducer and pressure gauge, the 5th stainless steel tube are fixed on the top of the tank body, two two-ways
Connector is mounted on the both sides of the 5th stainless steel tube, and two safety valves are separately mounted on two two pass joints,
The pressure gauge is connected to the top of the stainless steel tube by the four-way connection, and the another port of the four-way connection is equipped with
One pressure reducer.
Further improvement of the present invention is:The tank bottom support element includes four stabilizer blades and universal wheel, each branch
One end of foot is fixed on by backing plate on the outer wall of the tank body, and there are one described universal for the other end installation of each stabilizer blade
Wheel.
Further improvement of the present invention is:First stainless steel tube, the second stainless steel tube, third stainless steel tube and
The tail end of four stainless steel tubes is fixed on the medium position of the tank wall by the backing plate.
Further improvement of the present invention is:The top of first stainless steel tube and second stainless steel tube is welded with the 6th
Stainless steel tube, the 6th stainless steel tube and the perpendicular welding of the first stainless steel tube.
Further improvement of the present invention is:First stainless steel tube, the second stainless steel tube, the 4th stainless steel tube it is interior
Diameter is identical, and the third stainless steel tube, the 5th stainless steel tube, the 6th stainless steel tube and the internal diameter of the first stainless steel tube are different.
Further improvement of the present invention is:On the molecular sieve suction inlet, outlet molecular sieve and dust catcher connector
The ball valve of control opening and closing is installed.
A kind of molecular sieve pressure transfer pot of the present invention, by the hytor outside the connection of dust catcher connector, molecular sieve sucking
Mouth is put into molecular sieve or container of the connection equipped with molecular sieve, opens the ball valve of dust catcher connector and molecular sieve suction inlet, takes out
Press extracts the pressure in tank body, and the pressure in tank body is less than the pressure outside tank, to realize that molecular sieve is inhaled by molecular sieve
Entrance is filled in tank body.Pressure gauge is used for showing the pressure in tank body, and safety valve is connected with pressure reducer controls whole operation
It is normally carried out.When appearance of abnormal pressure in tank body, pressure reducer, which is opened, under the action of safety valve deflates so that inside and outside tank body
Pressure is identical to avoid generating the danger such as tank body explosion.Dust catcher connector and molecular sieve are closed after molecular sieve is filled in tank body
The molecular sieve of the ball valve of suction inlet, whole tank is filled, and so that in the true of certain amplitude in tank body under the action of hytor
Empty form.Tank body is transported using universal wheel.When that need to export the molecular sieve in tank body, pressurization mouth connects pressure
Machine, opens the ball valve of outlet molecular sieve, in forcing press output pressure to tank body, when the pressure in tank body is more than tank external pressure, point
Son sieve is exported by outlet molecular sieve, to the whole conveying for realizing molecular sieve.
The beneficial effects of the invention are as follows:The molecular sieve transfer pot that the present invention designs can realize the conveying to molecular sieve, tank body
State in a vertical shape is realized filling to molecular sieve from kinetic energy.And the disposable filling fortune that just can realize a large amount of molecular sieves of this tank body
It is defeated.The filling time of worker is not only saved using this transfer pot, and effectively saves the labour of worker, to molecular sieve
With higher transfer efficiency.And this transfer pot can settle at one go to the filling of molecular sieve and to the guarantee of air pressure in tank,
The hytor of rear dust collector connector in molecular sieve suction tank is worked on, the vacuum degree in tank is made by the control of pressure gauge
500Pa can be reached, ensure that the quality of molecular sieve in tank body, molecular sieve are not easy to deliquesce and go bad in transportational process.This molecule
Screen pressing power transfer pot improves the efficiency of molecular sieve conveying, and ensure that the molecular sieve quality in transportational process, is provided with pressure
Safety device eliminates the security risk that transfer pot has, and has extraordinary using effect.
Description of the drawings
Fig. 1 is the positive structure schematic of molecular sieve pressure transfer pot of the present invention.
Fig. 2 is the side structure schematic diagram of molecular sieve pressure transfer pot of the present invention.
Fig. 3 is the overlooking structure diagram of molecular sieve pressure transfer pot of the present invention.
Wherein, 1- pressure-relief devices, 2- tank bodies, 3- tank bottom support elements, the first stainless steel tubes of 4-, the second stainless steels of 5-
Pipe, 6- third stainless steel tubes, the 4th stainless steel tubes of 7-, bis- pass joints of 8-, 9- four-way connections, the 5th stainless steel tubes of 10-, 11- branch
Foot, 12- universal wheels, 13- backing plates, the 6th stainless steel tubes of 14-, 15- pressure reducers, 16- ball valves;A- dust catcher connectors, b- safety
Valve, c- molecular sieve suction inlets, d- outlet molecular sieves, e- pressurization mouths, f- pressure gauges.
Specific implementation mode
In order to deepen the understanding of the present invention, the present invention is done below in conjunction with drawings and examples and is further retouched in detail
It states, the embodiment is only for explaining the present invention, does not constitute and limits to protection scope of the present invention.
As shown in Figure 1, Figure 2 and Figure 3, the present embodiment provides molecular sieve pressure transfer pots, including pressure-relief device 1, tank
Body 2, tank bottom support element 3, the pressure-relief device 1 are mounted on the top of the tank body 2, and the tank bottom support element 3 is mounted on
The lower half portion of the tank body 2 plays a supportive role to the tank body 2;Outer wall against 2 top half of the tank body is vertically arranged
There are the first stainless steel tube 4, the second stainless steel tube 5 and a third stainless steel tube 6, first stainless steel tube 4 and described second stainless
5 internal diameter of steel pipe is identical, and the head of first stainless steel tube 4, second stainless steel tube 5 and the third stainless steel tube 6 is in
Bent pipe fashion stretches into the top surface of the tank body 2, and the tail portion of first stainless steel tube 4 is dust catcher connector a, and described second
The tail portion of stainless steel tube 5 is molecular sieve suction inlet c, and the tail portion of the third stainless steel tube 6 is pressurization mouth e;Against the tank body 2
The outer wall of lower half portion is vertically arranged with the 4th stainless steel tube 7, and the bottom of the 4th stainless steel tube 7 is stretched into the form of bend pipe
In the bottom surface of the tank body 2, the head of the 4th stainless steel tube 7 is outlet molecular sieve d.The pressure-relief device 1 includes
Safety valve b, two pass joints 8, four-way connection 9, the 5th stainless steel tube 10, pressure reducer 15 and pressure gauge f, the 5th stainless steel tube
10 are fixed on the top of the tank body 2, and two two pass joints 8 are mounted on the both sides of the 5th stainless steel tube 10, two
The safety valve b is separately mounted on two two pass joints 8, and the pressure gauge f is connected to institute by the four-way connection 9
The top of stainless steel tube is stated, the another port of the four-way connection 9 is equipped with a pressure reducer 15.The tank bottom support element 3 includes four
One end of root stabilizer blade 11 and universal wheel 12, each stabilizer blade 11 is fixed on by backing plate 13 on the outer wall of the tank body 2, each
There are one the universal wheels 12 for the other end installation of the stabilizer blade 11.First stainless steel tube 4, the second stainless steel tube 5, third
The tail end of stainless steel tube 6 and the 4th stainless steel tube 7 is fixed on the medium position of 2 outer wall of the tank body by the backing plate 13.
The top of first stainless steel tube 4 and second stainless steel tube 5 is welded with the 6th stainless steel tube 14, the 6th stainless steel
Pipe 14 and first stainless steel tube, 4 perpendicular welding.First stainless steel tube 4, the second stainless steel tube 5, the 4th stainless steel
The internal diameter of pipe 7 is identical, the third stainless steel tube 6, the 5th stainless steel tube 10, the 6th stainless steel tube 14 and the first stainless steel tube 4
Internal diameter it is different.Control opening and closing is mounted on the molecular sieve suction inlet c, outlet molecular sieve d and dust catcher connector a
Ball valve 16.
The present embodiment molecular sieve pressure transfer pot, by the hytor outside a connections of dust catcher connector, molecular sieve suction inlet
C is put into molecular sieve or container of the connection equipped with molecular sieve, opens the ball valve 16 of dust catcher connector a and molecular sieve suction inlet c,
Hytor extracts the pressure in tank body 2, and the pressure in tank body 2 is less than the pressure outside tank, to realize that molecular sieve passes through molecule
Sieve suction inlet c is filled in tank body 2.Pressure gauge f is used for showing pressure in tank body 2, safety valve b control operations it is normal into
Row.When appearance of abnormal pressure in tank body 2, safety valve b, which is opened, to deflate so that the pressure inside and outside tank body 2 is identical to avoid generating
The danger such as the explosion of tank body 2.The ball valve 16 of dust catcher connector a and molecular sieve suction inlet c are closed after molecular sieve is filled in tank body 2,
The molecular sieve of whole tank is filled, and so that being in the vacuum form of certain amplitude in tank body 2 under the action of hytor.It is available
Universal wheel 12 transports tank body 2.When that need to export the molecular sieve in tank body 2, pressurize mouth e connection forcing presses, opens and divides
The ball valve 16 of sub- sieve outlet d, in forcing press output pressure to tank body 2, when the pressure in tank body 2 is more than tank external pressure, molecular sieve
It is exported by outlet molecular sieve d, to the whole conveying for realizing molecular sieve.
The advantageous effect of the present embodiment is:The molecular sieve transfer pot that the present invention designs can realize the conveying to molecular sieve, tank
Body state in a vertical shape is realized filling to molecular sieve from kinetic energy.And the disposable filling fortune that just can realize a large amount of molecular sieves of this tank body
It is defeated.The filling time of worker is not only saved using this transfer pot, and effectively saves the labour of worker, to molecular sieve
With higher transfer efficiency.And this transfer pot can settle at one go to the filling of molecular sieve and to the guarantee of air pressure in tank,
The hytor of rear dust collector connector in molecular sieve suction tank is worked on, the vacuum degree in tank is made by the control of pressure gauge
500Pa can be reached, ensure that the quality of molecular sieve in tank body, molecular sieve are not easy to deliquesce and go bad in transportational process.This molecule
Screen pressing power transfer pot improves the efficiency of molecular sieve conveying, and ensure that the molecular sieve quality in transportational process, is provided with pressure
Safety device eliminates the security risk that transfer pot has, and has extraordinary using effect.
Claims (4)
1. molecular sieve pressure transfer pot, it is characterised in that:Including pressure-relief device(1), tank body(2), tank bottom support element(3),
The pressure-relief device(1)Mounted on the tank body(2)Top, the tank bottom support element(3)Mounted on the tank body(2)
Lower half portion to the tank body(2)It plays a supportive role;
Against the tank body(2)The outer wall of top half is vertically arranged with the first stainless steel tube(4), the second stainless steel tube(5)With
Third stainless steel tube(6), first stainless steel tube(4)With second stainless steel tube(5)Internal diameter is identical, and described first is stainless
Steel pipe(4), second stainless steel tube(5)With the third stainless steel tube(6)Head stretch into the tank body in bent pipe fashion
(2)Top surface in, first stainless steel tube(4)Tail portion be dust catcher connector(a), second stainless steel tube(5)'s
Tail portion is molecular sieve suction inlet(c), the third stainless steel tube(6)Tail portion be pressurization mouth(e);
Against the tank body(2)The outer wall of lower half portion is vertically arranged with the 4th stainless steel tube(7), the 4th stainless steel tube
(7)Bottom the tank body is stretched into the form of bend pipe(2)Bottom surface in, the 4th stainless steel tube(7)Head be molecule
Sieve outlet(d), the pressure-relief device(1)Including safety valve(b), two pass joints(8), four-way connection(9), the 5th stainless steel
Pipe(10), pressure reducer(15)And pressure gauge(f), the four-way connection(9)It is fixed on the tank body(2)Top, described in two
Two pass joints(8)Pass through the 5th stainless steel tube(10)Mounted on the four-way connection(9)On the siphunculus of both sides, described in two
Safety valve(b)It is separately mounted to two two pass joints(8)On, the pressure gauge(f)Pass through the four-way connection(9)Connection
At the top of the stainless steel tube, the molecular sieve suction inlet(c), outlet molecular sieve(d)With dust catcher connector(a)On pacify
Ball valve equipped with control opening and closing(16), the pressurization mouth(e)On be also connected with equipped with a pressure reducer(15), first stainless steel tube
(4)With second stainless steel tube(5)Top be welded with the 6th stainless steel tube(14), the 6th stainless steel tube(14)With institute
State the first stainless steel tube(4)Perpendicular welding.
2. molecular sieve pressure transfer pot according to claim 1, it is characterised in that:The tank bottom support element(3)Including four
Root stabilizer blade(11)And universal wheel(12), each stabilizer blade(11)One end pass through backing plate(13)It is fixed on the tank body(2)'s
On outer wall, each stabilizer blade(11)Other end installation there are one the universal wheel(12).
3. molecular sieve pressure transfer pot according to claim 2, it is characterised in that:First stainless steel tube(4), second
Stainless steel tube(5), third stainless steel tube(6)With the 4th stainless steel tube(7)Tail end pass through the backing plate(13)It is fixed on institute
State tank body(2)The medium position of outer wall.
4. molecular sieve pressure transfer pot according to claim 1, it is characterised in that:First stainless steel tube(4), second
Stainless steel tube(5), the 4th stainless steel tube(7)Internal diameter it is identical, the third stainless steel tube(6), the 5th stainless steel tube(10),
Six stainless steel tubes(14)With the first stainless steel tube(4)Internal diameter it is different.
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CN201410399072.8A CN105438673B (en) | 2014-08-14 | 2014-08-14 | Molecular sieve pressure transfer pot |
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CN201410399072.8A CN105438673B (en) | 2014-08-14 | 2014-08-14 | Molecular sieve pressure transfer pot |
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CN105438673A CN105438673A (en) | 2016-03-30 |
CN105438673B true CN105438673B (en) | 2018-08-07 |
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Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2038488U (en) * | 1986-09-13 | 1989-05-31 | 沈阳铝镁设计研究院 | Pneumatic unloading device for canned powdered materials |
CN1051540A (en) * | 1989-10-05 | 1991-05-22 | 英达斯托有限公司 | The handler of discrete material |
CN2878269Y (en) * | 2006-01-26 | 2007-03-14 | 陈永乾 | Double pressure transportation device |
CN201132669Y (en) * | 2007-12-28 | 2008-10-15 | 天津市禾厘油气技术有限公司 | Cement storage tank for pneumatic conveying on ocean oil drilling platform |
WO2010080529A1 (en) * | 2008-12-17 | 2010-07-15 | Johan Gunther | Modified storage pod and feeding system for binder utilized for in-situ pilings |
CN204038260U (en) * | 2014-08-14 | 2014-12-24 | 丹阳市利旺车辆部件有限公司 | Molecular sieve pressure transfer pot |
-
2014
- 2014-08-14 CN CN201410399072.8A patent/CN105438673B/en active Active
Patent Citations (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN2038488U (en) * | 1986-09-13 | 1989-05-31 | 沈阳铝镁设计研究院 | Pneumatic unloading device for canned powdered materials |
CN1051540A (en) * | 1989-10-05 | 1991-05-22 | 英达斯托有限公司 | The handler of discrete material |
CN2878269Y (en) * | 2006-01-26 | 2007-03-14 | 陈永乾 | Double pressure transportation device |
CN201132669Y (en) * | 2007-12-28 | 2008-10-15 | 天津市禾厘油气技术有限公司 | Cement storage tank for pneumatic conveying on ocean oil drilling platform |
WO2010080529A1 (en) * | 2008-12-17 | 2010-07-15 | Johan Gunther | Modified storage pod and feeding system for binder utilized for in-situ pilings |
CN204038260U (en) * | 2014-08-14 | 2014-12-24 | 丹阳市利旺车辆部件有限公司 | Molecular sieve pressure transfer pot |
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CN105438673A (en) | 2016-03-30 |
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Address after: No. 19 Fuping Road, Xinbei District, Changzhou City, Jiangsu Province, 213000 Patentee after: Danyang Liwang Vehicle Parts Co.,Ltd. Address before: Xin Qiao Zhen Gu Xiang Cun, Danyang City, Zhenjiang City, Jiangsu Province, 212322 Patentee before: DANYANG LIWANG AUTO PARTS Co.,Ltd. |