CN204038260U - Molecular sieve pressure transfer pot - Google Patents
Molecular sieve pressure transfer pot Download PDFInfo
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- CN204038260U CN204038260U CN201420456390.9U CN201420456390U CN204038260U CN 204038260 U CN204038260 U CN 204038260U CN 201420456390 U CN201420456390 U CN 201420456390U CN 204038260 U CN204038260 U CN 204038260U
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- Prior art keywords
- stainless steel
- steel tube
- molecular sieve
- tank body
- pressure
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Abstract
Molecular sieve pressure transfer pot, comprises strut member at the bottom of pressure-relief device, tank body, tank, and pressure-relief device is arranged on the top of tank body, and the latter half that strut member at the bottom of tank is arranged on tank body plays a supportive role to tank body; Near the tank skin of tank body being provided with the first stainless steel tube, the second stainless steel tube, the 3rd stainless steel tube and the 4th stainless steel tube, its head all stretches in the end face of tank body in bent pipe fashion, the afterbody of the first stainless steel tube is dust collecting fan communication port, the afterbody of the second stainless steel tube is molecular sieve sucking hole, and the afterbody of the 3rd stainless steel tube is pressurization mouth; The head of the 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 transportation, is provided with pressure-relief device, eliminate the potential safety hazard that transfer pot has, have extraordinary result of use.
Description
Technical field
The utility model relates to molecular sieve load transfer device, is specifically related to a kind of molecular sieve pressure transfer pot.
Background technology
The water of the metallic ion larger due to the ionic radius containing electricity price is lower and chemical combination state, hydrone loses after the heating continuously, but crystal framework structure is constant, define the cavity that many sizes are identical, cavity has again the identical micropore of many diameters to be connected, and these small void diameter sizes are even, can the inside of the molecular adsorption less than channel diameter to hole, and the molecule larger than duct is separated, namely there is the effect of " screening " molecule, therefore be called molecular sieve.The application of molecular sieve widely, is widely used in the industrial circles such as metallurgy, chemical industry, electronics, natural fuels, medicine, building, can as highly effective drying agent, selective absorbent, catalyst, exchange of particles agent etc.Conventional molecular sieve is aluminium silicate or the silicate of crystalline state, therefore will have strict regulation on preservation molecular sieve.
Traditional molecular sieve transport adopts common molecular sieve tank, manually need load and transport molecular sieve, and after molecular sieve has loaded and transported, adopt vacuum pump to the Conservation environment realizing vacuumizing to ensure molecular sieve in tank body.Exported by molecular sieve also need by manually exporting, whole process is very loaded down with trivial details, wastes time and energy, and adopts this traditional filling transportation mode, and a general workman one day can only filling 2 ~ 4 transfer pot, and efficiency is very low.
The problems referred to above should be paid attention to and the problem solved in the design and use process of molecular sieve pressure transfer pot.
Utility model content
For above-mentioned Problems existing, the utility model provides a kind of molecular sieve pressure transfer pot.
Technical solution of the present utility model is: molecular sieve pressure transfer pot, comprise strut member at the bottom of pressure-relief device, tank body, tank, described pressure-relief device is arranged on the top of described tank body, and the latter half that strut member at the bottom of described tank is arranged on described tank body plays a supportive role to described tank body;
Outer wall near described tank body the first half is vertically provided with the first stainless steel tube, the second stainless steel tube and the 3rd stainless steel tube, described first stainless steel tube is identical with described second stainless steel tube internal diameter, the head of described first stainless steel tube, described second stainless steel tube and described 3rd stainless steel tube is that bent pipe fashion stretches in the end face of described tank body, the afterbody of described first stainless steel tube is dust collecting fan communication port, the afterbody of described second stainless steel tube is molecular sieve sucking hole, and the afterbody of described 3rd stainless steel tube is pressurization mouth;
Outer wall near described tank body the latter half is vertically provided with the 4th stainless steel tube, described 4th stainless steel tube bottom be that the form of bend pipe stretches in the bottom surface of described tank body, the head of described 4th stainless steel tube is outlet molecular sieve.
Further improvement of the utility model is: described pressure-relief device comprises safety valve, two pass joints, four-way connection, the 5th stainless steel tube, pressure reducer and compression indicator, described 5th stainless steel tube is fixed on the top of described tank body, two described two-way jiont treatments are in the both sides of described 5th stainless steel tube, two described safety valves are arranged on two described two pass joints respectively, described compression indicator is connected to the top of described stainless steel tube by described four-way connection, and a pressure reducer is equipped with in the another port of described four-way connection.
Further improvement of the utility model is: strut member at the bottom of described tank comprises four legs and cardan wheel, and one end of each described leg is fixed on by backing plate on the outer wall of described tank body, and the other end of each described leg is provided with a described cardan wheel.
Further improvement of the utility model is: the tail end of described first stainless steel tube, the second stainless steel tube, the 3rd stainless steel tube and the 4th stainless steel tube is all fixed on the medium position of described tank wall by described backing plate.
Further improvement of the utility model is: the top of described first stainless steel tube and described second stainless steel tube is welded with the 6th stainless steel tube, and described 6th stainless steel tube and described first stainless steel tube are vertical welding.
Further improvement of the utility model is: the internal diameter of described first stainless steel tube, the second stainless steel tube, the 4th stainless steel tube is identical, and described 3rd stainless steel tube, the 5th stainless steel tube, the 6th stainless steel tube are all different from the internal diameter of the first stainless steel tube.
Further improvement of the utility model is: described molecular sieve sucking hole, outlet molecular sieve and dust collecting fan communication port are all provided with the ball valve controlling opening and closing.
A kind of molecular sieve pressure transfer pot of the utility model, dust collecting fan communication port is connected outside hytor, molecular sieve sucking hole is put into molecular sieve or is connected the container that molecular sieve is housed, open the ball valve of dust collecting fan communication port and molecular sieve sucking hole, hytor extracts the pressure in tank body, pressure in tank body is less than the pressure outside tank, thus realizes molecular sieve and be filled in tank body by molecular sieve sucking hole.Compression indicator is used for showing the pressure in tank body, and safety valve is connected with pressure reducer and controls normally carrying out of whole operation.When tank body internal pressure occurs abnormal, under the effect of safety valve, pressure reducer is opened to exit and is made the pressure inside and outside tank body identical thus avoid producing the danger such as tank body blast.In tank body, molecular sieve fills the ball valve of rear cut out dust collecting fan communication port and molecular sieve sucking hole, and the molecular sieve of whole tank is filled, and under the effect of hytor, make the vacuum form in certain amplitude in tank body.Cardan wheel can be utilized to transport tank body.When the molecular sieve in tank body being exported, pressurization mouth Bonding pressure machine, opens the ball valve of outlet molecular sieve, compression machine delivery pressure is in tank body, when the pressure in tank body is greater than tank external pressure, molecular sieve is exported by outlet molecular sieve, thus entirety realizes the conveying of molecular sieve.
The beneficial effects of the utility model are: the molecular sieve transfer pot of the utility model design can realize the conveying to molecular sieve, and tank body is that vertical state realizes filling to molecular sieve from kinetic energy.And the disposable filling transport that just can realize a large amount of molecular sieve of this tank body.Adopt this transfer pot to not only save the filling time of workman, and effectively save the labour power of workman, to molecular sieve, there is higher transport efficiency.And this transfer pot all can settle at one go to the filling of molecular sieve with to the guarantee of tank internal gas pressure, the hytor of rear dust collector communication port in molecular sieve suction tank is worked on, the degree of vacuum in tank is made to reach 500Pa by manometric control, the quality of molecular sieve in tank body is ensure that, molecular sieve not easily deliquescence and rotten in transportation.This molecular sieve pressure transfer pot improves the efficiency of molecular sieve conveying, and ensure that the molecular sieve quality in transportation, is provided with pressure-relief device, eliminates the potential safety hazard that transfer pot has, have extraordinary result of use.
Accompanying drawing explanation
Fig. 1 is the Facad structure schematic diagram of the utility model molecular sieve pressure transfer pot.
Fig. 2 is the construction profile schematic diagram of the utility model molecular sieve pressure transfer pot.
Fig. 3 is the plan structure schematic diagram of the utility model molecular sieve pressure transfer pot.
Wherein, 1-pressure-relief device, 2-tank body, strut member at the bottom of 3-tank, 4-first stainless steel tube, 5-second stainless steel tube, 6-the 3rd stainless steel tube, 7-the 4th stainless steel tube, 8-bis-pass joint, 9-four-way connection, 10-the 5th stainless steel tube, 11-leg, 12-cardan wheel, 13-backing plate, 14-the 6th stainless steel tube, 15-pressure reducer, 16-ball valve;
A-dust collecting fan communication port, b-safety valve, c-molecular sieve sucking hole, d-outlet molecular sieve, e-pressurizes mouth, f-compression indicator.
Detailed description of the invention
In order to deepen, to understanding of the present utility model, to be described in further detail the utility model below in conjunction with drawings and Examples, this embodiment, only for explaining the utility model, not forming protection domain of the present utility model and limiting.
As shown in Figure 1, Figure 2 and Figure 3, the present embodiment provides molecular sieve pressure transfer pot, comprise strut member 3 at the bottom of pressure-relief device 1, tank body 2, tank, described pressure-relief device 1 is arranged on the top of described tank body 2, and the latter half that strut member 3 at the bottom of described tank is arranged on described tank body 2 plays a supportive role to described tank body 2; Outer wall near described tank body 2 the first half is vertically provided with the first stainless steel tube 4, second stainless steel tube 5 and the 3rd stainless steel tube 6, described first stainless steel tube 4 is identical with described second stainless steel tube 5 internal diameter, the head of described first stainless steel tube 4, described second stainless steel tube 5 and described 3rd stainless steel tube 6 is that bent pipe fashion stretches in the end face of described tank body 2, the afterbody of described first stainless steel tube 4 is dust collecting fan communication port a, the afterbody of described second stainless steel tube 5 is molecular sieve sucking hole c, and the afterbody of described 3rd stainless steel tube 6 is pressurization mouth e; Outer wall near described tank body 2 the latter half is vertically provided with the 4th stainless steel tube 7, described 4th stainless steel tube 7 bottom be that the form of bend pipe stretches in the bottom surface of described tank body 2, the head of described 4th stainless steel tube 7 is outlet molecular sieve d.Described pressure-relief device 1 comprises safety valve b, two pass joints 8, four-way connection 9, the 5th stainless steel tube 10, pressure reducer 15 and compression indicator f, described 5th stainless steel tube 10 is fixed on the top of described tank body 2, two described two pass joints 8 are arranged on the both sides of described 5th stainless steel tube 10, two described safety valve b are arranged on two described two pass joints 8 respectively, described compression indicator f is connected to the top of described stainless steel tube by described four-way connection 9, and a pressure reducer 15 is equipped with in the another port of described four-way connection 9.Strut member 3 at the bottom of described tank comprises four legs 11 and cardan wheel 12, and one end of each described leg 11 is fixed on by backing plate 13 on the outer wall of described tank body 2, and the other end of each described leg 11 is provided with a described cardan wheel 12.The tail end of described first stainless steel tube 4, second stainless steel tube 5, the 3rd stainless steel tube 6 and the 4th stainless steel tube 7 is all fixed on the medium position of described tank body 2 outer wall by described backing plate 13.The top of described first stainless steel tube 4 and described second stainless steel tube 5 is welded with the 6th stainless steel tube 14, and described 6th stainless steel tube 14 and described first stainless steel tube 4 are in vertical welding.The internal diameter of described first stainless steel tube 4, second stainless steel tube 5, the 4th stainless steel tube 7 is identical, and described 3rd stainless steel tube 6, the 5th stainless steel tube 10, the 6th stainless steel tube 14 are all different from the internal diameter of the first stainless steel tube 4.Described molecular sieve sucking hole c, outlet molecular sieve d and dust collecting fan communication port a are all provided with the ball valve 16 controlling opening and closing.
The present embodiment molecular sieve pressure transfer pot, dust collecting fan communication port a is connected outside hytor, molecular sieve sucking hole c puts into molecular sieve or connects the container that molecular sieve is housed, open the ball valve 16 of dust collecting fan communication port a and molecular sieve sucking hole c, hytor extracts the pressure in tank body 2, pressure in tank body 2 is less than the pressure outside tank, thus realizes molecular sieve and be filled in tank body 2 by molecular sieve sucking hole c.Compression indicator f is used for showing the pressure in tank body 2, normally carrying out of safety valve b control operation.When tank body 2 internal pressure occurs abnormal, safety valve b opens venting and makes the pressure inside and outside tank body 2 identical thus avoid producing the danger such as tank body 2 blast.In tank body 2, molecular sieve fills the ball valve 16 of rear cut out dust collecting fan communication port a and molecular sieve sucking hole c, and the molecular sieve of whole tank is filled, and under the effect of hytor, make the vacuum form in certain amplitude in tank body 2.Cardan wheel 12 pairs of tank bodies 2 can be utilized to transport.When the molecular sieve in tank body 2 being exported, pressurization mouth e Bonding pressure machine, opens the ball valve 16 of outlet molecular sieve d, compression machine delivery pressure is in tank body 2, when the pressure in tank body 2 is greater than tank external pressure, molecular sieve is exported by outlet molecular sieve d, thus entirety realizes the conveying of molecular sieve.
The beneficial effect of the present embodiment is: the molecular sieve transfer pot of the utility model design can realize the conveying to molecular sieve, and tank body is that vertical state realizes filling to molecular sieve from kinetic energy.And the disposable filling transport that just can realize a large amount of molecular sieve of this tank body.Adopt this transfer pot to not only save the filling time of workman, and effectively save the labour power of workman, to molecular sieve, there is higher transport efficiency.And this transfer pot all can settle at one go to the filling of molecular sieve with to the guarantee of tank internal gas pressure, the hytor of rear dust collector communication port in molecular sieve suction tank is worked on, the degree of vacuum in tank is made to reach 500Pa by manometric control, the quality of molecular sieve in tank body is ensure that, molecular sieve not easily deliquescence and rotten in transportation.This molecular sieve pressure transfer pot improves the efficiency of molecular sieve conveying, and ensure that the molecular sieve quality in transportation, is provided with pressure-relief device, eliminates the potential safety hazard that transfer pot has, have extraordinary result of use.
Claims (7)
1. molecular sieve pressure transfer pot, it is characterized in that: comprise strut member (3) at the bottom of pressure-relief device (1), tank body (2), tank, described pressure-relief device (1) is arranged on the top of described tank body (2), and the latter half that strut member (3) at the bottom of described tank is arranged on described tank body (2) plays a supportive role to described tank body (2);
Outer wall near described tank body (2) the first half is vertically provided with the first stainless steel tube (4), second stainless steel tube (5) and the 3rd stainless steel tube (6), described first stainless steel tube (4) is identical with described second stainless steel tube (5) internal diameter, described first stainless steel tube (4), the head of described second stainless steel tube (5) and described 3rd stainless steel tube (6) is that bent pipe fashion stretches in the end face of described tank body (2), the afterbody of described first stainless steel tube (4) is dust collecting fan communication port (a), the afterbody of described second stainless steel tube (5) is molecular sieve sucking hole (c), the afterbody of described 3rd stainless steel tube (6) is pressurization mouth (e),
Outer wall near described tank body (2) the latter half is vertically provided with the 4th stainless steel tube (7), described 4th stainless steel tube (7) bottom be that the form of bend pipe stretches in the bottom surface of described tank body (2), the head of described 4th stainless steel tube (7) is outlet molecular sieve (d).
2. molecular sieve pressure transfer pot according to claim 1, it is characterized in that: described pressure-relief device (1) comprises safety valve (b), two pass joints (8), four-way connection (9), 5th stainless steel tube (10), pressure reducer (15) and compression indicator (f), described four-way connection (9) is fixed on the top of described tank body (2), two described two pass joints (8) are arranged on the siphunculus of described four-way connection (9) both sides by described 5th stainless steel tube (10), two described safety valves (b) are arranged on two described two pass joints (8) respectively, described compression indicator (f) is connected to the top of described stainless steel tube by described four-way connection (9).
3. molecular sieve pressure transfer pot according to claim 1, it is characterized in that: strut member (3) at the bottom of described tank comprises four legs (11) and cardan wheel (12), one end of each described leg (11) is fixed on the outer wall of described tank body (2) by backing plate (13), and the other end of each described leg (11) is provided with a described cardan wheel (12).
4. molecular sieve pressure transfer pot according to claim 3, is characterized in that: the tail end of described first stainless steel tube (4), the second stainless steel tube (5), the 3rd stainless steel tube (6) and the 4th stainless steel tube (7) is all fixed on the medium position of described tank body (2) outer wall by described backing plate (13).
5. molecular sieve pressure transfer pot according to claim 1, it is characterized in that: the top of described first stainless steel tube (4) and described second stainless steel tube (5) is welded with the 6th stainless steel tube (14), described 6th stainless steel tube (14) and described first stainless steel tube (4) are in vertical welding.
6. molecular sieve pressure transfer pot according to claim 5, it is characterized in that: the internal diameter of described first stainless steel tube (4), the second stainless steel tube (5), the 4th stainless steel tube (7) is identical, described 3rd stainless steel tube (6), the 5th stainless steel tube (10), the 6th stainless steel tube (14) are all different from the internal diameter of the first stainless steel tube (4).
7. molecular sieve pressure transfer pot according to claim 1, it is characterized in that: described molecular sieve sucking hole (c), outlet molecular sieve (d) and dust collecting fan communication port (a) are all provided with the ball valve (16) controlling opening and closing, described pressurization mouth (e) also connects a pressure reducer (15) is housed.
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CN201420456390.9U CN204038260U (en) | 2014-08-14 | 2014-08-14 | Molecular sieve pressure transfer pot |
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CN201420456390.9U CN204038260U (en) | 2014-08-14 | 2014-08-14 | Molecular sieve pressure transfer pot |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105438673A (en) * | 2014-08-14 | 2016-03-30 | 丹阳市利旺车辆部件有限公司 | Molecular sieve pressure transport tank |
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2014
- 2014-08-14 CN CN201420456390.9U patent/CN204038260U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN105438673A (en) * | 2014-08-14 | 2016-03-30 | 丹阳市利旺车辆部件有限公司 | Molecular sieve pressure transport tank |
CN105438673B (en) * | 2014-08-14 | 2018-08-07 | 丹阳市利旺车辆部件有限公司 | Molecular sieve pressure transfer pot |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20141224 Termination date: 20180814 |
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CF01 | Termination of patent right due to non-payment of annual fee |