CN208810036U - It is a kind of it is ultraviolet under the conditions of sulfonylation system of processing - Google Patents

Abstract

The utility model discloses sulfonylation system of processing of the one kind under the conditions of ultraviolet, belong to field of chemical equipment.Sulfonylation system of processing under the conditions of one kind of the utility model is ultraviolet, including blending tank and reaction tower ontology, the inlet end of the blending tank connect two branches, and the branch road is provided with evaporator and surge tank；The blending tank exhaust end is connected to by air inlet pipe with the bottom of reaction tower ontology, and connects main feed pipe for feeding on reaction tower ontology；It is provided with ultraviolet lamp in the reaction tower ontology, which is disposed in parallel in the middle part of reaction tower ontology or is spacedly distributed along the circumferential direction of reaction tower ontology.The utility model is reacted reaction tower is passed through again after chlorine and sulfur dioxide mixing, and it is catalyzed by ultraviolet light, it ensure that the abundant progress of reaction, improve the utilization rate of product, and the discharge of the substances such as chlorine, sulfur dioxide is can be reduced, energy conservation and environmental protection meets scientific development concepts.

Description

It is a kind of it is ultraviolet under the conditions of sulfonylation system of processing

Technical field

The utility model relates to chemical equipment technical fields, more specifically to sulfonylation of the one kind under the conditions of ultraviolet System of processing.

Background technique

Sodium alkyl sulfonate is a kind of important surfactant, it is widely used in the industry such as washing, tanning, simultaneously It is a kind of important chemical intermediate again, such as is reacted by sodium alkyl sulfonate with phosphorus pentachloride and produce alkyl sulfonyl chloride, into Enter available a variety of surfactants with special construction.

When sodium sulfonate is processed, need first heavy oil to be reacted with chlorine and sulfur dioxide generation sulfonyl chloride intermediate, tradition is anti- Should be passed through chlorine and sulfur dioxide into reaction tower respectively, cause mixing uneven, react insufficient.

In addition, when carrying out chemical industry synthesis sodium sulfonate using reaction kettle, in order to adjust control material in reactor in time Parameter needs to carry out real-time tracking to the response situation in reaction kettle, so that the sampling out of reaction kettle be needed to carry out analysis test. Such as detect the temperature of charging, specific gravity etc..Currently used sampling method is using manual sampling, by opening reaction kettle kettle Probe tube, is then deep under the liquid level in reaction kettle and is sampled, the reaction in simultaneous reactions kettle usually has toxic by lid Gas release or liquid corrosivity it is larger, it is larger using this sampling mode harm to the human body, also can to ambient enviroment into Row pollution.In addition there are also parts is sampled using the sampler for vacuumizing principle, the disadvantage is that the position of probe tube sampling is fixed, The reaction process in entire reaction kettle cannot be represented；Residual sample is had inside pipeline after sampling simultaneously, to next sub-sampling Accuracy impacts.

By retrieval, Chinese patent disclose a kind of reactor on-line period method (application number: 201110246064.6), External circulating system is connect with reactor, sampler is connect with reactor outer circulation pipeline, when need to sample, external circulating system is first turned on, Material in reactor enters in the Special sample taker of reactor outer circulation pipeline, the valve suitable for reading of reactor is then shut off, to special-purpose taking Sample device adds nitrogen, and material is pushed back external circulation line from base opening and is back to reactor again, is repeated several times to clean displacement, finally from taking Material is extruded and is sampled by sample device outlet nitrogen, and the valve closing that Special sample taker connect with external circulation line when sampling is reacted Implements material is unaffected.The sampler is mainly sampled material in reactor, but sodium sulfonate is produced, by object It when material is delivered to reaction kettle, just needs to measure the data such as its temperature, specific gravity, which is not suitable for sodium sulfonate production It uses.

Utility model content

1. utility model technical problems to be solved

The purpose of the utility model is to overcome the deficiencies of sulfur dioxide in the prior art and chlorine undercompounding, provide It is a kind of it is ultraviolet under the conditions of sulfonylation system of processing.The utility model is passed through reaction tower after chlorine is mixed with sulfur dioxide again It is reacted, and is catalyzed by ultraviolet light, ensure that the abundant progress of reaction, improve the utilization rate of product.

2. technical solution

In order to achieve the above objectives, technical solution provided by the utility model are as follows:

Sulfonylation system of processing under the conditions of one kind of the utility model is ultraviolet, including blending tank and reaction tower ontology, institute The inlet end for stating blending tank connects two branches, and the branch road is provided with evaporator and surge tank；The blending tank exhaust End is connected to by air inlet pipe with the bottom of reaction tower ontology, and connects main feed pipe for feeding on reaction tower ontology；

It is provided with ultraviolet lamp in the reaction tower ontology, which is disposed in parallel in the middle part of reaction tower ontology or along reaction The circumferential direction of tower ontology is spacedly distributed.

It is further improved as the utility model, has shield outside the ultraviolet lamp.

It is further improved as the utility model, the shield is the glove connecting with reaction tower ontology top cover Pipe, the glove pipe are made of transparent material.

It is further improved as the utility model, is placed with nut cap on the glove pipe.

It is further improved as the utility model, the reaction tower body bottom portion is provided with coil pipe, which is S-shaped One end of bending structure, coil pipe is connected with air inlet pipe, other end closing, and multiple ventholes are provided on coil pipe.

It is further improved as the utility model, the sampling ware bottom bucket bottom is equipped with coaxial inner sleeve, main The shunting sampling pipe drawn on feed pipe is connected to inner sleeve lower end, and sampling ware bottom bucket side wall bottom end is connected with sampling drainage conduit, For material to be discharged into reaction tower ontology；The shunting sampling pipe and sampling drainage conduit are provided with control valve.

It is further improved as the utility model, the inner sleeve upper end protrudes from sampling ware bottom bucket upper surface, takes out Sample ware bottom bucket upper end is connected with transparent sleeve, and the length of the transparent sleeve is greater than inner sleeve protrusion length.

It is further improved as the utility model, the side wall of the transparent sleeve upper end tilts outward.

It is further improved as the utility model, is combined with top cover on the transparent sleeve.

It is further improved as the utility model, is provided on the upside of the top cover and mentions handle, it is plate or ring that this, which mentions handle, Shape.

3. beneficial effect

Using technical solution provided by the utility model, compared with prior art, have the following beneficial effects:

(1) the utility model is connected to the branch of chlorine and sulfur dioxide on blending tank, mixes it in blending tank It is passed into reaction tower and material reaction, and is catalyzed by ultraviolet light again afterwards, so that the mixing for improving gas is equal Even property helps to improve the utilization rate of product with reacting also more sufficiently for material.

(2) end of the utility model main feed pipe is connected to the feed inlet of reaction tower ontology, shunting sampling Guan Yuzhu Feed pipe is connected, and shunts the sampling pipe other end and is connected to inner sleeve bottom end, the annular chamber between ware bottom bucket of sampling and inner sleeve is logical Oversampling drainage conduit is connected to reaction tower ontology, when sampling Detection, opens the first control valve, then can use thermometer, ratio Restatement etc. detects material in annular chamber；After detection, the second control valve is opened, the material in ware bottom bucket of sampling flows again Enter into reaction tower, on-line checking can be realized, and be avoided that material waste.

(3) the utility model is connected with transparent sleeve in sampling ware bottom bucket upper end, and the length of the transparent sleeve is greater than inner sleeve Rostrum goes out partial-length.Transparent sleeve can regard the extended segment of sampling ware bottom bucket as, prevent material from splashing outward.It can be saturating Cooperate top cover on bright sleeve, under the structure, even if not removing top cover, can also observe the charging situation in sampling ware bottom bucket.

Detailed description of the invention

Fig. 1 is the flow diagram of system；

Fig. 2 is the structural schematic diagram of reaction tower；

Fig. 3 is the structural schematic diagram of nut cap；

Fig. 4 is the structural schematic diagram of coil pipe；

Fig. 5 is the Structural assignments schematic diagram of sampler；

Fig. 6 is the structural schematic diagram of sampler.

Label declaration in schematic diagram: 101, evaporator；102, surge tank；103, blending tank；111, sampling ware bottom bucket； 112, transparent sleeve；113, top cover；121, sampling pipe is shunted；122, the first control valve；123, inner sleeve；131, sampling discharge Pipe；132, the second control valve；201, reaction tower ontology；202, feed inlet；203, main feed pipe；204, nut cap；205, glove Pipe；206, air inlet pipe；207, coil pipe；208, condenser；209, ultraviolet lamp.

Specific embodiment

For the content for further appreciating that the utility model, the utility model is described in detail in conjunction with the accompanying drawings and embodiments.

Structure depicted in this specification attached drawing, ratio, size etc., only to cooperate the revealed content of specification, So that those skilled in the art understands and reads, enforceable qualifications are not intended to limit the invention, therefore do not have technology On essential meaning, the modification of any structure, the change of proportionate relationship or the adjustment of size can be generated not influencing the present invention The effect of and the purpose that can reach under, should all still fall in the revealed technology contents of the utility model and obtain the range that can cover It is interior.Meanwhile cited such as "upper", "lower", "left", "right", " centre " term in this specification, it is merely convenient to describe It is illustrated, rather than to limit enforceable range, relativeness is altered or modified, under the content of no substantial changes in technology, When being also considered as the enforceable scope of the present invention.

Embodiment

In conjunction with Fig. 1, Fig. 2, a kind of intermediate preparation system of sodium sulfonate production of the present embodiment, including 103 He of blending tank Reaction tower ontology 201, the inlet end of blending tank 103 connect two branches, and branch road is provided with evaporator 101 and surge tank 102；It is connected to by air inlet pipe 206 with the bottom of reaction tower ontology 201 by 103 exhaust end of blending tank, and in reaction tower ontology Main feed pipe 203 is connected on 201 for feeding.

Wherein branch is for being passed through chlorine, another branch for be passed through sulfur dioxide, chlorine and sulfur dioxide according to It is secondary to enter blending tank 103 by evaporator and surge tank, it is entered in reaction tower ontology 201 after being mixed in blending tank 103. Reaction mass enters in reaction tower ontology 201 by main feed pipe 203, reacts with chlorine and sulfur dioxide and generates intermediate Alkyl sulfonyl chloride.

Ultraviolet lamp 209 is provided in reaction tower ontology 201, which is disposed in parallel in reaction tower ontology 201 Portion can be connected on the top cover of reaction tower ontology 201 with the glove pipe 205 of transparent material, and be used as shield, ultraviolet Lamp 209 is located in glove pipe 205.Glove pipe 205 is provided with two rows, is used to installation ultraviolet lamp 209.At 205 top of glove pipe Nut cap 204 can be set, as shown in figure 3, the side setting of the nut cap 204 is jagged, the notch being arranged in nut cap can not influence Arrangement route, practical function are preferable.

Can also be spacedly distributed ultraviolet lamp 209 along the circumferential direction of reaction tower ontology 201, and directly ultraviolet lamp 209 can be pacified On the inner wall of reaction tower ontology 201, it can also be installed by glove pipe 205.

Under the irradiation of ultraviolet lamp, can be catalyzed the quick progress of sulfonylation, reaction more sufficiently.

Further, in conjunction with Fig. 4,201 bottom of reaction tower ontology is provided with coil pipe 207, which is S-shaped bending knot One end of structure, coil pipe 207 is connected with air inlet pipe 206, other end closing, and multiple ventholes are provided on coil pipe 207.It is mixed Closing gas can further mix in coil pipe, and that gas can be made to be distributed in reaction tower ontology is more equal by coil pipe It is even, so that reaction is more abundant.

Condenser 208 is connected on reaction tower ontology 201 for freezing to material in reaction tower ontology 201.

The system further includes sampling ware bottom bucket 111, and sampling 111 bottom of ware bottom bucket is provided with bracket, is fixed by the bracket On reaction tower ontology 201.In conjunction with Fig. 5, Fig. 6, ware bottom bucket 111 of sampling can be cylinder-like structure, 111 bottom of ware bottom bucket of sampling It is vertically installed with inner sleeve 123, inner sleeve 123 can be set in the center of sampling ware bottom bucket 111.In the mounting direction, Since inner sleeve 123 is perpendicular to sampling 111 bottom of ware bottom bucket, it could be aware that inner sleeve 123 and sampling ware bottom bucket 111 are pacified in the same direction Dress.It is signified it is vertical be more it is vertical on pointing the direction, 111 bottom of representative sample ware bottom bucket is not necessary for planar structure.

As a preference, the upper end of inner sleeve 123 protrude from sampling 111 upper surface of ware bottom bucket, shunt sampling pipe 121 with Inner sleeve 123 is connected to.Shunting sampling pipe 121 and sampling drainage conduit 131 is four fluorine tube, can be corrosion-resistant.

It can be understood as inner sleeve 123 in above structure and shunt sampling pipe 121 to be two-part structure, be connected by auxiliary Or the modes such as welding link together.The structure, which can also be, is inserted into sampling ware bottom bucket 111 for a shunting sampling pipe 121 In, Seal treatment then is carried out to sampling 111 bottom of ware bottom bucket and is obtained, there is no limit for specific type of attachment.

In sampling, sample to be tested is spilt into sampling ware bottom bucket 111 from 123 upper end of inner sleeve, makes 123 upper end of inner sleeve Sampling 111 upper surface of ware bottom bucket is protruded from, can observe flooded conditions, detection is facilitated to use.It is taken out if inner sleeve 123 is located at In sample ware bottom bucket 111, flooded conditions may be can't see when detecting, be also not easy to adjust influent stream speed.

Sampling 131 one end of drainage conduit is connected to sampling 111 bottom end side wall of ware bottom bucket, the object overflowed from inner sleeve 123 Material enters in sampling ware bottom bucket 111, and can be discharged from sampling drainage conduit 131.Shunting sampling pipe 121 and sampling discharge Pipe 131 is provided with control valve, the control of material in convenience sampling detection.

Specifically, such as to the charging of reaction tower ontology 201 it detects, reaction tower ontology 201 passes through main feed pipe 203 Charging.In use, the device is in parallel with feed pipe, i.e., shunting sampling pipe 121 is in parallel with main feed pipe 203, main feed pipe 203 End be connected to the feed inlet 202 on 201 cover board of reaction tower ontology.The discharge gate of sampling drainage conduit 131 in sampler It is similarly connected to feed inlet 202.

When starting sampling, the first control valve 122 shunted on sampling pipe 121 is opened, material is flowed into pumping from inner sleeve 123 In sample ware bottom bucket 111, the first control valve 122 is closed, thermometer, densimeter etc. is then can use and is detected, detection finishes Afterwards, the second control valve 132 is opened, the material in ware bottom bucket 111 of sampling is flowed into again in reaction tower ontology 201, can be realized Line detection, and it is avoided that material waste.

In conjunction with Fig. 6, it is provided with top cover 113 in ware bottom bucket 111 of sampling, the top cover 113 and sampling ware bottom bucket 111 cooperate.

If external dust can drop into sampling ware bottom bucket 111 without top cover 113, then after next time detects use, meeting There are some of the contaminants to enter in material, influences product quality.

It can be arranged on the upside of top cover 113 and mention handle, it is plate or annular that this, which mentions handle, convenient for the pick-and-place of top cover 113.Due to interior Casing 123 protrudes from sampling 111 upper surface of ware bottom bucket, therefore top cover 113 has side wall, side wall and sampling ware in the present embodiment Bottom bucket 111 cooperates, and top cover 113 can cover inner sleeve 123.

As another embodiment, it is connected with transparent sleeve 112 in sampling 111 upper end of ware bottom bucket, the length of the transparent sleeve 112 Degree is greater than 123 protrusion length of inner sleeve.

Transparent sleeve 112 can regard the extended segment of sampling ware bottom bucket 111 as, prevent material from splashing outward.Further, It can cooperate top cover 113 on transparent sleeve 112, under the structure, even if not removing top cover 113, can also observe sampling ware bottom Charging situation in bucket 111.

The side wall of 112 upper end of transparent sleeve tilts outward, convenient for placing detection meter, while facilitating the lid of top cover 113 to close and arriving On transparent sleeve 112.

Schematically the utility model and embodiments thereof are described above, description is not limiting, attached drawing Shown in be also one of the embodiments of the present invention, actual structure is not limited to this.So if this field Those of ordinary skill enlightened by it, without deviating from the purpose of the present invention, not inventively design Frame mode similar with the technical solution and embodiment, all should belong to the protection range of the utility model.

Claims (10)

1. The sulfonylation system of processing under the conditions of 1. one kind is ultraviolet, it is characterised in that: including blending tank (103) and reaction tower ontology (201), the inlet end of the blending tank (103) connects two branches, and the branch road is provided with evaporator (101) and buffering Tank (102)；Blending tank (103) exhaust end is connected to by air inlet pipe (206) with the bottom of reaction tower ontology (201), and Main feed pipe (203) are connected on reaction tower ontology (201) for feeding；

   Ultraviolet lamp (209) are provided in the reaction tower ontology (201), which is disposed in parallel in reaction tower ontology (201) it is spacedly distributed in the middle part of or along the circumferential direction of reaction tower ontology (201).
2. The sulfonylation system of processing under the conditions of 2. one kind according to claim 1 is ultraviolet, it is characterised in that: described is ultraviolet There is shield outside lamp (209).
3. The sulfonylation system of processing under the conditions of 3. one kind according to claim 2 is ultraviolet, it is characterised in that: the shield For the glove pipe (205) connecting with reaction tower ontology (201) top cover, which is made of transparent material.
4. The sulfonylation system of processing under the conditions of 4. one kind according to claim 3 is ultraviolet, it is characterised in that: the glove pipe (205) nut cap (204) are placed on.
5. The sulfonylation system of processing under the conditions of 5. one kind according to claim 1 is ultraviolet, it is characterised in that: the reaction tower Ontology (201) bottom is provided with coil pipe (207), which is S-shaped bending structure, one end of coil pipe (207) and air inlet pipe (206) it is connected, other end closing, and multiple ventholes are provided on coil pipe (207).
6. The sulfonylation system of processing under the conditions of 6. described in any item one kind are ultraviolet according to claim 1~5, it is characterised in that: It further include sampling ware bottom bucket (111), sampling ware bottom bucket (111) bottom is equipped with coaxial inner sleeve (123), main feed pipe (203) the shunting sampling pipe (121) drawn on is connected to inner sleeve (123) lower end, the connection of sampling ware bottom bucket (111) side wall bottom end There are sampling drainage conduit (131), for material to be discharged into reaction tower ontology (201)；The shunting sampling pipe (121) and sampling discharge Pipe (131) is provided with control valve.
7. The sulfonylation system of processing under the conditions of 7. one kind according to claim 6 is ultraviolet, it is characterised in that: the inner sleeve (123) upper end protrudes from sampling ware bottom bucket (111) upper surface, and sampling ware bottom bucket (111) upper end is connected with transparent sleeve (112), The length of the transparent sleeve (112) is greater than inner sleeve (123) protrusion length.
8. The sulfonylation system of processing under the conditions of 8. one kind according to claim 7 is ultraviolet, it is characterised in that: the transparent sheath The side wall of cylinder (112) upper end tilts outward.
9. The sulfonylation system of processing under the conditions of 9. one kind according to claim 7 is ultraviolet, it is characterised in that: the transparent sheath Top cover (113) are combined on cylinder (112).
10. The sulfonylation system of processing under the conditions of 10. one kind according to claim 9 is ultraviolet, it is characterised in that: the top cover (113) upside, which is provided with, mentions handle, and it is plate or annular that this, which mentions handle,.