CN209570047U - A kind of soda ash processing absorption tower cooling cistern structure - Google Patents
A kind of soda ash processing absorption tower cooling cistern structure Download PDFInfo
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- CN209570047U CN209570047U CN201920068084.0U CN201920068084U CN209570047U CN 209570047 U CN209570047 U CN 209570047U CN 201920068084 U CN201920068084 U CN 201920068084U CN 209570047 U CN209570047 U CN 209570047U
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- tube sheet
- cabinet
- folded plate
- spiral folded
- tube
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Abstract
A kind of soda ash processing absorption tower cooling cistern structure is disclosed in the utility model, including cylindric cabinet, the cabinet is the enclosed construction of both ends open, inlet port and outlet port are respectively arranged on cabinet, tank ends are provided with tube sheet, it is correspondingly arranged on multiple pores on tube sheet, multiple bellowss are provided in cabinet;The tank ends, which are located on the outside of tube sheet, is provided with end cap, forms enclosed construction between end cap and tube sheet, is respectively arranged with inlet and liquid outlet on two end caps;Centre pilot and spiral folded plate are provided in the cabinet;Spiral folded plate both ends are respectively arranged with elastic supporting mechanism.Heat exchange between fluid and cooling medium is carried out using bellows, while spiral folded structure is set, improves heat exchange efficiency;Spiral folded plate is supported by the way that resilient support assemblies are arranged, so that spiral folded plate is played the role of water conservancy diversion and flow-disturbing simultaneously, further increases heat exchange efficiency.
Description
Technical field
The utility model relates to soda ash processing technique field, in particular to a kind of soda ash processes absorption tower cooling water tank knot
Structure.
Background technique
Absorption tower is the important chemical production equipment in soda ash process, main function be make Saline Absorbent ammonia with
The qualified ammonial brine of preparation is used for alkaline.It can react during Saline Absorbent ammonia and release a large amount of heat, make ammonia
Brine temp increases, and often reduces absorption of the ammonial brine to ammonia when the raising of ammonia salt coolant-temperature gage, it is therefore desirable to ammonial brine
It is cooled down.Currently, generalling use cooling water tank or cooling water pipe component, but existing cooling water tank knot to the cooling of ammonial brine
Often heat exchange efficiency is lower for structure, affects processing efficiency, and this cooling water tank service life is shorter, is easy to influence normal
Manufacturing schedule.
Utility model content
The purpose of this utility model is to provide a kind of soda ash to process absorption tower cooling cistern structure, overall heat exchange efficiency
The cooling efficiency to ammonial brine can be improved in height.
In order to solve the above technical problems, the technical solution adopted in the utility model is as follows:
A kind of soda ash processing absorption tower cooling cistern structure, including cylindric cabinet, the cabinet is both ends open
Enclosed construction is respectively arranged with inlet port and outlet port on cabinet, and tank ends are provided with tube sheet, are correspondingly arranged on tube sheet
Multiple pores are provided with multiple bellowss in cabinet, and the bellows both ends are respectively fixedly disposed at the pipe of cabinet two sides tube sheet
Kong Shang;The tank ends, which are located on the outside of tube sheet, is provided with end cap, and enclosed construction, two end caps are formed between end cap and tube sheet
On be respectively arranged with inlet and liquid outlet;Centre pilot and spiral folded plate, the centre pilot two are provided in the cabinet
End is respectively fixedly connected on the tube sheet of two sides, on the centrally disposed guide rod of spiral folded plate, can be horizontally slipped along centre pilot, spiral shell
Multiple via holes passed through for bellows are provided on rotation folded plate;Spiral folded plate both ends are respectively arranged with resilient support machine
Structure, elastic supporting mechanism are used for the position to spiral folded plate on centre pilot and carry out flexible adjustment and support.
In above-mentioned technical proposal, further, the elastic supporting mechanism includes being symmetrically arranged at spiral folded plate two
Two groups of resilient support assemblies at end, the resilient support assemblies include support plate, outer tube and spring assembly, the support plate with
Spiral folded plate end is fixedly connected, and outer tube one end is fixedly connected with support plate outer rim, and the other end is fixedly connected on tube sheet, spring
Component is described including being oppositely arranged in tube sheet and support plate and along its circumferential equally distributed multiple spring fixed seat and spring
Both ends of the spring is separately positioned on spring fixed seat, and the outer tube is elastic telescopic cannula structure.
In above-mentioned technical proposal, further, guidance set, the guiding group are provided between the tube sheet and support plate
Part includes the guide pipe of the position-limiting tube being arranged on tube sheet and setting on the supporting plate, and described guide pipe one end extend into position-limiting tube
It is interior, it is slidably connected between guide pipe and position-limiting tube.
In above-mentioned technical proposal, further, inner sleeve, the inner sleeve one are provided between the tube sheet and support plate
End is fixed at limit tube end, and the other end is fixed in guide pipe or support plate, and spring assembly is arranged in inner sleeve
Between outer tube, the inner sleeve is elastic telescopic cannula structure.
In above-mentioned technical proposal, further, on the spiral folded plate it is located on each via hole and is respectively arranged with limit assembly,
The limit assembly includes two fixing pipes, and two fixing pipe one end are connected with each other by screw thread, and the other end is disposed as loudspeaker
Mouth structure, the fixing pipe are set on bellows, and fixing pipe caliber is matched with diameter at bellows wave crest, the fixation
Its axial direction is provided with elastic groove on pipe.
In above-mentioned technical proposal, further, the fixing pipe pipe end is respectively arranged with resilient support disk, the elasticity branch
It is integral forming structure between support plate and fixing pipe.
The utility model carries out the heat exchange between fluid and cooling medium using bellows, while spiral folded plate knot is arranged
Structure improves heat exchange efficiency;Spiral folded plate is supported by the way that resilient support assemblies are arranged, spiral folded plate is enable to play simultaneously
The effect of water conservancy diversion and flow-disturbing, further increases heat exchange efficiency.
Detailed description of the invention
FIG. 1 is a schematic structural view of the utility model.
Fig. 2 is elastic supporting mechanism partial schematic diagram at A in Fig. 1.
Fig. 3 is structural schematic diagram between spiral folded plate and bellows at B in Fig. 1.
Fig. 4 is limit assembly structural schematic diagram in the utility model.
Fig. 5 is fixing pipe structural front view in the utility model.
In figure: 1, cabinet, 2, feed inlet, 3, discharge port, 4, tube sheet, 5, bellows, 6, end cap, 7, inlet, 8, go out liquid
Mouthful, 9, centre pilot, 10, spiral folded plate, 12, resilient support assemblies, 13, support plate, 14, outer tube, 15, spring, 16, spring
Fixing seat, 17, position-limiting tube, 18, guide pipe, 19, inner sleeve, 20, limit assembly, 21, fixing pipe, 22, elastic groove, 23, elasticity
Support plate.
Specific embodiment
The utility model is further described in the following with reference to the drawings and specific embodiments.
As shown in Figure 1, the soda ash in the present embodiment processes absorption tower cooling cistern structure, including cylindric cabinet 1, institute
The enclosed construction that cabinet 1 is both ends open is stated, is respectively arranged with feed inlet 2 and discharge port 3 on cabinet 1;The setting of 1 both ends of cabinet
There is tube sheet 4, multiple pores are correspondingly arranged on tube sheet 4, the multiple bellowss 5 of setting in cabinet 1,5 both ends of the bellows difference
It is fixed on the pore of cabinet two sides tube sheet.
1 both ends of cabinet, which are located on the outside of tube sheet, is provided with end cap 6, forms enclosed construction between end cap 6 and tube sheet 4, and two
Inlet 7 and liquid outlet 8 are respectively arranged on end cap 6, two end caps are oppositely arranged in tank ends, and fluid is through inlet, wave
Line pipe and liquid outlet form circulation passage.
Centre pilot 9 and spiral folded plate 10 are provided in cabinet 1,9 both ends of centre pilot are respectively fixedly connected with two
On the tube sheet 4 of side, on the centrally disposed guide rod 9 of spiral folded plate 10, it can horizontally slip along centre pilot, be arranged on spiral folded plate 10
There are multiple via holes passed through for bellows;10 both ends of spiral folded plate are respectively arranged with elastic supporting mechanism, resilient support
Mechanism is used for the position to spiral folded plate on centre pilot and carries out flexible adjustment and support.Spiral folded plate is set in cabinet,
The changeable intracorporal fluid flow direction of case makes to realize sufficiently heat exchange between the cooling medium in fluid and bellows, improve
Heat exchange efficiency.
When cooling down to ammonial brine, ammonial brine enters in cabinet through feed inlet, and cooling medium enters through inlet
Into bellows, ammonial brine exchanges heat realizing between the cooling medium that circulates in bellows in cabinet flow process, realizes pair
The cooling of ammonial brine is handled.
Such as Fig. 1 and 2, in the present embodiment, elastic supporting mechanism includes two groups for being symmetrically arranged at spiral folded plate both ends
Resilient support assemblies 12, the resilient support assemblies 12 include support plate 13, outer tube 14 and spring assembly, the support plate 13
It is fixedly connected with 10 end of spiral folded plate, support plate is set on centre pilot, is provided between support plate and centre pilot
Rotary position-limit mechanism, the rotary position-limit mechanism are rotated for limiting spiral folded plate relative to centre pilot;Rotary position-limit mechanism can
Using guide groove is arranged on the supporting plate and the guide rail matched with guide groove is arranged on centre pilot, between guide rail and guide groove mutually
Cooperation is to limit rotation of the spiral folded plate on centre pilot.14 one end of outer tube is fixedly connected with support plate outer rim, the other end
It is fixedly connected on tube sheet.Spring assembly includes being oppositely arranged in tube sheet and support plate and circumferential equally distributed multiple along it
Spring fixed seat 16 and spring 15,15 both ends of spring are separately positioned on spring fixed seat 16, and the outer tube 14 is bullet
Property telescopic sleeve structure.Spiral folded plate both ends are supported by resilient support assemblies, resilient support assemblies are rolled over to spiral
While being supported between plate, spiral folded plate can be moved along centre pilot axis direction under action of a fluid, spiral folded plate
While being oriented to the intracorporal fluid of case, fluid can be disturbed during the motion in the intracorporal flowing of case, be increased
Add the touch opportunity between fluid and bellows and time of contact, to effectively increase heat exchange efficiency.Meanwhile spiral folded plate exists
Bellows is driven in motion process, can effectively prevent the impurity in fluid deposited in bellows and in bellows shape
The problem of at fouling.
Guidance set is provided between tube sheet 4 and support plate 13, the guidance set includes the limit being arranged on tube sheet
Position pipe 17 and setting guide pipe 18 on the supporting plate, described 18 one end of guide pipe are extend into position-limiting tube 17, guide pipe 18 with
It is slidably connected between position-limiting tube 17.Spiral folded plate is further led in the intracorporal movement of case by guidance set
To, while rotation limiting structure can also be set on guidance set, the rotation limiting structure for assist preventing spiral folded plate with
Relative rotary motion occurs between centre pilot.
Inner sleeve 19 is provided between tube sheet 4 and support plate 13, described 19 one end of inner sleeve is fixed at position-limiting tube 17
End, the other end are fixed in guide pipe 18 or support plate 13, spring assembly setting inner sleeve 19 and outer tube 14 it
Between, the inner sleeve 19 is elastic telescopic cannula structure.By the way that inner sleeve and the outer tube shape between tube sheet and support plate is arranged
It at closed space, prevents fluid from entering in the space and spring assembly is eroded, to be carried out to spring assembly effective
Protection, improve the stability and reliability of resilient support assemblies.
It is located on each via hole such as Fig. 3,4 and 5, on spiral folded plate 10 and is respectively arranged with limit assembly, the limit assembly packet
Two fixing pipes 21 are included, two 21 one end of fixing pipe are connected with each other by screw thread, and the other end is disposed as bell-mouth structure of air, described
Fixing pipe 21 is set on bellows 5, and 21 caliber of fixing pipe is matched with diameter at bellows wave crest, in the fixing pipe 21
Its axial direction is provided with elastic groove 22.Limit is fixed to bellows using limit assembly, reduces bellows and spiral folded plate
Between gap, prevent bellows from vibrating between spiral folded plate under the percussion of fluid, and influence bellows
Service life.Fixed installation of the limit assembly on spiral folded plate can be facilitated using two fixing pipes;It is arranged in fixing pipe pipe end
Bell-mouth structure of air can facilitate and bellows is arranged in limit assembly;And elastic groove is arranged in fixing pipe to make bellows can
There is certain elastic acting force between fixing pipe, while increasing the versatility of fixing pipe.Further, in 21 pipe end of fixing pipe
It is respectively arranged with resilient support disk 23, is integral forming structure between the resilient support disk 23 and fixing pipe 21.Pass through setting
Resilient support disk carries out stable support to fixing pipe on spiral folded plate, and fixing pipe and resilient support disk can be used double-colored here
Injection molding, fixing pipe use ebonite, and resilient support disk uses flexible glue.
The description and the appended drawings of the utility model be considered as it is illustrative and not restrictive, the utility model basis
On, for those skilled in the art according to disclosed technology contents, not needing creative labor can be to some of technology
Feature makes some replacements and deformation, within the protection scope of the present utility model.
Claims (6)
1. a kind of soda ash processes absorption tower cooling cistern structure, it is characterised in that: including cylindric cabinet, the cabinet is two
The enclosed construction of end opening, is respectively arranged with inlet port and outlet port on cabinet, and tank ends are provided with tube sheet, right on tube sheet
Multiple pores should be provided with, multiple bellowss are provided in cabinet, the bellows both ends are respectively fixedly disposed at cabinet two sides
On the pore of tube sheet;The tank ends, which are located on the outside of tube sheet, is provided with end cap, and enclosed construction is formed between end cap and tube sheet,
Inlet and liquid outlet are respectively arranged on two end caps;Be provided with centre pilot and spiral folded plate in the cabinet, it is described in
Heart guide rod both ends are respectively fixedly connected on the tube sheet of two sides, can be along a centre pilot left side on the centrally disposed guide rod of spiral folded plate
Right sliding is provided with multiple via holes passed through for bellows on spiral folded plate;Spiral folded plate both ends are respectively arranged with bullet
Property supporting mechanism, elastic supporting mechanism is used to carry out flexible adjustment and support to position of the spiral folded plate on centre pilot.
2. soda ash according to claim 1 processes absorption tower cooling cistern structure, it is characterised in that: the resilient support machine
Structure includes two groups of resilient support assemblies for being symmetrically arranged at spiral folded plate both ends, and the resilient support assemblies include support
Plate, outer tube and spring assembly, the support plate are fixedly connected with spiral folded plate end, and outer tube one end is fixedly connected with support plate
Outer rim, the other end are fixedly connected on tube sheet, and spring assembly includes being oppositely arranged in tube sheet and support plate and circumferential equal along it
The multiple spring fixed seats and spring of even distribution, the both ends of the spring are separately positioned on spring fixed seat, and the outer tube is
Elastic telescopic cannula structure.
3. soda ash according to claim 2 processes absorption tower cooling cistern structure, it is characterised in that: the tube sheet and support
It is provided with guidance set between plate, the guidance set includes the position-limiting tube being arranged on tube sheet and setting leading on the supporting plate
Xiang Guan, described guide pipe one end extend into position-limiting tube, are slidably connected between guide pipe and position-limiting tube.
4. soda ash according to claim 2 processes absorption tower cooling cistern structure, it is characterised in that: the tube sheet and support
Inner sleeve is provided between plate, described inner sleeve one end is fixed at limit tube end, and the other end is fixed at guide pipe
Or in support plate, spring assembly is arranged between inner sleeve and outer tube, and the inner sleeve is elastic telescopic cannula structure.
5. soda ash according to claim 1 processes absorption tower cooling cistern structure, it is characterised in that: on the spiral folded plate
Limit assembly is respectively arranged on each via hole, the limit assembly includes two fixing pipes, and two fixing pipe one end pass through
Screw thread is connected with each other, and the other end is disposed as bell-mouth structure of air, and the fixing pipe is set on bellows, fixing pipe caliber with
Diameter matches at bellows wave crest, its axial direction is provided with elastic groove in the fixing pipe.
6. soda ash according to claim 5 processes absorption tower cooling cistern structure, it is characterised in that: the fixing pipe pipe end
It is respectively arranged with resilient support disk, is integral forming structure between resilient support disk and the fixing pipe.
Priority Applications (1)
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CN201920068084.0U CN209570047U (en) | 2019-01-16 | 2019-01-16 | A kind of soda ash processing absorption tower cooling cistern structure |
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CN201920068084.0U CN209570047U (en) | 2019-01-16 | 2019-01-16 | A kind of soda ash processing absorption tower cooling cistern structure |
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CN201920068084.0U Expired - Fee Related CN209570047U (en) | 2019-01-16 | 2019-01-16 | A kind of soda ash processing absorption tower cooling cistern structure |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114518053A (en) * | 2022-02-28 | 2022-05-20 | 河南省锅炉压力容器安全检测研究院 | Monitoring device for internal limited pressure container and mounting method thereof |
-
2019
- 2019-01-16 CN CN201920068084.0U patent/CN209570047U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN114518053A (en) * | 2022-02-28 | 2022-05-20 | 河南省锅炉压力容器安全检测研究院 | Monitoring device for internal limited pressure container and mounting method thereof |
CN114518053B (en) * | 2022-02-28 | 2023-11-10 | 河南省锅炉压力容器安全检测研究院 | Monitoring device for internal limited pressure container and installation method thereof |
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GR01 | Patent grant | ||
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: 20191101 Termination date: 20220116 |