CN204365105U - Runner and fluid treating plant - Google Patents

Abstract

The utility model relates to a kind of runner, it has an entrance side and an outlet side in the axial direction, this runner comprises a rotating shaft, at least one process material support, at least one process material block and some first connectors, process material support encloses at least one treatment channel of structure and is located at rotating shaft, process material block is filled at treatment channel, and process material block has the ability that relatively can process material support and move axially, first connector has concatenation ability process material block being connected to process material support, and the ability of the first connector can optionally be removed; Before the concatenation ability of the first connector is removed, process material block relatively processes the ability that material support moves axially and is limited; After the concatenation ability of the first connector is removed, process material block recovers it can process the ability that material support moves axially relatively.

Description

Runner and fluid treating plant

Technical field

The utility model relates to a kind for the treatment of facility and runner thereof of fluid treatment field, the particularly dismountable runner of finger subelement.

Background technology

In the fluid treatment fields such as TREATMENT OF VOCs, often use zeolite etc. to have the active material of process, composition to be processed in fluid is removed or upgrading.The process of these materials is active usually can be increased along with access times/time and decay gradually, and the early stage practice is replaced by whole group of the equipment containing this material, and this kind of whole group of substitute mode is often with the problem that alternative costs are high.

For zeolite runner, after zeolite treatment activity reduces (such as zeolite loses micropore specific area and micro pore volume by its micropore of polymer plugging), the practice in the past can old zeolite runner is whole be pulled down, the zeolite runner that juxtaposition renews, such practice not only replaces that task difficulty is higher, man-hour is longer, zeolite runner wholely pulls down required dismounting headroom, relevant pipe fitting need coordinate outside dismounting, and easily causes the waste on material.For the diameter 4200mm honeycomb zeolite runner that photoelectricity factory, wafer factory commonly use, its cost of honeycomb zeolite runner part is about New Taiwan Currency 5,000,000 yuan, if labor and materials that whole group of runner carries out replacing and because of nearly 3 ~ 5 tons heavy and need large-scale suspender hoisting cost and relevant pipe fitting dismounting to add up to be about New Taiwan Currency 9,000,000 yuan, obviously the mode that whole group of runner carried out replacing in the past will produce high alternative costs, and man-hours requirement is longer, real for dealer not pleasure see.

Therefore, TaiWan, China TW I364314 patent discloses a kind of runner replacement method being applied to honeycomb runner, its be by the multiple absorption blocks be installed in card casket case one by one radial direction shift out, but such design sometimes still can run into following problem in application: in the radial direction of card casket case may by other pipelines or equipment cover, the radial direction of now adsorbing block shifts out operation and can become and cannot or be difficult to perform.

As shown in the above description, really also exist in the art and otherwise realize the demand that operation replaced by process material.

Summary of the invention

For the problems referred to above, main purpose of the present utility model is to provide a kind of runner being available for users to replace in the axial direction process material.

For achieving the above object, a kind of runner provided by the utility model, it has an entrance side and an outlet side in the axial direction, and described runner flows between its entrance side and outlet side for fluid, it is characterized in that described runner comprises: a rotating shaft that can sway; At least one process material support, encloses at least one treatment channel of structure, and described process material props up and is set up in described rotating shaft; At least one process material block, is filled at the treatment channel of described process material support, and described process material block has can the ability that moves axially of relatively described process material support; Some first connectors, have the concatenation ability described process material block being connected to described process material support, and the concatenation ability of described first connector optionally can be removed; Before the concatenation ability of described first connector is removed, the ability that described process material block relatively described process material support moves axially is limited; After the concatenation ability of described first connector is removed, described process material block recovers it can the ability that moves axially of relatively described process material support.

Between described process material support and described process material block, there is gap, and described first connector is the adhesive tape being filled at described gap at least partly.

Between described process material support and described process material block, there is gap, and described first connector have more make fluid cannot by the entrance side of described runner and outlet side wherein side via the ability of opposite side in described Clearance Flow to the entrance side of described runner and outlet side.

At least one part of described first connector is positioned at the entrance side of described runner.

Described process material block have multiple limit and multiple respectively by a plurality of limit enclose the face of structure, described process material block be at least provided with an angle steel, described angle steel is covered in the local surfaces of wherein two adjacent surfaces of described process material block.

Enclose a plurality of limits processing material block wherein one side described in structure and be equipped with described angle steel.

Around by described angle steel around face be positioned at the outlet side of described runner.

Described process material block has rank portion on the limit being provided with angle steel, and described rank portion is located at by described angle steel, and the outer surface of angle steel is concordant with the surface do not covered by angle steel in described two adjacent surfaces.

The described angle steel of at least one part has the baffle plate that is positioned at described runner entrance side or outlet side respectively, and described baffle plate offers through hole in the axial direction.

More comprise a card casket case, in order to accommodating described rotating shaft, each described process material support, each described process material block and each described first connector, described card casket case has an entrance, an outlet, an entrance side rotary shaft rack and an outlet side rotary shaft rack in the axial direction, described rotating shaft is hubbed between described entrance side rotary shaft rack and outlet side rotary shaft rack, described entrance is divided at least two entrance blocks by described entrance side rotary shaft rack, and described outlet is divided at least two outlet blocks by described outlet side rotary shaft rack; Described card casket case have more at least one next-door neighbour wherein an entrance block or wherein one outlet block movable barrier; Described movable barrier is when an operating position, and the entrance block that it is close to or outlet block have less profile by it covers, and described movable barrier is overlapping with at least one process material block local in the axial direction; Described movable barrier is non-when being positioned at described operating position, at least one process material block can be made not overlapping in the axial direction with described movable barrier and the profile making the entrance block of the former next-door neighbour of described movable barrier or export block expand to be enough to for wherein one process material block vertically via described expansion entrance block or export block and shift out described card casket case.

In order to reach aforementioned and other objects, the utility model also provides a kind of runner, it has an entrance side and an outlet side in the axial direction, and described runner flows between its entrance side and outlet side for fluid, it is characterized in that described runner comprises: a rotating shaft that can sway; Some process material supports, enclose at least one treatment channel of structure respectively, and each described process material props up and is set up in described rotating shaft, and wherein at least one process material support have can the ability that moves axially of relatively described rotating shaft; Some process material blocks, are filled at the treatment channel of each described process material support respectively; Some second connectors, have and described process material support is at least partially connected to the concatenation ability of described rotating shaft, and the concatenation ability of described second connector optionally can be removed; Before the concatenation ability of described second connector is removed, the ability that the relatively described rotating shaft of described process material support moves axially is limited; After the concatenation ability of described second connector is removed, the process material support corresponding to it recovers it can the ability that moves axially of relatively described rotating shaft.

More comprise a card casket case, for accommodating described rotating shaft, each described process material support, each described process material block and each described second connector, described card casket case has an entrance, an outlet, an entrance side rotary shaft rack and an outlet side rotary shaft rack in the axial direction, described rotating shaft is hubbed between described entrance side rotary shaft rack and outlet side rotary shaft rack, described entrance is divided at least two entrance blocks by described entrance side rotary shaft rack, and described outlet is divided at least two outlet blocks by described outlet side rotary shaft rack; Described card casket case have more at least one next-door neighbour wherein an entrance block or wherein one outlet block movable barrier; Described movable barrier is when an operating position, and the entrance block that it is close to or outlet block have less profile by it covers, and described movable barrier is overlapping with at least one process material support local in the axial direction; Described movable barrier is non-when being positioned at described operating position, at least one process material support can be made not overlapping in the axial direction with described movable barrier and the profile making the entrance block of the former next-door neighbour of described movable barrier or export block expand to be enough to for wherein one process material support vertically via described expansion entrance block or export block and shift out described card casket case.

Described card casket case has a housing, and described movable barrier is located at described housing removedly.

Described card casket case has a housing, described movable barrier is hubbed at described housing and can puts by pivot between described operating position and an enable possition, when described movable barrier is positioned at described enable possition, the profile of the entrance block of the former next-door neighbour of described movable barrier or outlet block is expanded to be enough to shift out described card casket case via the entrance block of described expansion or outlet block vertically for a wherein process material support.

In order to reach aforementioned and other objects, the utility model also provides a kind of fluid treating plant, it is characterized in that comprising: just like upper arbitrary described runner; One inlet tank, is located at the entrance side of described runner; One EXPORT CARTON, is located at the outlet side of described runner, and described fluid treating plant imports described runner by described inlet tank at least a part of fluid and discharges from described EXPORT CARTON.

Described fluid treating plant is one for the honeycomb zeolite runner inspissator of gas purification process, and described fluid treating plant comprises an adsorption zone, a desorption district and a desorption and regeneration heat exchange zone.

More comprise a back-end processing device, for processing the fluid of discharging from described EXPORT CARTON further, described back-end processing device is an incinerator, condenser or fluidized floating bed adsorption desorption equipment.

Adopt technique scheme, the utility model is available for users to process material support or the process material block of replacing runner in the axial direction.

Accompanying drawing explanation

Fig. 1 is the schematic perspective view of the first embodiment of fluid treating plant;

Fig. 2 is the partial exploded view of the first embodiment of runner;

Fig. 3 is the front view of the first embodiment of runner;

Fig. 4 is the 4-4 profile of Fig. 3;

Fig. 5 is the stereogram of the second embodiment of runner;

Fig. 6 is the partial exploded view of the second embodiment of runner;

Fig. 7 is the profile of the second embodiment of runner, and its profile position is similar to Fig. 4;

Fig. 8 is the profile of the 3rd embodiment of runner, and its profile position is similar to Fig. 4;

Fig. 9 is the partial exploded view of the 4th embodiment of runner, and wherein movable barrier is non-is positioned at operating position;

Figure 10 is the stereogram of the 4th embodiment of runner, the outlet side structure of main manifestations runner;

Figure 11 is the partial exploded view of the 4th embodiment of runner, wherein processes material support and shifts out card casket case vertically;

Figure 12 is the side view of the 4th embodiment of runner, wherein processes material support and shifts out card casket case vertically;

Figure 13 is the stereogram of the 5th embodiment of runner, and wherein movable barrier is positioned at enable possition;

Figure 14 is the exploded front view of the 6th embodiment of runner.

Figure 15 is the schematic perspective view of the second embodiment of fluid treating plant.

Detailed description of the invention

In order to describe structure of the present utility model, Characteristic in detail, the following preferred embodiment of existing act also coordinates accompanying drawing to be described as follows.

As shown in Figure 1, shown in figure is the first embodiment of fluid treating plant 1, fluid treating plant 1, for processing the fluid such as gas or liquid, includes but not limited to the moieties in gas or liquid to be removed, upgrading or its physical state is changed.Fluid treating plant 1 has runner 2, inlet tank 3 and an EXPORT CARTON 4, runner 2 has an an entrance side 2a and outlet side 2b, inlet tank 3 is located at the entrance side 2a of runner 2, and EXPORT CARTON 4 is located at the outlet side 2b of runner 2, and there are some runners inlet tank 3 and EXPORT CARTON 4 inside depending on user demand definition.Fluid treating plant 1 can import runner 2 by inlet tank 3 at least a part of fluid and discharge from EXPORT CARTON 4; In the embodiment that other are possible, fluid treating plant 1 also can import runner 2 by EXPORT CARTON 4 for segment fluid flow and be discharged by inlet tank 3; In other possibility embodiments, fluid treating plant 1 also can sequentially flow through runner 2 and EXPORT CARTON 4/ inlet tank 3 for segment fluid flow by inlet tank 3/ EXPORT CARTON 4, is then refluxed through runner 2 by EXPORT CARTON 4/ inlet tank 3 again and discharges from inlet tank 3/ EXPORT CARTON 4.In order to keep in repair or other objects, the side of inlet tank 3 can be offered AD 3a and come in and go out for personnel, and EXPORT CARTON 4 also can have similar AD design.

In the present embodiment, fluid treating plant 1 is one for the honeycomb zeolite runner inspissator of gas purification process, it comprises an adsorption zone 5, one desorption district 6 and a desorption and regeneration heat exchange zone 7 (also claiming purge isolated area or cooling cooling zone), wherein " zeolite " is the main process material with process activity in fluid treating plant 1, " honeycomb " refers to the moulding of the runner of runner 2, " concentrate " technique effect referring to that it will realize, for the waste gas containing VOC (VOC), waste gas is imported into adsorption zone 5, VOC is by the zeolite adsorption of the adsorption zone 5 in runner 2, waste gas after process is discharged via EXPORT CARTON 4 subsequently, desorption gas enters via the desorption gas entrance 8 of inlet tank 3, desorption and regeneration heat exchange zone 7 simultaneously in runner 2 carries out heat exchange and leading preheating cools runner simultaneously, and there is the effect of the high-concentration and low-concentration air-flow between isolation adsorption zone 5 and desorption district 6, a heater then can be utilized on demand to be warming up to suitable desorption temperature further after, import the desorption district 6 in runner 2 separately, the VOC adsorbed by zeolite is deviate from, last adsorbed gas can export 9 by the desorption gas of inlet tank 3 and discharge, VOC concentration now contained by desorption gas is usually apparently higher than the concentration of VOC in pending waste gas, namely described " concentrating " effect is reached.Should be noted that, be applicable to fluid treating plant of the present utility model be not limited with honeycomb zeolite runner inspissator, other are applicable to fluid treating plant of the present utility model and include but not limited to the fluid treating plants such as rotary-type suction/desorption processor, rotary-type catalyst processor, rotary-type interchanger (such as heat exchanger or ion-exchanger).

Please refer to Fig. 2 to Fig. 4, shown in figure is the first embodiment of runner, runner 2 can flow by the fluid such as supplied gas or liquid between its entrance side 2a and outlet side 2b, described " flowing between entrance side and outlet side " includes but not limited to that fluid enters inside by runner entrance side 2a and directly discharges from outlet side 2b, fluid enters inside by outlet of rotary wheel side 2b and directly discharges from entrance side 2a, fluid is entered inner again by other outlet discharges being positioned at entrance side 2a by runner entrance side 2a, fluid is entered inner again by other outlet discharges being positioned at outlet side 2b by outlet of rotary wheel side 2b.Fluid usually can carry out axial flow in runner 2, but does not get rid of the possibility that fluid carries out Radial Flow or irregular flowing in runner 2.

In the present embodiment, runner 2 comprises one can process material support 20, some process material blocks 30 and some first connectors 40 around the rotating shaft 10, of rotating.

Rotating shaft 10 can have a jack-post 11 and one and the rotating disk 12 of jack-post 11 synchronous axial system, jack-post 11 and rotating disk 12 can one-body molded or to weld, solid etc. to be connected means connected for spiral shell.It should be noted that, turn shaft design not as limit, such as, in the embodiment that other are possible, rotating shaft also may be a central siphon and be sheathed on an axle center rotationally.Described " swaying " comprises around a virtual axis rotation and around an entity axis rotation.

Rotating shaft 10 is located at by process material support 20.In the present embodiment, rotating shaft 10 is positioned at the geometric center of process material support 20, and process material support 20 supported by rotating shaft 10.In the present embodiment, process material support 20 can be adopted integrated mode and be connected to rotating shaft 10, or, in the embodiment that other are possible, process material support 20 can be located at rotating shaft 10 to relative displacement, such as be located at the rotating disk 12 of rotating shaft 10, process material support 20 is fixed with can utilize between rotating shaft 10 but the connected mode such as be not limited to weld, be spirally connected.In the present embodiment, process material support 20 can be the complete and entirety that can not be split, or in the embodiment that other are possible, process material support 20 can form by the unit group of multiple design for disassembly is vertical.

Process one of function of material support 20 to be used to support process material block 30, meanwhile, process material support 20 encloses at least one treatment channel 21 passed through for fluid of structure, and treatment channel 21 is generally axial extension, but is not precluded within the possibility of other directions extension.Treatment channel 21 opens in axial at the entrance side of runner 10 and outlet side usually, namely has two openings in the axial direction; In a possible embodiment, treatment channel is also likely provided with opening in other positions.

Process material block 30 is filled at the treatment channel 21 of process material support 20, and in these process material blocks 30, the process material block 30 of at least one part has the ability that relatively can process material support 20 and move axially, and these process material blocks 30 adopt dismountable mode to be filled at treatment channel 21; Process material block 30 inside defines the runner that can pass through for fluid usually; In common use situation, one of them major part of process material block 30 has the active process material of process to pending target fluid composition, these process materials by target fluid component portion or whole removal, upgrading or can change its physical state, such as temperature, the process material used is depending on target fluid composition and the effect that will reach.Such as, for the runner with the VOC removed in gas, available process material includes but not limited to the VOC such as zeolite or activated carbon sorbing material.Process material block 30 is except containing except aforementioned processing material, sometimes other structures such as the carrier that can support the process supporter of material, excipient material or be loaded with process material can also be comprised, such as honeycomb zeolite runner, its process material block 30 is mainly made up of honeycomb base material and the zeolite that is coated on honeycomb substrate surface.

Wherein a kind of embodiment of the supporter supporting process material is below described.As shown in Figures 2 to 4, process material block 30 have multiple limit 31 and multiple respectively by a plurality of limit 31 enclose the face 32 of structure, each limit 31 of process material block 30 is equipped with angle steel 33,33, angle steel is covered in the local surfaces of process material block 30 wherein two adjacent surfaces 32, all face 32 of process material block 30 all by these angle steel 33 institutes around.Angle steel 33 is made up of the material with appropriate configuration supportive, and it is not limited with steel, and other available materials can be metal, alloy or non-metallic material.

In order to allow flow axis to the obstruction by not more being subject to angle steel 33 during process material block 30, part angle steel 33 can have the baffle plate 331 that is positioned at runner entrance side or outlet side, baffle plate 331 is provided with through hole 332 in the axial direction, allows gas enter process material block 30 by through hole 332 inner.

In order to maintain the surfacing of process material block 30, process material block 30 has rank portion 34 on the limit 31 being provided with angle steel 33, rank portion 34 is located at by angle steel 33, and the outer surface of angle steel 33 is concordant with the surface do not covered by angle steel 33 in two adjacent surfaces 32, process material block 30 is allowed to have comparatively smooth outward appearance thus in axis and radial direction.

First connector 40 has concatenation ability process material block 30 being connected to process material support 20, and the concatenation ability of the first connector 40 is selectively removed.In the present embodiment, between process material support 20 and process material block 30, there is gap 25, and the first connector 40 is complete adhesive tape being filled at gap 25, such as silica gel, multiple adhesive tape can be provided with in same gap 25, also only adhesive tape can be set at the entrance side of runner and/or outlet side, and adhesive tape also only can partly be filled at gap 25, and have part to expose to gap 25, but the adhesive tape lateral surface in the present embodiment, being positioned at entrance side/outlet side is with process material block 30 and to process the surface of material support 20 concordant.On the other hand, the first connector 40 of identical type in same gap 25, can be used, such as, all use adhesive tape to realize connecting object; In the embodiment that other are possible, the first connector 40 used in same gap 25 also can be different type, such as use the connectors such as adhesive tape, screw, bolt, solder, viscose, buckle, and the type of the first connector 40 is not as limit simultaneously.First connector 40 can be located at process material block 30 complete or partial circumferential diametrically.

Before the concatenation ability of the first connector 40 is removed, process material block 30 ability that process material support 20 moves axially relatively is limited, and now processes material block 30 and or cannot be difficult to relatively to process material support 20 and move axially, both essence geo-stationary.After the concatenation ability of the first connector 40 is removed, process material block 30 recovers it can process the ability that material support 20 moves axially relatively; The method removing the first connector 40 ability is depending on the kind of the first connector 40 and fixed form, for adhesive tape, cutter can be utilized to cut open adhesive tape, make the first connector 40 lose concatenation ability process material block 30 being connected to process material support 20, but the mode of releasing adhesive tape concatenation ability is not as limit.

First connector 40 also can have the ability of seal clearance 25 further, namely can make fluid cannot by the entrance side of runner and outlet side wherein side flow to opposite side in the entrance side of runner and outlet side via gap 25, such as, adhesive tape is the connector can simultaneously with concatenation ability and sealability.

When to dismantle wherein one process material block 30 time, can carry out according to the following step:

1) concatenation ability of the first connector 40 between the process material support 20 that process material block 30 is corresponding with it is removed; Concatenation ability need not be removed without the first connector 40 related to process material block 30 to be removed;

2) process material block 30 is shifted out vertically the treatment channel 21 of process material support 20, namely as shown in Figure 2.

When personnel carry out aforesaid detachment operation, the inner space as inlet tank 3 can be entered via inlet tank AD 3a as shown in Figure 1, then the process material block 30 shifted out is taken out by AD 3a.In other suitable occasion, personnel also can carry out field-strip at EXPORT CARTON 4, or multiple personnel can to have pulled together field-strip at inlet tank 3 and EXPORT CARTON 4 respectively.

During installation process material block 30, then process material block 30 is inserted treatment channel 21, then between process material block 30 and process material support 20, first connector 40 is installed, such as use the gap 25 that silica gel is injected process material block 30 and processes between material support 20 by silica gel construction rifle, after silica gel sclerosis, process material block 30 and process material support 20 can be located.

In previous embodiment, all limits 31 of process material block 30 are all covered by angle steel 33, but the in fact also quantity of adjustable angle steel 33, in runner second embodiment such as shown in Fig. 5 to Fig. 7, angle steel 33 is only positioned at the face of outlet side in process material block 30, and the outer surface of these angle steel 33 is concordant with other surfaces of process material block 30,31, the limit of process other positions of material block 30 is not covered by angle steel 33.In order to angle steel 33 is located, such as can be coated with viscose between angle steel 33 and rank portion 34 and be fixed, make angle steel 33 and process material block 30 in geo-stationary.

On the other hand, in the runner shown in Fig. 8 the 3rd embodiment, the outlet side position of process material block 30 is equally only located at by angle steel 33, but angle steel 33 more directly contacts with process material support 20, even can also the connected mode such as viscose, solder, screw, bolt be fixed between angle steel 33 and process material support 20, then in detachable design between angle steel 33 and process material block 30, angle steel 33 can limit process material block 30 in the axial direction and deviate from towards outlet side, and the first connector 40 (such as adhesive tape) only can be arranged at the position of proximate inlet side.When dismantling process material block 30, only need the concatenation ability of the first connector 40 removing entrance side, process material block 30 axially can shift out treatment channel 21 by entrance side, and 33, angle steel still keeps being connected with process material support 20; This kind arranges one of advantage of angle steel 33 at outlet side and is, compared to adhesive tape, angle steel 33, compared with resisting the blast (usual most fluid flows to outlet side by entrance side) processing material block 30 and bear, makes process material block 30 comparatively energy strong fix.In the embodiment that other are possible, the bonding mode that also can utilize angle steel 33 is fixed on process material block 30 further, when now will dismantle process material block 30, angle steel 33 must be made to depart from bonding relation (now angle steel is considered as the first connector) with process material block 30, or make angle steel 33 depart from annexation (now angle steel is considered as processing the some of material block) with process material support 20.

In the aforementioned embodiment, the unit that can axially change in runner is process material block, but in other possibility embodiments, process material support also can become the unit that can axially change in runner, in runner such as shown in Fig. 9 to Figure 12 the 4th embodiment, this runner comprises a rotating shaft that can rotate around the axis 100, some process material supports 110, some process material blocks 120, some second connectors and a card casket case 140, its shaft 100, it is roughly similar that process material support 110 and process material block 120 and previous embodiment disclose, its special place is, at least one of these process material supports 110 has can the ability that moves axially of phase countershaft 100, namely at least one process material support 110 can axially movably be located at rotating shaft 100.

Second connector has the concatenation ability that the process material support 110 these with axial displaceability is connected to rotating shaft 100, and the concatenation ability of the second connector selectively is removed; As possible embodiment, second connector can be but is not limited to the connectors such as adhesive tape, screw, bolt, solder, viscose, buckle, the mode removing the concatenation ability of the second connector is depending on the kind of the second connector and connected mode thereof, for solder, if process material support 110 is connected with welding manner with between rotating shaft 100, the annexation that flame gun comes between disconnection process material support 110 and rotating shaft 100 can be utilized.

Card casket case 140 is for accommodating rotating shaft 100, these process material supports 110, these process material block 120 and these second connectors, card casket case 140 has an entrance 141, in the axial direction and exports 142, one entrance side rotary shaft rack 143 and an outlet side rotary shaft rack 144, card casket case 140 also comprises a housing 145 in addition, and entrance side rotary shaft rack 143 and outlet side rotary shaft rack 144 lay respectively at the axial both sides of housing 145.In the present embodiment, entrance side rotary shaft rack 143 have horizontal cross bar 1431, supporting ladder 1432 in the vertical support level cross bar 1431, arch shape part 1433 be located at horizontal cross bar 1431 stage casing, a location bearing 1436 for supporting revolving shaft 100, vertical rod 1434 and two oblique rods 1435, vertical rod 1434 and oblique rod 1435 extend to housing 145 from arch shape part 1433 radiation upward centered by rotating shaft 100; In the present embodiment, outlet side rotary shaft rack 144 has the structural design similar to entrance side rotary shaft rack 143, but in fact outlet side rotary shaft rack 144 does not need identical with the structural design of entrance side rotary shaft rack 143, the structural design of entrance side rotary shaft rack 143 and outlet side rotary shaft rack 144 is not also limited with shown in the present embodiment.Card casket case 140 is also provided with dividing plate 146 at entrance side rotary shaft rack 143, entrance 141 by dividing plate 146 enclose structure, same, card casket case 140 is also provided with dividing plate 147 at outlet side rotary shaft rack 144, outlet 142 by dividing plate 147 enclose structure, dividing plate 146,147 can be used for the flowable region of limit fluid.

Rotating shaft 100 is hubbed between entrance side rotary shaft rack 143 and outlet side rotary shaft rack 144, and such as the location bearing 1436 of entrance side rotary shaft rack 143 and outlet side rotary shaft rack 144 is located at rotating shaft 100 both ends rotationally.

Entrance 141 is divided into multiple entrance block 1411 by entrance side rotary shaft rack 143, and such as, all enclosing structure between horizontal cross bar 1431 and each oblique rod 1436 has an entrance block 1411, and also all enclosing structure between vertical rod 1435 and each oblique rod 1436 has an entrance block 1411; Same, as shown in Figure 10, outlet 142 is also divided into multiple outlet block 1421 by outlet side rotary shaft rack 144.Can comprise at least one movable barrier 1461 in dividing plate 146,147 and be close to wherein an entrance block 1411 or wherein an outlet block 1421, in the present embodiment, movable barrier 1461 is close to a wherein entrance block 1411.In the present embodiment, movable barrier 1461 is removably located at housing 145, when movable barrier 1461 is in an operating position, movable barrier 1461 is connected to housing 145 and jointly encloses structure entrance 141 with other parts of dividing plate 146, the entrance block 1411 making it be close to has less profile by it covers, and movable barrier 1461 is overlapping with at least one process material support 110 local in the axial direction.When movable barrier 1461 is non-be positioned at operating position time, such as movable barrier 1461 unloads from housing 145, at least one process material support 110 can be made not overlapping in the axial direction with movable barrier 1461, and now the profile of the entrance block 1411 that movable barrier 1461 is former be close to expands to is enough to supply a wherein process material support 110 to shift out this card casket case via the entrance block 1411 expanded vertically.If when the dividing plate 147 being positioned at outlet side also has movable barrier, its design can be similar to movable barrier 1461, do not repeat them here.

Before the concatenation ability of the second connector is removed, the ability that process material support 110 phase countershaft 100 moves axially is limited, and now process material support 110 with rotating shaft 100 in geo-stationary, process material support 110 can rotate in the lump with rotating shaft 100.On the other hand, after the concatenation ability of the second connector is removed, the process material support 110 corresponding to it recovers it can the ability that moves axially of phase countershaft 100.

When process material support 110 will be dismantled, can carry out according to the following step:

1) concatenation ability of a part of second connector is removed;

2) as shown in Figure 11, Figure 12, card casket case 140 is shifted out corresponding to vertically by the process material support 110 of the second connector removing concatenation ability.

It should be noted that, these have and can the process material support 110 of axial displaceability also may be connected with suitable connected mode with between adjacent process material support 110, before now process material support 110 moves axially, also need the annexation disconnected further between adjacent process material support 110.It should be noted that, do not corresponded to by the process material support 110 of the second connector removing concatenation ability the entrance block 1411 expanded in the axial direction if should correspond to, then in step 2) before front (being included in step 1)) more first rotating this runner, the entrance block 1411 making the process material support 110 that will be moved out of former be close to movable barrier 1461 is corresponding in the axial direction.Separately it should be noted that, its axial action path of process material support 110 to dismounting can be overlapping with movable barrier 146, then first movable barrier 146 can be moved to off-position, the profile of the entrance block 1411 making movable barrier 146 former be close to expands (as shown in Figure 9), dismantles to process material support 110.

Please refer to shown in Figure 13, the another kind of set-up mode of this figure main manifestations movable barrier 1461, in more detail, the movable barrier 1461 of the present embodiment is hubbed at housing 145 by hinge or other pivot connecting elements, thus movable barrier 1461 can be put by pivot between operating position and an enable possition.In Figure 13, movable barrier 1461 is just positioned at enable possition, and now movable barrier 1461 can unlikelyly overlappingly in the axial direction with process material support 110 make the profile of the entrance block 1411 of the former next-door neighbour of movable barrier 1461 expand to be enough to confession to process material support 110 to shift out card casket case 140 via the entrance block 1411 of this expansion vertically.

It should be noted that, movable barrier except removably or articulated manner arrange except, other modes can also be utilized to arrange, such as make other elements of movable barrier and card casket case adopt can the mode of relative sliding arrange, or movable barrier also can change into and is articulated in entrance side rotary shaft rack or outlet side rotary shaft rack.In addition, be understandable that, if movable barrier when operating position can with wherein one process material block overlapping in the axial direction time, when then will dismantle separately this process material block, movable barrier need be moved to off-position equally, make the entrance block of the former next-door neighbour of movable barrier or outlet block expand foot to for this process material ingot axis to shifting out, the mode that its operation principle and dismounting process material support duplicates.

Please refer to Figure 14, the another kind of connected mode of this figure main manifestations process material support 110 and rotating shaft 100, process material support 110 has corresponding screw with between rotating shaft 100, and utilizes the second connector 130 (i.e. screw) both to be optionally spirally connected fixing.

Please refer to Figure 15, in the second embodiment of the utility model fluid treating plant, more comprise a back-end processing device 1 ', back-end processing device 1 ' is for processing the fluid of discharging from EXPORT CARTON 4 further, be applicable to back-end processing device 1 ' of the present utility model and include but not limited to incinerator (such as fuel type or catalyst incinerator), condenser or fluidized floating bed adsorption desorption equipment, the combustion heat that wherein incinerator produces can be provided as the heat energy needed for runner desorption and regeneration.

Finally; must again illustrate, the composed component that the utility model is disclosed in the aforementioned embodiment is only and illustrates, is not used for limiting the scope of patent protection of this case; other equivalence elements substitute or change, also should contain by the scope of patent protection of this case.

Claims (18)

1. a runner, it has an entrance side and an outlet side in the axial direction, and described runner flows between its entrance side and outlet side for fluid, it is characterized in that described runner comprises:

One rotating shaft that can sway;

At least one process material support, encloses at least one treatment channel of structure, and described process material props up and is set up in described rotating shaft;

At least one process material block, is filled at the treatment channel of described process material support, and described process material block has can the ability that moves axially of relatively described process material support;

Some first connectors, have the concatenation ability described process material block being connected to described process material support, and the concatenation ability of described first connector optionally can be removed; Before the concatenation ability of described first connector is removed, the ability that described process material block relatively described process material support moves axially is limited; After the concatenation ability of described first connector is removed, described process material block recovers it can the ability that moves axially of relatively described process material support.

2. runner as claimed in claim 1, is characterized in that: have gap between described process material support and described process material block, and described first connector is the adhesive tape being filled at described gap at least partly.

3. runner as claimed in claim 1, it is characterized in that: between described process material support and described process material block, there is gap, and described first connector have more make fluid cannot by the entrance side of described runner and outlet side wherein side via the ability of opposite side in described Clearance Flow to the entrance side of described runner and outlet side.

4. runner as claimed in claim 1, is characterized in that: at least one part of described first connector is positioned at the entrance side of described runner.

5. runner as claimed in claim 1, it is characterized in that: described process material block have multiple limit and multiple respectively by a plurality of limit enclose the face of structure, described process material block at least while be provided with an angle steel, described angle steel is covered in the local surfaces of wherein two adjacent surfaces of described process material block.

6. runner as claimed in claim 5, is characterized in that: enclose a plurality of limits processing material block wherein one side described in structure and be equipped with described angle steel.

7. runner as claimed in claim 6, is characterized in that: around by described angle steel around face be positioned at the outlet side of described runner.

8. runner as claimed in claim 5, is characterized in that: described process material block has rank portion on the limit being provided with angle steel, and described rank portion is located at by described angle steel, and the outer surface of angle steel is concordant with the surface do not covered by angle steel in described two adjacent surfaces.

9. runner as claimed in claim 5, is characterized in that: the described angle steel of at least one part has the baffle plate that is positioned at described runner entrance side or outlet side respectively, and described baffle plate offers through hole in the axial direction.

10. runner as claimed in claim 1, it is characterized in that: more comprise a card casket case, in order to accommodating described rotating shaft, each described process material support, each described process material block and each described first connector, described card casket case has an entrance in the axial direction, one outlet, one entrance side rotary shaft rack and an outlet side rotary shaft rack, described rotating shaft is hubbed between described entrance side rotary shaft rack and outlet side rotary shaft rack, described entrance is divided at least two entrance blocks by described entrance side rotary shaft rack, described outlet is divided at least two outlet blocks by described outlet side rotary shaft rack, described card casket case have more at least one next-door neighbour wherein an entrance block or wherein one outlet block movable barrier, described movable barrier is when an operating position, and the entrance block that it is close to or outlet block have less profile by it covers, and described movable barrier is overlapping with at least one process material block local in the axial direction, described movable barrier is non-when being positioned at described operating position, at least one process material block and described movable barrier can be made in the axial direction for non-overlapped, and the profile of the entrance block of the former next-door neighbour of described movable barrier or outlet block be expanded to be enough to shift out described card casket case via the entrance block of described expansion or outlet block vertically for a wherein process material block.

11. 1 kinds of runners, it has an entrance side and an outlet side in the axial direction, and described runner flows between its entrance side and outlet side for fluid, it is characterized in that described runner comprises:

One rotating shaft that can sway;

Some process material supports, enclose at least one treatment channel of structure respectively, and each described process material props up and is set up in described rotating shaft, and wherein at least one process material support have can the ability that moves axially of relatively described rotating shaft;

Some process material blocks, are filled at the treatment channel of each described process material support respectively;

Some second connectors, have and described process material support is at least partially connected to the concatenation ability of described rotating shaft, and the concatenation ability of described second connector optionally can be removed; Before the concatenation ability of described second connector is removed, the ability that the relatively described rotating shaft of described process material support moves axially is limited; After the concatenation ability of described second connector is removed, the process material support corresponding to it recovers it can the ability that moves axially of relatively described rotating shaft.

12. runners as claimed in claim 11, it is characterized in that: more comprise a card casket case, for accommodating described rotating shaft, each described process material support, each described process material block and each described second connector, described card casket case has an entrance in the axial direction, one outlet, one entrance side rotary shaft rack and an outlet side rotary shaft rack, described rotating shaft is hubbed between described entrance side rotary shaft rack and outlet side rotary shaft rack, described entrance is divided at least two entrance blocks by described entrance side rotary shaft rack, described outlet is divided at least two outlet blocks by described outlet side rotary shaft rack, described card casket case have more at least one next-door neighbour wherein an entrance block or wherein one outlet block movable barrier, described movable barrier is when an operating position, and entrance block or the outlet block of its next-door neighbour have less profile by it covers, and described movable barrier is overlapping with at least one process material support local in the axial direction, described movable barrier is non-when being positioned at described operating position, at least one process material support and the non-overlapped in the axial direction and profile that is that make the entrance block of the former next-door neighbour of described movable barrier or export block of described movable barrier can be made to expand to be enough to for wherein one process material support vertically via described expansion entrance block or export block and shift out described card casket case.

13. runners as claimed in claim 12, is characterized in that: described card casket case has a housing, and described movable barrier is located at described housing removedly.

14. runners as claimed in claim 12, it is characterized in that: described card casket case has a housing, described movable barrier is hubbed at described housing and can puts by pivot between described operating position and an enable possition, when described movable barrier is positioned at described enable possition, the profile of the entrance block of the former next-door neighbour of described movable barrier or outlet block is expanded to be enough to shift out described card casket case via the entrance block of described expansion or outlet block vertically for a wherein process material support.

15. 1 kinds of fluid treating plants, is characterized in that comprising:

Just like the runner according to any one of claim 1 to 14;

One inlet tank, is located at the entrance side of described runner;

One EXPORT CARTON, is located at the outlet side of described runner, and described fluid treating plant imports described runner by described inlet tank at least a part of fluid and discharges from described EXPORT CARTON.

16. fluid treating plants as claimed in claim 15, it is characterized in that: described fluid treating plant is one for the honeycomb zeolite runner inspissator of gas purification process, and described fluid treating plant comprises an adsorption zone, a desorption district and a desorption and regeneration heat exchange zone.

17. fluid treating plants as claimed in claim 15, it is characterized in that: more comprise a back-end processing device, for processing the fluid of discharging from described EXPORT CARTON further, described back-end processing device is an incinerator, condenser or fluidized floating bed adsorption desorption equipment.

18. fluid treating plants as claimed in claim 16, it is characterized in that: more comprise a back-end processing device, for processing the fluid of discharging from described EXPORT CARTON further, described back-end processing device is an incinerator, condenser or fluidized floating bed adsorption desorption equipment.