CN205340757U - Export collector and reaction vessel - Google Patents

Abstract

The utility model discloses an export collector and reaction vessel, the export collector is used for detaining the material of establishing at reaction vessel and exports with the filter responses material, wherein, it forms to including roof (1) and lateral wall (2) and downward open -ended tube structure to export the collector, roof (1) and the subregion of lateral wall (2) forms to mesh structure, the export collector was followed the the central axis's of barrel cross -section and was split into a plurality of parts that can dismantle the connection each other. Through above -mentioned technical scheme, split into a plurality of parts through exporting the collector, can relatively reduce the volume of each part to the entry that reaction vessel is passed through to each part can be transported comparatively conveniently, and can change the part of each damage to ground, investment cost is reduced.

Description

Exit collector and reaction vessel

Technical field

This utility model relates to chemical reaction equipment, in particular it relates to a kind of exit collector and reaction vessel.

Background technology

Hydrogenation reactor is a very important equipment in Organic Chemistry Laboratory and actual production process, serves not only as the container of hydrogenation reaction, and can also be used for liquids and gases and need well-mixed occasion.

The diapire of hydrogenation reactor is formed with outlet, in order to product discharged.Organic chemical reactions needs to use catalyst mostly, it is not discharged for ensureing that catalyst can be retained in reaction vessel, exit collector can be set in exit position on diapire, exit collector is formed with filter structure, can only allow the fluid of reaction generation or smaller particle to pass through, serve the effect of filtration.

Currently used exit collector is integral type structure, and volume is relatively big, is difficult to the outlet by reaction vessel during installation and removal, and this gives to install and brings bigger difficulty with maintenance operation.

Accordingly, it is desirable to provide the exit collector of a kind of readily accessible installation.

Utility model content

The purpose of this utility model is to provide a kind of exit collector being easily installed dismounting.

It addition, the purpose of this utility model also includes providing a kind of reaction vessel with the exit collector being easily installed dismounting.

To achieve these goals, this utility model provides a kind of exit collector, for being located in the material outlet of reaction vessel to filter reacting substance, wherein, described exit collector is formed as including roof and sidewall and downwardly open tube structure, the subregion of described roof and described sidewall is formed as screen net structure, and described exit collector is divided into, along the cross section of the central axis crossing cylinder, the multiple parts removably connected each other.

Preferably, described tube structure is divided into two and half portions, and " door " the shape section in each described half portion is parallel and is connected to the plate face of connecting plate of " door " shape, and two described connecting plates are removably fitted and connected by securing member.

Preferably, described half portion includes the main support beam of multiple door shape being parallel to described connecting plate, and the top edge of the horizontal plate part of multiple described main support beams is connected to the inner surface of described roof, and the outward flange in vertical plate portion is connected to the inner surface of described sidewall.

Preferably, described exit collector also includes auxiliary and supports beam, this auxiliary supports one end of beam and is connected to apart from the farthest described main support beam of described connecting plate, and this auxiliary supports the other end of beam and supports and be connected to described sidewall and be formed with the part of described screen net structure.

Preferably, described sidewall includes the installation pipe being positioned at the port of export, and the tube wall of described installation pipe is formed with installing hole to be removably installed in the bottom of reaction vessel by securing member.

Preferably, described sidewall includes annular slab and the wire mesh tube surrounded by described screen net structure, and this annular slab is connected between upper surface and the lower surface of described wire mesh tube of described installation pipe.

Preferably, the outward flange of described annular slab is concordant with the outer surface of described installation pipe.

Preferably, described sidewall also includes transition conduit, and the two ends of this transition conduit are connected to described ceiling edge and described wire mesh tube upper end.

Preferably, described screen net structure includes support bar and net muscle, this net muscle be arranged in parallel equally spacedly, and described net muscle is perpendicular to and is fixed on parallel to each other and equi-spaced apart described support bar, the cross section of this net muscle is formed as the drift angle isosceles triangle towards described support bar, and described net muscle is positioned at the support-side of described screen net structure.

Additionally, this utility model additionally provides a kind of reaction vessel, and wherein, described reaction vessel includes the exit collector according to any one in above scheme, the diapire of described reaction vessel is formed with material outlet, and described exit collector button sets and is installed on this material outlet.

Pass through technique scheme, by exit collector being divided into multiple part, it is possible to relatively reduce the volume of every part, such that it is able to transport often entrance in part through reaction vessel more conveniently, and the part of each damage can be changed for ground, reduce cost of investment.

Other features and advantages of the utility model will be described in detail in detailed description of the invention part subsequently.

Accompanying drawing explanation

Accompanying drawing is used to offer and is further appreciated by of the present utility model, and constitutes a part for description, is used for explaining this utility model, but is not intended that restriction of the present utility model together with detailed description below.In the accompanying drawings:

Fig. 1 is the structural representation of the exit collector according to a kind of detailed description of the invention of the present utility model.

Fig. 2 is the structural representation that B direction is observed along Fig. 1.

Fig. 3 is the schematic diagram of the screen net structure that A direction is observed along Fig. 1.

Fig. 4 is the horizontal sectional view (observing from bottom to top) of screen net structure in Fig. 3.

Fig. 5 is the structural representation of the connecting plate that C direction is observed along Fig. 1.

Fig. 6 is the structural representation of the main support beam that D direction is observed along Fig. 1.

Description of reference numerals

1 roof 2 sidewall

The 3 main support beams of connecting plate 4

5 auxiliary support beam 6 and install pipe

7 annular slab 8 wire mesh tube

The 9 fixing pipes of transition conduit 10

11 support bar 12 net muscle

13 diapire 14 outlets

Detailed description of the invention

Below in conjunction with accompanying drawing, detailed description of the invention of the present utility model is described in detail.It should be appreciated that detailed description of the invention described herein is merely to illustrate and explains this utility model, it is not limited to this utility model.

In this utility model, when not making contrary explanation, the noun of locality of use as " upper and lower " typically refer in Fig. 1 upper and lower, i.e. described exit collector is located opposite from described container outlet position.

This utility model provides a kind of exit collector, for being located in the material outlet of reaction vessel to filter reacting substance, wherein, described exit collector is formed as including roof 1 and sidewall 2 and downwardly open tube structure, the subregion of roof 1 and sidewall 2 is formed as screen net structure, and described exit collector is divided into, along the cross section of the central axis crossing cylinder, the multiple parts removably connected each other.

Described exit collector is for being arranged on the inside of reaction vessel, the entrance of reaction vessel is required over during installation or removal, by described exit collector is split as multiple part, it is possible to relatively reducing the volume of every part, more convenient conveying is by reaction vessel entrance.And if a portion structure is damaged, it is possible to change the part of each damage for ground, reduce cost of investment.Described exit collector is for being located in the diapire exit position of reaction vessel, to will being filtered from the material that outlet is discharged, especially, can support and stop catalyst, preventing catalyst loss, wherein, roof 1 and the screen net structure on sidewall 2 play main filtration.

Preferably, described tube structure is divided into two and half portions, and " door " the shape section in each described half portion is parallel and is connected to the plate face of connecting plate 3 of " door " shape, and two described connecting plates 3 are removably fitted and connected by securing member.As depicted in figs. 1 and 2, connecting plate 3 is generally located on the diameter line of described tube structure, and the realization of fitting each other of two connecting plates 3 is tightly connected, it is prevented that material leaks from junction.As it is shown in figure 5, connecting plate 3 is formed installation through hole, it is possible to removably two and half cylinders are connected by bolt part.In this embodiment, described tube structure is formed as two parts, it is of course also possible to be formed as three, four etc..

Additionally, as depicted in figs. 1 and 2, described half portion includes the main support beam 4 of multiple door shape (as shown in Figure 6) being parallel to connecting plate 3, and the top edge of the horizontal plate part of multiple main support beams 4 is connected to the inner surface of roof 1, and the outward flange in vertical plate portion is connected to the inner surface of sidewall 2.The overall structure in half portion is comparatively thin, and its size is also bigger, diameter is up to several meters, the part being formed with described screen net structure in particular is easier to deformation, therefore main support beam 4 can be set and be supported on roof 1 and the inner side of sidewall 2, such that it is able to prevent described exit collector by material crimp.Main support beam 4 can be plate, and the plate face of this plate is parallel to connecting plate 3, namely by screen net structure described in the edge supports of plate, reduces blocking described screen net structure.

As shown in Figure 2, described exit collector also includes auxiliary and supports beam 5, this auxiliary supports one end of beam 5 and is connected to the main support beam 4 that distance join plate 3 is farthest, and the other end of this auxiliary support beam 5 supports and is connected to sidewall 2 and is formed with the part of described screen net structure.It is relatively big and distant with sidewall 2 that the farthest main support beam 4 of distance join plate 3 is likely to be due to length so that this main support beam 4 to sidewall 2 can not obtain enough supports, therefore auxiliary can be set and support beam 5 sidewall 2 of this part is supported.It addition, the support beam that can also pass through the horizontal plate part of this main support beam 4 vertical between main support beam 4 supports, for instance, the support beam that be generally located at diameter line on vertical with connecting plate 3 shown in Fig. 2.Above-described support beam can be plate or rod member etc..

It addition, sidewall 2 includes the installation pipe 6 being positioned at the port of export, the tube wall installing pipe 6 is formed with installing hole to be removably installed in the bottom of reaction vessel by securing member.In order to realize filtration, sidewall 2 and roof 1 can be formed by described screen net structure as much as possible, but described screen net structure is not easy to realize being connected with miscellaneous part, for instance should not pass through comparatively conventional bolted mode.Therefore the port of export (i.e. the lower end of described exit collector) of sidewall 2 can be arranged installation pipe 6, pipe 6 is installed can be metal tube and form installing hole, correspondingly, as shown in Figure 1, the diapire 13 of reaction vessel is provided with fixing pipe 10, pipe 6 is installed and can pass through bolt part removably ampere in fixing pipe 10.

It addition, sidewall 2 includes annular slab 7 and the wire mesh tube 8 surrounded by described screen net structure, this annular slab 7 is connected between upper surface and the lower surface of wire mesh tube 8 installing pipe 6.The connecting end surface installing pipe 6 is less, connection with wire mesh tube 8 is comparatively difficult, therefore annular slab 7 it is provided with, the plate face of annular slab 7 is perpendicular to the central axis of described exit collector, the plate face area of annular slab 7 is bigger, pipe 6 and wire mesh tube 8 are installed and can be connected to lower surface and the upper surface of annular slab 7, for instance welding, the connected mode such as bonding can be adopted.

Further, the outward flange of annular slab 7 is concordant with the outer surface installing pipe 6, and the periphery " wire side " that wire mesh tube 8 is formed can also be concordant with the outward flange of annular slab 7, thus sidewall 2 forms comparatively smooth outer peripheral face, avoiding or reduce scratch, operation of being more convenient for is installed.

It addition, described sidewall 2 also includes transition conduit 9, the two ends of this transition conduit 9 are connected to roof 1 edge and wire mesh tube 8 upper end.Transition conduit 9, for connecting the described screen net structure of sidewall 2 and roof 1, is directly connected to compared to described screen net structure, such attended operation can be made more simple by transition conduit 9.The described screen net structure of roof 1 can be connected to the inner peripheral surface of transition conduit 9, and wire mesh tube 8 can be connected to the lower surface of transition conduit 9, it is of course also possible to arrange the structure being similar to annular slab 7 between wire mesh tube 8 and transition conduit 9, simplifies attended operation therebetween.

Specifically, as shown in Figure 3 and Figure 4, described screen net structure includes support bar 11 and net muscle 12, this net muscle 12 be arranged in parallel equally spacedly, and net muscle 12 is perpendicular to and is fixed on parallel to each other and equi-spaced apart support bar 11, and the cross section of net muscle 12 is formed as the drift angle isosceles triangle towards support bar 11, and net muscle 12 is positioned at the support-side of described screen net structure, net muscle 12 may be located at the outside of described exit collector, as main filtration.In the structure shown here, first the wide end (base corresponding to isosceles triangle) of net muscle 12 is contacted with material to be filtered, the width of the passage formed between net muscle 12 is gradually increased, and therefore can pass easily through this passage after entering passage by material particles, and seldom block.

Additionally, this utility model additionally provides a kind of reaction vessel, and wherein, described reaction vessel includes the exit collector according to any one in above scheme, the diapire of described reaction vessel is formed with material outlet, and described exit collector button sets and is installed on this material outlet.As shown in Figure 1, it is shown that the structure of the bottom wall portion of described reaction vessel, diapire 13 is formed with outlet, and is formed with outlet 14 in the outside of diapire 13, and the inwall at diapire 13 is formed with the fixing pipe 10 around described outlet to install described exit collector.

Preferred implementation of the present utility model is described in detail above in association with accompanying drawing; but; this utility model is not limited to the detail in above-mentioned embodiment; in technology concept of the present utility model; the technical solution of the utility model can being carried out multiple simple variant, these simple variant belong to protection domain of the present utility model.

It is further to note that, each concrete technical characteristic described in above-mentioned detailed description of the invention, in reconcilable situation, it is possible to be combined by any suitable mode, in order to avoid unnecessary repetition, various possible compound modes are no longer illustrated by this utility model separately.

Additionally, can also carry out combination in any between various different embodiment of the present utility model, as long as it is without prejudice to thought of the present utility model, it should be considered as content disclosed in the utility model equally.

Claims (10)

1. an exit collector, for being located in the material outlet of reaction vessel to filter reacting substance, it is characterized in that, described exit collector is formed as including roof (1) and sidewall (2) and downwardly open tube structure, the subregion of described roof (1) and described sidewall (2) is formed as screen net structure, and described exit collector is divided into, along the cross section of the central axis crossing cylinder, the multiple parts removably connected each other.

2. exit collector according to claim 1, it is characterized in that, described tube structure is divided into two and half portions, " door " the shape section in each described half portion is parallel and is connected to the plate face of connecting plate (3) of " door " shape, and two described connecting plates (3) are removably fitted and connected by securing member.

3. exit collector according to claim 2, it is characterized in that, described half portion includes the main support beam (4) of multiple door shape being parallel to described connecting plate (3), the top edge of the horizontal plate part of multiple described main support beams (4) is connected to the inner surface of described roof (1), and the outward flange in vertical plate portion is connected to the inner surface of described sidewall (2).

4. exit collector according to claim 3, it is characterized in that, described exit collector also includes auxiliary and supports beam (5), this auxiliary supports one end of beam (5) and is connected to apart from the farthest described main support beam (4) of described connecting plate (3), and this auxiliary supports the other end of beam (5) and supports and be connected to described sidewall (2) and be formed with the part of described screen net structure.

5. exit collector according to claim 1, it is characterized in that, described sidewall (2) includes the installation pipe (6) being positioned at the port of export, and the described tube wall installing pipe (6) is formed with installing hole to be removably installed in the bottom of reaction vessel by securing member.

6. exit collector according to claim 5, it is characterized in that, described sidewall (2) includes annular slab (7) and the wire mesh tube (8) surrounded by described screen net structure, and this annular slab (7) is connected between described upper surface and the lower surface of described wire mesh tube (8) installing pipe (6).

7. exit collector according to claim 6, it is characterised in that the outward flange of described annular slab (7) is concordant with the outer surface of described installation pipe (6).

8. exit collector according to claim 5, it is characterized in that, described sidewall (2) also includes transition conduit (9), and the two ends of this transition conduit (9) are connected to described roof (1) edge and described wire mesh tube (8) upper end.

9. exit collector according to claim 1, it is characterized in that, described screen net structure includes support bar (11) and net muscle (12), this net muscle (12) be arranged in parallel equally spacedly, and described net muscle (12) is perpendicular to and is fixed on parallel to each other and equi-spaced apart described support bar (11), the cross section of this net muscle (12) is formed as the drift angle isosceles triangle towards described support bar (11), and described net muscle (12) is positioned at the support-side of described screen net structure.

10. a reaction vessel, it is characterised in that described reaction vessel includes the exit collector according to any one in claim 1-9, the diapire of described reaction vessel is formed with material outlet, and described exit collector button sets and is installed on this material outlet.