CN216171039U - Mushroom head air inlet device - Google Patents

Abstract

The utility model discloses a mushroom head air inlet device which comprises a container pipe, a bent pipe, a buffer mechanism, a sleeve ring and a processing mechanism, wherein the bent pipe is welded inside the left side of the container pipe, the buffer mechanism which can effectively slow the introduced gas and liquid and can make the gas flow and distribution more uniform is installed at the upper end of the bent pipe, a frame plate is welded inside the buffer mechanism, the sleeve ring is welded in the middle of the frame plate, and the processing mechanism which can correspondingly and effectively pre-separate the gas and liquid with different components is installed inside the sleeve ring. Through buffer gear to improving gas distribution, buffering air current and reaching better effect, on the other hand also plays the coarse separation effect, reduces the load of the smart discrete unit in top, is convenient for carry out more effectual coarse separation processing to the gas-liquid of the different composition of circulation through processing mechanism, has improved air inlet unit's result of use.

Description

Mushroom head air inlet device

Technical Field

The utility model relates to the technical field of chemical gas-liquid separation, in particular to a mushroom head gas inlet device.

Background

With the development of the chemical industry, the development of the chemical industry is rapid, and various chemical production comes out endlessly, wherein gas-liquid separation is a common processing process in the chemical production.

Patent CN201810231594.5 discloses a steam pipeline water separator, and the device passes through overhead gage, well baffle and the lower baffle that is equipped with in the vertical cylinder pipe, can in time detach the water in the steam, and the practicality is strong, suitable popularization.

The air inlet device has the following defects: 1. the tangential baffle gas inlet device of the gas inlet device can only distribute process gas to one direction, if the size of the gas inlet is overlarge, the tangential baffle gas inlet device becomes very large, the buffer effect on gas flow is limited, and the performance requirement of equipment with higher separation requirement cannot be met. 2. The gas inlet device has a single gas-liquid separation effect, does not have the function of adding different separation filter screens, and cannot achieve the corresponding separation effect if gas-liquid with different components needs to be separated, so that the use effect of the separation device is reduced.

Disclosure of Invention

The utility model mainly aims to provide a mushroom head air inlet device which can effectively solve the problems in the background technology.

In order to achieve the purpose, the utility model adopts the technical scheme that:

a mushroom head air inlet device comprises a container pipe, a bent pipe, a buffering mechanism, a sleeve ring and a processing mechanism, wherein the bent pipe is welded inside the left side of the container pipe, the buffering mechanism which is used for effectively slowing the speed of gas and liquid introduced into the container pipe and enabling the gas to flow and distribute more uniformly is mounted at the upper end of the bent pipe, a frame plate is welded inside the buffering mechanism, the sleeve ring is welded in the middle of the frame plate, and the processing mechanism which is used for correspondingly and effectively pre-separating gas and liquid with different components is mounted inside the sleeve ring;

buffer gear includes vaulting pole, oval head, the even board of second and first bolt, the vaulting pole welds the dress at container pipe right side inner wall and left end and the welding of return bend right side outer wall, the oval head is installed in return bend upside outside, oval head edge lower side outer wall is welded and is equipped with first even board, the second is even the board and is welded the dress at return bend upper end side outer wall, the second has even the inside second thread groove of having seted up in board outer end, first thread groove has been seted up to first board lower extreme inside, first bolt engagement is installed inside first thread groove and second thread groove.

Further, the processing mechanism comprises a third screw groove, a separating net and a second bolt, the third screw groove is formed in the lower ends of the left side and the right side of the lantern ring, the separating net is clamped on the upper side surface of the lantern ring, a clamping ring is arranged on the outer wall of the side surface of the separating net in a melting mode, a fourth screw groove is formed in the lower ends of the left side and the right side of the clamping ring, and the second bolt is installed in the third screw groove and the fourth screw groove in a meshing mode; the different separation nets can be conveniently replaced according to different gas-liquid components to carry out more effective treatment.

Furthermore, a tear hole is formed in the side wall of the lower end of the bent pipe; preventing liquid accumulation in the bent pipe.

Further, the first bolt outer wall threads are meshed with the first screw groove inner wall threads and the second screw groove inner wall threads; the oval end socket is more convenient to fix or disassemble.

Furthermore, the diameter of the upper end of the clamping ring is the same as the inner diameter of the lantern ring, and the lantern ring is in an inverted funnel shape and made of rubber; facilitating the quick replacement of different separating nets by elastic contraction.

Further, the threads on the outer wall of the second bolt are meshed with the threads on the inner wall of the third screw groove and the fourth screw groove; more effective fixation of the separation net.

Compared with the prior art, the utility model has the following beneficial effects: 1. when gas-liquid separation is needed, the elliptical sealing head is hung and moved to the upper side of the elbow only through the hook lifting lugs of the hanging equipment, the elliptical sealing head is put down downwards to enable the lantern ring to be inserted into the upper side of the elbow, meanwhile, the first connecting plate welded on the lower side of the edge of the elliptical sealing head is aligned with the second connecting plate welded on the outer wall of the side face of the elbow respectively, the first screw groove and the second screw groove are aligned respectively, the first bolt is meshed and installed inside the first screw groove and the second screw groove through a tool, the elliptical sealing head can be fixedly connected with the elbow, gas containing liquid in the elbow can enter the elliptical sealing head, the buffering effect is achieved for the gas, the gas distribution is improved at the same time, a certain rough separation effect is achieved, the load of subsequent fine separation is reduced, meanwhile, the disassembly and the cleaning or the replacement are convenient, and the using effect of the gas inlet device is improved.

2. When handling the gas-liquid to different compositions, at first upwards aim at the lantern ring with the separation net of different materials, upwards promote the separation net hard and make the snap ring of rubber material around receive lantern ring inner wall extrusion deformation, after the separation net moves out from the lantern ring upper end completely, make the third thread groove of intra-annular fourth thread groove of snap ring and lantern ring align, upwards mesh the second bolt and install inside third thread groove and fourth thread groove, accomplish the fixed of separation net, after the separation net of corresponding processing material is upwards passed to different compositions, reach more effectual separation effect, when needs to be changed the separation net, only need twist the second bolt and rotate its meshing and go out downwards, draw the separation net downwards hard and draw the rubber material snap ring and receive the extrusion secondary deformation and pass from the lantern ring inboard and can accomplish and take out, the result of use of air inlet unit has been improved.

Drawings

Fig. 1 is a schematic front sectional perspective view of a mushroom head air inlet device according to the present invention.

Fig. 2 is a schematic view of an elevation section structure of an oval seal head of the mushroom head air inlet device.

Fig. 3 is a partially enlarged structural view of a part a in fig. 1 of a mushroom head air inlet device according to the present invention.

Fig. 4 is a schematic view of the bottom partial cross-section of the oval head of the mushroom head air inlet device of the present invention.

In the figure: 1. a container tube; 2. bending the pipe; 3. a tear hole; 401. a stay bar; 402. an elliptical head; 403. lifting lugs; 404. a first connecting plate; 405. a second connecting plate; 406. a second screw groove; 407. a first screw groove; 408. a first bolt; 5. a frame plate; 6. a collar; 701. a third screw groove; 702. a separation net; 703. a snap ring; 704. a fourth screw groove; 705. and a second bolt.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the utility model easy to understand, the utility model is further described with the specific embodiments.

As shown in fig. 1-4, a mushroom head air inlet device comprises a container pipe 1, an elbow pipe 2, a buffer mechanism, a lantern ring 6 and a processing mechanism, wherein the elbow pipe 2 is welded inside the left side of the container pipe 1, the upper end of the elbow pipe 2 is provided with the buffer mechanism which can effectively slow the introduced gas and liquid and make the gas flow and distribution more uniform, a frame plate 5 is welded inside the buffer mechanism, the lantern ring 6 is welded in the middle of the frame plate 5, and the processing mechanism which can correspondingly and effectively pre-separate the gas and liquid with different components is arranged inside the lantern ring 6;

buffer gear includes vaulting pole 401, oval head 402, the even board 405 of second and first bolt 408, vaulting pole 401 welds dress and welds at 1 right side inner wall of containment pipe and left end and 2 right side outer walls of return bend, oval head 402 is installed in 2 upside outsides of return bend, first board 404 is equipped with in the outer wall welding of oval head 402 edge lower side, the even board 405 of second welds the dress at 2 upper end side outer walls of return bend, the second link board 405 outer end is inside to be seted up the second spiral shell groove 406, first link board 404 lower extreme is inside to be seted up first spiral shell groove 407, the meshing of first bolt 408 is installed inside first spiral shell groove 407 and second spiral shell groove 406.

The processing mechanism comprises a third screw groove 701, a separating net 702 and a second bolt 705, the third screw groove 701 is formed in the lower ends of the left side and the right side of the lantern ring 6, the separating net 702 is clamped on the upper side surface of the lantern ring 6, a snap ring 703 is welded on the outer wall of the side surface of the separating net 702, a fourth screw groove 704 is formed in the lower ends of the left side and the right side of the snap ring 703, and the second bolt 705 is meshed and installed in the third screw groove 701 and the fourth screw groove 704; so as to replace different separation nets 702 according to different gas-liquid components for more effective treatment.

Wherein, the side wall of the lower end of the elbow 2 is provided with a lacrimal hole 3; and liquid accumulation in the elbow pipe 2 is prevented.

Wherein, the outer wall thread of the first bolt 408 is meshed with the inner wall threads of the first thread groove 407 and the second thread groove 406; it is more convenient to fix or remove the elliptical head 402.

The diameter size of the upper end of the snap ring 703 is the same as the inner diameter size of the lantern ring 6, and the lantern ring 6 is in an inverted funnel shape and made of rubber; facilitating rapid exchange of the different separation webs 702 by elastic contraction.

Wherein, the thread of the outer wall of the second bolt 705 is engaged with the thread of the inner wall of the third thread groove 701 and the fourth thread groove 704; more effective fixation of the separation net 702.

It should be noted that, when gas-liquid separation is required, the utility model is a mushroom head gas inlet device, and only needs to hang and move the elliptical head 402 to the upper side of the elbow pipe 2 by the hook lifting lug 403 of the hanging device, lower the elliptical head 402 downwards to insert the lantern ring 6 on the upper side of the elbow pipe 2, and simultaneously make the first connecting plate 404 welded on the lower side of the edge of the elliptical head 402 align with the second connecting plate 405 welded on the outer wall of the side surface of the elbow pipe 2, and make the first spiral groove 407 align with the second spiral groove 406, and install the first bolt 408 inside the first spiral groove 407 and the second spiral groove 406 by engaging with a tool, so as to fixedly connect the elliptical head 402 with the elbow pipe 2, so that the gas containing liquid in the elbow pipe 2 can enter the inside of the elliptical head 402, achieve the effect of buffering the gas and improving the gas distribution, also achieve a certain coarse separation effect, and reduce the load of subsequent fine separation, when gas and liquid with different components are treated, firstly, the separation net 702 made of different materials is upwards aligned to the lantern ring 6, the separation net 702 is upwards and forcefully pushed to enable the clamping ring 703 made of surrounding rubber materials to be extruded and deformed by the inner wall of the lantern ring 6, after the separation net 702 is completely moved out of the upper end of the lantern ring 6, the fourth screw groove 704 in the clamping ring 703 is aligned with the third screw groove 701 of the lantern ring 6, the second bolt 705 is upwards meshed and installed in the third screw groove 701 and the fourth screw groove 704, the separation net 702 is fixed, after different components upwards pass through the separation net 702 made of corresponding treatment materials, a more effective separation effect is achieved, when the separation net 702 needs to be replaced, the separation net 702 is taken out downwards only by twisting the second bolt 705 to be meshed and rotated, and the separation net 702 is downwards and forcefully pulled to enable the rubber clamping ring 703 made of rubber materials to be extruded and deformed again to pass through the inner side of the lantern ring 6, and then the taking-out can be completed.

The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the utility model as claimed. The scope of the utility model is defined by the appended claims and equivalents thereof.

Claims (6)

1. The mushroom head air inlet device is characterized by comprising a container pipe (1), a bent pipe (2), a buffer mechanism, a sleeve ring (6) and a processing mechanism, wherein the bent pipe (2) is welded inside the left side of the container pipe (1), the buffer mechanism which is used for effectively slowing down the introduced gas and liquid and enabling the gas to flow and distribute more uniformly is installed at the upper end of the bent pipe (2), a frame plate (5) is welded inside the buffer mechanism, the sleeve ring (6) is welded in the middle of the frame plate (5), and the processing mechanism used for correspondingly and effectively pre-separating the gas and liquid with different components is installed inside the sleeve ring (6);

buffer gear includes vaulting pole (401), oval head (402), the even board of second (405) and first bolt (408), vaulting pole (401) weld the dress at vessel pipe (1) right side inner wall and left end and return bend (2) right side outer wall welding, oval head (402) are installed in return bend (2) upside outside, oval head (402) edge lower side outer wall welding is equipped with first even board (404), the second is even board (405) and is welded dress at return bend (2) upper end side outer wall, second link board (405) outer end inside has seted up second thread groove (406), first link board (404) lower extreme inside has seted up first thread groove (407), first bolt (408) meshing is installed inside first thread groove (407) and second thread groove (406).

2. A mushroom head air inlet device according to claim 1, wherein: the processing mechanism comprises a third thread groove (701), a separating net (702) and a second bolt (705), the third thread groove (701) is formed in the lower ends of the left side and the right side of the lantern ring (6), the separating net (702) is clamped on the upper side surface of the lantern ring (6), a clamping ring (703) is arranged on the outer wall of the side surface of the separating net (702) in a melting mode, a fourth thread groove (704) is formed in the lower ends of the left side and the right side of the clamping ring (703), and the second bolt (705) is meshed and installed in the third thread groove (701) and the fourth thread groove (704).

3. A mushroom head air inlet device according to claim 1, wherein: the side wall of the lower end of the bent pipe (2) is provided with a tear hole (3).

4. A mushroom head air inlet device according to claim 1, wherein: the threads on the outer wall of the first bolt (408) are meshed with the threads on the inner wall of the first screw groove (407) and the second screw groove (406).

5. A mushroom head air inlet device according to claim 2, wherein: the diameter size of the upper end of the snap ring (703) is the same as the inner diameter size of the lantern ring (6), and the lantern ring (6) is in the shape of an inverted funnel and is made of rubber.

6. A mushroom head air inlet device according to claim 2, wherein: the thread of the outer wall of the second bolt (705) is meshed with the thread of the inner wall of the third thread groove (701) and the fourth thread groove (704).

Images