CN218076857U - Internal protection structure of cyclone desander - Google Patents

Abstract

The utility model discloses an inside protective structure of whirl desander, including a sand setting section of thick bamboo, a whirl section of thick bamboo, fixed cover and a sand screen section of thick bamboo, a sand setting section of thick bamboo and whirl section of thick bamboo fixed connection, a whirl section of thick bamboo and fixed cover flange are connected, fixedly connected with outlet pipe and outlet duct on the fixed cover, fixed intercommunication has the inlet tube on the whirl section of thick bamboo, the inlet tube runs through a sand screen section of thick bamboo, fixedly connected with and the communicating first piston section of thick bamboo of inlet tube on the inlet tube, sliding connection has first sealing plug on the first piston section of thick bamboo, the first piston rod of fixedly connected with on the first sealing plug, be equipped with the mediation mechanism that is used for carrying out the mediation to the inlet tube on the inlet tube. The utility model discloses an overall structure's cooperation has reached the contact of mediation board and silt particle mixture and has promoted the silt particle mixture for the silt particle mixture that blocks up is dredged in the inlet tube, thereby need not the manual work and unpack the flange apart and remove the plug, and has also avoided the effect that the whirl desander probably burns out or damages.

Description

Internal protection structure of cyclone desander

Technical Field

The utility model relates to a cyclone sand remover technical field specifically is a cyclone sand remover's inside protective structure.

Background

The cyclone desander is manufactured according to the screening principle that solid particles in fluid rotate in the desander, integrates cyclone and filtration into a whole, and has obvious effects of desanding, turbidity reduction, solid-liquid separation and the like in the field of water treatment. The method is widely applied to industrial departments of water source heat pumps, water treatment, food, medicine and the like. Sand removal of river water and well water, coal washing water, industrial mineral separation, liquid degassing and separation of immiscible liquids.

The cyclone desander is used, because the mud-sand mixture that the inlet tube carried is too dirty and the mud-sand mixture in the inlet tube is dry and hard to make the inlet tube not go out liquid, thereby the cyclone desander probably burns out or damages, and at present, mostly unpacks the upper portion flange by the staff apart and removes the plug, dredges the inlet tube, wastes time and energy, and influences desanding efficiency, so we need the internal protection structure of a cyclone desander to solve above-mentioned problem.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an inside protective structure of whirl desander to solve the problem that proposes among the above-mentioned background art.

In order to achieve the above object, the utility model provides a following technical scheme: the utility model provides an inside protective structure of whirl desander, includes a sand setting section of thick bamboo, a whirl section of thick bamboo, fixed cover and a sand screen section of thick bamboo, a sand setting section of thick bamboo and a whirl section of thick bamboo fixed connection, a whirl section of thick bamboo is connected with fixed cover flange, fixedly connected with outlet pipe and outlet duct on the fixed cover, fixed intercommunication has the inlet tube on the whirl section of thick bamboo, the inlet tube runs through a sand screen section of thick bamboo, the inside of a sand screen section of thick bamboo is equipped with separating mechanism, flange joint has a sand storage section of thick bamboo on the sand setting section of thick bamboo, fixedly connected with sand discharge pipe on the sand storage section of thick bamboo, fixedly connected with and the communicating first piston section of thick bamboo of inlet tube on the inlet tube, sliding connection has first sealing plug on the first piston section of thick bamboo, fixedly connected with first piston rod on the first sealing plug, be equipped with on the inlet tube and be used for carrying out the dredge mechanism of dredging to the inlet tube.

As a further preferred aspect of the present technical solution, a first spring is sleeved on the first piston rod, and two ends of the first spring are respectively and fixedly connected to the first piston cylinder and the first sealing plug.

As a further preferred aspect of this technical scheme, the mediation mechanism is including the second piston barrel of fixed connection on the inlet tube inner wall, sliding connection has the second sealing plug on the second piston barrel, fixedly connected with second piston rod on the second sealing plug, it is connected with the dwang to rotate on the second piston rod, fixedly connected with connecting rod on the dwang, fixedly connected with is used for carrying out the mediation board of mediation to the inlet tube on the connecting rod.

As a further preferable mode of the technical scheme, the dredging mechanism further comprises a second spring sleeved on the second piston rod, and two ends of the second spring are fixedly connected with the second sealing plug and the second piston cylinder respectively.

As a further preferred aspect of the present technical solution, the dredging mechanism further includes a delivery pipe, the first piston cylinder is fixedly communicated with the second piston cylinder through the delivery pipe, and the delivery pipe penetrates through the water inlet pipe.

As this technical scheme's further preferred, be equipped with the tilting mechanism that is used for carrying on the mediation board upset on the dwang, tilting mechanism is including the gear of fixed connection on the dwang, fixedly connected with rack on the inlet tube, gear and rack intermittent type meshing.

As a further preferred aspect of the present technical solution, the sand settling cylinder is fixedly connected with four support rods.

The utility model provides an inside protective structure of whirl desander possesses following beneficial effect:

(1) The utility model discloses an overall structure's cooperation has reached the contact of mediation board and silt particle mixture and has promoted the silt particle mixture for the silt particle mixture that blocks up is dredged in the inlet tube, thereby need not the manual work and unpack the flange apart and remove the plug, and has also avoided the effect that the whirl desander probably burns out or damages.

(2) The utility model discloses a set up tilting mechanism, reached when the mediation, dredge the board and dredge area grow in the inlet tube for the inlet tube mediation is cleaner, and when not dredging, and dredge board and connecting rod are perpendicular with the second piston rod, from not influencing the effect that the inlet tube was carried.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic sectional view of the overall structure of the present invention;

FIG. 3 is an enlarged schematic view of the structure of the present invention at A in FIG. 2;

fig. 4 is a schematic structural diagram of the dredging mechanism and the turning mechanism of the present invention.

In the figure: 1. a cyclone cylinder; 11. a support bar; 13. a fixed cover; 15. a sand discharge pipe; 16. a sand storage cylinder; 17. a sand setting cylinder; 2. a water inlet pipe; 21. a sand screen cylinder; 3. a first piston cylinder; 31. a first sealing plug; 32. a first spring; 33. a first piston rod; 34. a delivery pipe; 4. a second piston cylinder; 41. a second sealing plug; 42. a second piston rod; 43. a second spring; 44. rotating the rod; 45. a connecting rod; 46. a dredging plate; 47. a gear; 48. a rack.

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

The utility model provides a technical scheme: as shown in fig. 1, fig. 2 and fig. 3, in this embodiment, an internal protection structure of a cyclone sand remover includes a sand setting cylinder 17, a cyclone cylinder 1, a fixed cover 13 and a sand filtering screen cylinder 21, the sand setting cylinder 17 is fixedly connected with the cyclone cylinder 1, the cyclone cylinder 1 is flange-connected with the fixed cover 13, a water outlet pipe and an air outlet pipe are fixedly connected with the fixed cover 13, a water inlet pipe 2 is fixedly communicated with the cyclone cylinder 1, the water inlet pipe 2 penetrates through the sand filtering screen cylinder 21, a separating mechanism is arranged inside the sand filtering screen cylinder 21, a sand storage cylinder 16 is flange-connected with the sand setting cylinder 17, a sand discharge pipe 15 is fixedly connected with the sand storage cylinder 16, a first piston cylinder 3 communicated with the water inlet pipe 2 is fixedly connected with the water inlet pipe 2, a first sealing plug 31 is slidably connected with the first piston rod 31, a first piston rod 33 is fixedly connected with the first sealing plug 31, and a dredging mechanism for dredging the water inlet pipe 2 is arranged on the water inlet pipe 2.

The silt particle mixture passes through inlet tube 2 and gets into sand screen cylinder 21, through separating mechanism for the rotatory centrifugal action that produces of water, through the filtration of sand screen cylinder 21 afterwards, with the grit under strain and along sand screen cylinder 21 whereabouts to store up in the sand section of thick bamboo 16 and collect, the water of filtering the completion afterwards passes through the outlet pipe and discharges.

The separating mechanism is a conventional mechanism, well known to those skilled in the art, and therefore will not be described in detail herein, and the separating mechanism can be driven by an external power source.

The whirl sand remover in use, because the silt particle mixture that inlet tube 2 carried is too dirty and probably the silt particle mixture in the inlet tube 2 is dried and is made inlet tube 2 not go out liquid to the whirl sand remover probably burns out or damages, and at present, mostly unpack the upper portion flange apart by the staff and remove the plug, dredge inlet tube 2, waste time and energy, and influence the desanding efficiency.

When inlet tube 2 blockked up, thereby the mud sand mixture pressurized in inlet tube 2 upwards flows along first piston section of thick bamboo 3 for first sealing plug 31 drives first piston rod 33 and upwards slides, thereby makes the hydraulic oil in the first piston section of thick bamboo 3 carry the effect to second piston section of thick bamboo 4 through conveyer pipe 34.

As shown in fig. 3, the first piston rod 33 is sleeved with a first spring 32, and two ends of the first spring 32 are fixedly connected with the first piston cylinder 3 and the first sealing plug 31 respectively.

By arranging the first spring 32, the effect that the elastic force of the first spring 32 is released after dredging is achieved, so that the first sealing plug 31 and the first piston rod 33 are reset.

As shown in fig. 2 and fig. 3, the dredging mechanism includes a second piston cylinder 4 fixedly connected to the inner wall of the water inlet pipe 2, a second sealing plug 41 is slidably connected to the second piston cylinder 4, a second piston rod 42 is fixedly connected to the second sealing plug 41, a rotating rod 44 is rotatably connected to the second piston rod 42, a connecting rod 45 is fixedly connected to the rotating rod 44, and a dredging plate 46 for dredging the water inlet pipe 2 is fixedly connected to the connecting rod 45.

The dredging mechanism further comprises a second spring 43 sleeved on the second piston rod 42, and two ends of the second spring 43 are fixedly connected with the second sealing plug 41 and the second piston cylinder 4 respectively.

The dredging mechanism also comprises a delivery pipe 34, the first piston cylinder 3 is fixedly communicated with the second piston cylinder 4 through the delivery pipe 34, and the delivery pipe 34 penetrates through the water inlet pipe 2.

When the hydraulic oil is conveyed to the second piston cylinder 4, the second sealing plug 41 and the second piston rod 42 synchronously slide towards one end far away from the conveying pipe 34, so that the dredging plate 46 synchronously slides towards one end far away from the conveying pipe 34, the dredging plate 46 is contacted with the silt mixture and pushes the silt mixture, the silt mixture blocked in the water inlet pipe 2 is dredged, the flange does not need to be manually disassembled to remove the blockage, and the effect that the cyclone sand remover can be burnt or damaged is also avoided.

As shown in fig. 4, the rotating rod 44 is provided with a turnover mechanism for turning over the dredging plate 46, the turnover mechanism comprises a gear 47 fixedly connected to the rotating rod 44, a rack 48 fixedly connected to the water inlet pipe 2, and the gear 47 is intermittently meshed with the rack 48.

When dredging plate 46 slides to the one end of keeping away from conveyer pipe 34 in step, gear 47 and rack 48 meshing, gear 47 takes place to rotate afterwards, and dredging plate 46 and connecting rod 45 take place to rotate afterwards, and when gear 47 and rack 48 removed the meshing, dredging plate 46 and connecting rod 45 rotated 90 degrees this moment to connecting rod 45 and second piston rod 42 are located the same axis, make dredging plate 46 dredge the area grow in inlet tube 2, make inlet tube 2 dredge cleaner effect.

When not dredging, the dredging plate 46 and the connecting rod 45 are perpendicular to the second piston rod 42, so that the conveying effect of the water inlet pipe 2 is not influenced.

As shown in fig. 1, four support rods 11 are fixedly connected to the sand settling tank 17.

The effect of supporting the cyclone desander is achieved by arranging the four support rods 11.

The utility model provides an inside protective structure of whirl desander, concrete theory of operation as follows: the silt particle mixture passes through inlet tube 2 and gets into sand screen cylinder 21, through separating mechanism for the rotatory centrifugal action that produces of water, through the filtration of sand screen cylinder 21 afterwards, with the grit under strain and along sand screen cylinder 21 whereabouts to store up in the sand section of thick bamboo 16 and collect, the water of filtering the completion afterwards passes through the outlet pipe and discharges.

The separating mechanism is a conventional mechanism, which is well known in the art, and therefore will not be described in detail herein, and the separating mechanism can be driven by an external power source.

The whirl sand remover in use, because the silt particle mixture that inlet tube 2 carried is too dirty and probably the silt particle mixture in the inlet tube 2 is dried and is made inlet tube 2 not go out liquid to the whirl sand remover probably burns out or damages, and at present, mostly unpack the upper portion flange apart by the staff and remove the plug, dredge inlet tube 2, waste time and energy, and influence the desanding efficiency.

When inlet tube 2 blockked up, thereby the mud sand mixture pressurized in the inlet tube 2 upwards flows along first piston cylinder 3 for first sealing plug 31 drives first piston rod 33 and upwards slides, thereby makes the hydraulic oil in the first piston cylinder 3 carry the effect to second piston cylinder 4 through conveyer pipe 34.

When the hydraulic oil is conveyed to the second piston cylinder 4, the second sealing plug 41 and the second piston rod 42 synchronously slide towards one end far away from the conveying pipe 34, so that the dredging plate 46 synchronously slides towards one end far away from the conveying pipe 34, the dredging plate 46 is contacted with the silt mixture and pushes the silt mixture, the silt mixture blocked in the water inlet pipe 2 is dredged, the flange does not need to be manually disassembled to remove the blockage, and the effect that the cyclone sand remover can be burnt or damaged is also avoided.

When dredging plate 46 slides to the one end of keeping away from conveyer pipe 34 in step, gear 47 and rack 48 meshing, gear 47 takes place to rotate afterwards, and dredging plate 46 and connecting rod 45 take place to rotate afterwards, and when gear 47 and rack 48 removed the meshing, dredging plate 46 and connecting rod 45 rotated 90 degrees this moment to connecting rod 45 and second piston rod 42 are located the same axis, make dredging plate 46 dredge the area grow in inlet tube 2, make inlet tube 2 dredge cleaner effect.

When not dredged, the dredging plate 46 and the connecting rod 45 are perpendicular to the second piston rod 42, so that the conveying effect of the water inlet pipe 2 is not influenced.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (7)

1. The utility model provides an inside protective structure of cyclone desander, includes sand setting section of thick bamboo (17), a cyclone (1), fixed cover (13) and sand screen cylinder (21), sand setting section of thick bamboo (17) and cyclone (1) fixed connection, cyclone (1) and fixed cover (13) flange joint, fixedly connected with outlet pipe and outlet duct on fixed cover (13), fixed intercommunication has inlet tube (2) on cyclone (1), sand screen cylinder (21) is run through in inlet tube (2), the inside of sand screen cylinder (21) is equipped with separating mechanism, flange joint has sand storage section of thick bamboo (16) on sand setting section of thick bamboo (17), fixedly connected with sand discharge pipe (15), its characterized in that on sand storage section of thick bamboo (16): fixedly connected with and inlet tube (2) communicating first piston cylinder (3) on inlet tube (2), sliding connection has first sealing plug (31) on first piston cylinder (3), fixedly connected with first piston rod (33) on first sealing plug (31), be equipped with the mediation mechanism that is used for dredging inlet tube (2) on inlet tube (2).

2. The internal protective structure of the cyclone desander as claimed in claim 1, wherein: and a first spring (32) is sleeved on the first piston rod (33), and two ends of the first spring (32) are fixedly connected with the first piston cylinder (3) and the first sealing plug (31) respectively.

3. The internal protective structure of the cyclone desander as claimed in claim 1, wherein: dredge mechanism is including second piston cylinder (4) of fixed connection on inlet tube (2) inner wall, sliding connection has second sealing plug (41) on second piston cylinder (4), fixedly connected with second piston rod (42) on second sealing plug (41), it is connected with dwang (44) to rotate on second piston rod (42), fixedly connected with connecting rod (45) on dwang (44), fixedly connected with is used for carrying out mediation board (46) dredged to inlet tube (2) on connecting rod (45).

4. The internal protection structure of the cyclone sand remover according to claim 3, wherein: the dredging mechanism further comprises a second spring (43) sleeved on the second piston rod (42), and two ends of the second spring (43) are fixedly connected with the second sealing plug (41) and the second piston cylinder (4) respectively.

5. The internal protective structure of the cyclone desander as claimed in claim 4, wherein: the dredging mechanism further comprises a conveying pipe (34), the first piston cylinder (3) is fixedly communicated with the second piston cylinder (4) through the conveying pipe (34), and the conveying pipe (34) penetrates through the water inlet pipe (2).

6. The internal protective structure of a cyclone desander as claimed in claim 3, wherein: be equipped with on dwang (44) and be used for carrying out the tilting mechanism that overturns dredge board (46), tilting mechanism is including gear (47) of fixed connection on dwang (44), fixedly connected with rack (48) are gone up in inlet tube (2), gear (47) and rack (48) intermittent type meshing.

7. The internal protective structure of the cyclone desander as claimed in claim 1, wherein: four supporting rods (11) are fixedly connected to the sand setting barrel (17).

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