CN209575863U - A kind of hydrocyclone convenient for sediment outflow - Google Patents

Abstract

The utility model relates to desander technical fields, in particular to a kind of hydrocyclone convenient for sediment outflow, including desander ontology, desander ontology includes spin chamber, sand setting room, the upper lateral of sand setting room is equipped with fixed link, lower surface in the middle part of fixed link is rotatably connected to one end of shaft, and the power mechanism for driving shaft rotation is equipped in fixed link, the other end and sand setting room lower part sand export of shaft are rotatablely connected by bindiny mechanism, shaft is equipped with disk, helical blade is equipped in shaft above and below disk, the outside of disk upper surface is equipped with agitator arm.The utility model solves in existing sand setting room during accumulating silt particle, structure relative compact between silt particle and silt particle in sand setting room, i.e., can occur hardened, there are problems that the indoor silt particle of sand setting is not easy to be discharged.

Description

A kind of hydrocyclone convenient for sediment outflow

Technical field

The utility model relates to desander technical field, in particular to a kind of hydrocyclone convenient for sediment outflow.

Background technique

Hydrocyclone is made of screening principle when being rotated in desander according to the solid particle in fluid, collects eddy flow It is integrated with filtering, realizes that desanding, drop are turbid, it is significant to be separated by solid-liquid separation and other effects in water treatment field.Be widely used in water resource heat pump, The industrial departments such as water process, food, medicine.River water, well water desanding, coal washing water, industrial ore dressing, liquid degassing and non-mutual solution The separation of body.

Hydrocyclone is removed sand using the principle of centrifuge separation, and the water after separating is discharged through discharge outlet, separation Later silt particle is fallen into sand setting room, over time, is opened the control butterfly valve at the sand export of sand setting room lower part, is made sand setting room Interior silt particle discharge, before opening control butterfly valve, silt particle is deposited in sand setting room for a long time, in sand setting room between silt particle and silt particle Structure relative compact, i.e., can occur hardened, there are problems that the indoor silt particle of sand setting is not easy to be discharged, therefore we are badly in need of design one Kind solves problem above convenient for the hydrocyclone of sediment outflow.

Utility model content

Based on problem above, the utility model provides a kind of hydrocyclone convenient for sediment outflow, solves existing sand setting Interior is during accumulating silt particle, structure relative compact between silt particle and silt particle in sand setting room, i.e., can occur hardened, and there are heavy The indoor silt particle of sand is not easy the problem of being discharged.

In order to solve the above technical problems, the technical solution adopted in the utility model is as follows:

A kind of hydrocyclone convenient for sediment outflow, including desander ontology, desander ontology include spin chamber, sand setting room, The upper lateral of sand setting room is equipped with fixed link, and the lower surface in the middle part of fixed link is rotatably connected to one end of shaft, and in fixed link Equipped with the power mechanism for driving shaft rotation, the other end and sand setting room lower part sand export of shaft are rotated by bindiny mechanism to be connected It connects, shaft is equipped with disk, and helical blade is equipped in the shaft above and below disk, and the outside of disk upper surface, which is equipped with, to be stirred Lever.

Before silt particle is discharged in the sand setting room of the utility model, power mechanism operating drives shaft rotation, and shaft is in rotation Meanwhile helical blade in shaft and disk rotate, disk drives the agitator arm of its upper surface to rotate, then opens control sand setting The control butterfly valve of indoor silt particle discharge, realizes the discharge of silt particle in sand setting room, in the process, by the design of helical blade, Flow the silt particle at middle part in sand setting room upward or downward, the silt particle for avoiding middle part in sand setting room is hardened, drives by disk The rotation of surface agitation bar thereon is revolved the silt particle of exterior space in sand setting room and is flowed in the circumferential direction, avoids sand setting room The silt particle in inside and outside space is hardened, and the control butterfly valve designed during this belongs to existing apparatus, here with regard to not retouched in detail It states.The design of the utility model solves in existing sand setting room during accumulating silt particle, in sand setting room silt particle and silt particle it Between structure relative compact, i.e., can occur hardened, there are problems that the indoor silt particle of sand setting is not easy to be discharged.

As a preferred mode, the opposite side in spin chamber and sand setting room is equipped with ring flange, and two ring flanges pass through Multiple bolt group connections.

As a preferred mode, sand setting room is in back taper.

As a preferred mode, agitator arm, agitator arm and sand setting there are three being uniformly distributed on the outside of disk upper surface The inside parallel of room is arranged, and the side of agitator arm is equipped with multiple arcs blade.

As a preferred mode, power mechanism includes the power cavity being arranged in the middle part of fixation, further includes setting dynamic Power intracavitary motor is connected with first bevel gear on the output shaft of motor, and shaft protrudes into power cavity close to one end of fixed link, Fixed rod end end is connected with second bevel gear, and second bevel gear and first bevel gear engagement.

As a preferred mode, bindiny mechanism includes the axis being arranged at the sand export of sand setting room with shaft rotation connection Hold, on the annular surface of bearing uniformly connect there are three connecting rod one end, three connecting rods far from bearing and sand setting indoor Connection.

Compared with prior art, the utility model has the beneficial effects that

(1) the utility model solves in existing sand setting room during accumulating silt particle, silt particle and silt particle in sand setting room Between structure relative compact, i.e., can occur hardened, there are problems that the indoor silt particle of sand setting is not easy to be discharged.

(2) the utility model is equipped with ring flange by the opposite side in spin chamber and sand setting room, and two ring flanges pass through more A bolt group connection.The connection that sand setting room and spin chamber are realized by two ring flanges and bolt group, passes through desander ontology Assembly and connection is convenient for the transport and disassembly of desander ontology.

(3) the utility model is in back taper by sand setting room.Sand setting room is set as back taper, on the one hand convenient in sand setting room Exit connect control valve, on the other hand slow down the flowing of miscellaneous dirt in sand setting room, when avoiding vertical drop, blocking export.

(4) there are three agitator arm, agitator arm and sand setting rooms by being uniformly distributed on the outside of disk upper surface for the utility model Inside parallel setting, the side of agitator arm is equipped with multiple arcs blade.By being uniformly arranged three agitations, In on disk Under the small rotational frequency of shaft, that is, it is able to achieve the quick agitation of silt particle in sand setting room, it is more by being arranged on the side of agitator arm A arc shaped blade increases the contact area of silt particle in agitator arm and sand setting room, keeps the stirring effect of agitator arm more preferable.

(5) the utility model includes the power cavity being arranged in the middle part of fixation by power mechanism, further includes being arranged in power Intracavitary motor is connected with first bevel gear on the output shaft of motor, and shaft protrudes into power cavity close to one end of fixed link, Gu Fixed pole end end is connected with second bevel gear, and second bevel gear and first bevel gear engagement.During the work time, in power cavity Motor drives first bevel gear rotation, and first bevel gear passes through and the engagement of second bevel gear drives second bevel gear rotation, the The rotation of two gear band turn axis, in the process, by the engagement of first bevel gear and second bevel gear, on the one hand indulges motor On the other hand the rotation for being changed into shaft transversely and horizontally face to horizontal plane increases the space utilization rate in power cavity.

(6) the utility model includes the axis being arranged at the sand export of sand setting room with shaft rotation connection by bindiny mechanism Hold, on the annular surface of bearing uniformly connect there are three connecting rod one end, three connecting rods far from bearing and sand setting indoor Connection.By the design of bearing, the gap for being able to achieve shaft and connecting rod is rotatablely connected, by uniformly setting on bearing annular surface Three connecting rods are set, keeps rotating bar and the connection of sand setting room side wall more stable, rotating bar is avoided to shake during rotation, Or reduce the service life of rotating bar.

Detailed description of the invention

Fig. 1 is the utility model structure diagram；

Fig. 2 is the structural schematic diagram of Tu1Zhong bindiny mechanism；

Label in figure are as follows: 1- desander ontology, 101- sand setting room, the spin chamber 102-, 2- shaft, 201- helical blade, 202- disk, 3- agitator arm, 301- arc shaped blade, 4- fixed link, 5- bolt group, 6- ring flange, 7- power cavity, 8- motor, 9- First bevel gear, 10- second bevel gear, 11- bearing, 12- connecting rod.

Specific embodiment

The utility model will be further described below with reference to the accompanying drawings.The embodiments of the present invention includes but unlimited In the following example.

Embodiment 1:

Referring to Fig. 1, Fig. 2, a kind of hydrocyclone convenient for sediment outflow, including desander ontology 1, desander ontology 1 include Spin chamber 102, sand setting room 101, the upper lateral of sand setting room 101 are equipped with fixed link 4, and the lower surface at 4 middle part of fixed link, which rotates, to be connected It is connected to one end of shaft 2, and is equipped with the power mechanism for driving shaft 2 to rotate in fixed link 4, the other end of shaft 2 and sand setting room 101 lower part sand exports are rotatablely connected by bindiny mechanism, and shaft 2 is equipped with disk 202, the shaft 2 above and below disk 202 On be equipped with helical blade 201, the outside of 202 upper surface of disk is equipped with agitator arm 3.

Before silt particle is discharged in the sand setting room 101 of the utility model, power mechanism operating drives shaft 2 to rotate, and shaft 2 is certainly While turning, helical blade 201 and disk 202 in shaft 2 are rotated, and disk 202 drives 3 turns of agitator arm of its upper surface It is dynamic, then the control butterfly valve of silt particle discharge in control sand setting room 101 is opened, the discharge of silt particle in sand setting room 101 is realized, in this process In, by the design of helical blade 201, flows the silt particle at middle part in sand setting room 101 upward or downward, avoid sand setting room The silt particle at middle part is hardened in 101, and the rotation of surface agitation bar 3 thereon is driven by disk 202, keeps 101 inside and outside of sand setting room empty Between silt particle rotation flow in the circumferential direction, the silt particle for avoiding 101 inside and outside space of sand setting room is hardened, designs during this Control butterfly valve belongs to existing apparatus, be not just described in detail here.The design of the utility model solves existing sand setting room In 101 during accumulating silt particle, structure relative compact between silt particle and silt particle in sand setting room 101 can occur hardened, deposit Silt particle in sand setting room 101 is not easy the problem of being discharged.

Embodiment 2:

Referring to Fig. 1, Fig. 2, a kind of hydrocyclone convenient for sediment outflow, including desander ontology 1, desander ontology 1 include Spin chamber 102, sand setting room 101, the upper lateral of sand setting room 101 are equipped with fixed link 4, and the lower surface at 4 middle part of fixed link, which rotates, to be connected It is connected to one end of shaft 2, and is equipped with the power mechanism for driving shaft 2 to rotate in fixed link 4, the other end of shaft 2 and sand setting room 101 lower part sand exports are rotatablely connected by bindiny mechanism, and shaft 2 is equipped with disk 202, the shaft 2 above and below disk 202 On be equipped with helical blade 201, the outside of 202 upper surface of disk is equipped with agitator arm 3.

The opposite side in spin chamber 102 and sand setting room 101 is equipped with ring flange 6, and two ring flanges 6 pass through multiple bolt groups 5 Connection.The connection that sand setting room 101 and spin chamber 102 are realized by two ring flanges 6 and bolt group 5, passes through desander ontology 1 Assembly and connection is convenient for the transport and disassembly of desander ontology 1.

As a preferred mode, sand setting room 101 is in back taper.Sand setting room 101 is set as back taper, is on the one hand convenient for Control valve is connected in the exit of sand setting room 101, on the other hand slows down the flowing of miscellaneous dirt in sand setting room 101, under avoiding vertically When falling, blocking outlet.

As a preferred mode, be uniformly distributed on the outside of 202 upper surface of disk there are three agitator arm 3, agitator arm 3 with The inside parallel of sand setting room 101 is arranged, and the side of agitator arm 3 is equipped with multiple arcs blade 301.By equal on disk 202 It is even setting three agitation, under the small rotational frequency of shaft 2, that is, be able to achieve the quick agitation of silt particle in sand setting room 101, by Multiple arcs blade 301 is set on the side of agitator arm 3, increases the contact area of silt particle in agitator arm 3 and sand setting room 101, Keep the stirring effect of agitator arm 3 more preferable.

The other parts of the present embodiment are same as Example 1, just repeat no more here.

Embodiment 3:

Referring to Fig. 1, Fig. 2, a kind of hydrocyclone convenient for sediment outflow, including desander ontology 1, desander ontology 1 include Spin chamber 102, sand setting room 101, the upper lateral of sand setting room 101 are equipped with fixed link 4, and the lower surface at 4 middle part of fixed link, which rotates, to be connected It is connected to one end of shaft 2, and is equipped with the power mechanism for driving shaft 2 to rotate in fixed link 4, the other end of shaft 2 and sand setting room 101 lower part sand exports are rotatablely connected by bindiny mechanism, and shaft 2 is equipped with disk 202, the shaft 2 above and below disk 202 On be equipped with helical blade 201, the outside of 202 upper surface of disk is equipped with agitator arm 3.

Power mechanism includes the power cavity 7 being arranged in the middle part of fixation, further includes the motor 8 being arranged in power cavity 7, motor First bevel gear 9 is connected on 8 output shaft, shaft 2 protrudes into power cavity 7 close to one end of fixed link 4,4 end of fixed link end It is connected with second bevel gear 10, and second bevel gear 10 and first bevel gear 9 engage.During the work time, the electricity in power cavity 7 Machine 8 drives first bevel gear 9 to rotate, and first bevel gear 9 passes through and the engagement of second bevel gear 10 drives 10 turns of second bevel gear Dynamic, second gear drives shaft 2 to rotate, and in the process, passes through the engagement of first bevel gear 9 and second bevel gear 10, a side On the other hand face increases the rotation for being changed into the transversely and horizontally face of shaft 2 in 8 vertical equity face of motor in power cavity 7 Space utilization rate.

As a preferred mode, bindiny mechanism includes being arranged at 101 sand export of sand setting room to be rotatablely connected with shaft 2 Bearing 11, one end there are three connecting rod 12 is uniformly connected on the annular surface of bearing 11, three connecting rods 12 are far from bearing 11 And sand setting room 101 on the inside of connect.By the design of bearing 11, the gap for being able to achieve shaft 2 and connecting rod 12 is rotatablely connected, leads to It crosses on 11 annular surface of bearing and is uniformly arranged three connecting rods 12, keep rotating bar and the connection of 101 side wall of sand setting room more stable, keep away Exempt from rotating bar to shake during rotation, or reduces the service life of rotating bar.

The other parts of the present embodiment are same as Example 1, just repeat no more here.

It as above is the embodiments of the present invention.Design parameter in above-described embodiment and embodiment is merely to clear The verification process of the utility model is stated by Chu, not to limit the scope of patent protection of the utility model, the utility model Scope of patent protection is still subject to the claims, made by all specifications and accompanying drawing content with the utility model Equivalent structure variation, similarly should be included in the protection scope of the utility model.

Claims (6)

1. a kind of hydrocyclone convenient for sediment outflow, including desander ontology (1), the desander ontology (1) includes spin chamber (102), sand setting room (101), which is characterized in that the upper lateral of the sand setting room (101) is equipped with fixed link (4), the fixation Lower surface in the middle part of bar (4) is rotatably connected to one end of shaft (2), and is equipped in fixed link (4) and drives the dynamic of shaft (2) rotation Force mechanisms, the other end and sand setting room (101) lower part sand export of the shaft (2) are rotatablely connected by bindiny mechanism, and described turn Axis (2) is equipped with disk (202), is equipped with helical blade (201), institute in the shaft (2) above and below the disk (202) The outside for stating disk (202) upper surface is equipped with agitator arm (3).

2. a kind of hydrocyclone convenient for sediment outflow according to claim 1, which is characterized in that the spin chamber (102) Opposite side is equipped with ring flange (6) with sand setting room (101), and two ring flanges (6) are connected by multiple bolt groups (5).

3. a kind of hydrocyclone convenient for sediment outflow according to claim 2, which is characterized in that the sand setting room (101) In back taper.

4. a kind of hydrocyclone convenient for sediment outflow according to claim 2, which is characterized in that on the disk (202) It is uniformly distributed on the outside of surface there are three agitator arm (3), the agitator arm (3) and the inside parallel of sand setting room (101) are arranged, institute The side for stating agitator arm (3) is equipped with multiple arcs blade (301).

5. a kind of hydrocyclone convenient for sediment outflow according to claim 1, which is characterized in that the power mechanism includes Power cavity (7) in the middle part of fixation is set, further includes the motor (8) being arranged in power cavity (7), the output of the motor (8) It is connected on axis first bevel gear (9), the shaft protrudes into power cavity (7) close to one end of fixed link (4), the fixed link (4) end end is connected with second bevel gear (10), and second bevel gear (10) and first bevel gear (9) engagement.

6. a kind of hydrocyclone convenient for sediment outflow according to claim 5, which is characterized in that the bindiny mechanism includes Bearing (11) with shaft (2) rotation connection is set at sand setting room (101) sand export, on the annular surface of the bearing (11) There are three the one end of connecting rod (12) for even connection, and three connecting rods (12) are far from the interior with sand setting room (101) of bearing (11) Side connection.