CN217120533U - Cyclone separation system for sand washing - Google Patents

Abstract

A cyclone separation system for sand washing comprises an underframe, a material distribution groove, a plurality of cyclone separators, an overflow groove and a material guide groove; the distributing groove is arranged on the underframe and used for distributing the entering mortar, and comprises a distributing groove shell, two mortar feeding holes which are respectively and symmetrically arranged at two sides of the distributing groove shell, and a plurality of mortar discharging holes which are symmetrically arranged on the distributing groove shell; the plurality of cyclone separators are respectively in one-to-one correspondence with the plurality of mortar discharge ports, and are used for treating the entering mortar; the overflow groove and the material distribution groove are arranged oppositely, and are used for receiving slurry obtained by processing of a plurality of cyclone separators, and the overflow groove comprises an overflow groove shell, two overflow ports symmetrically arranged on two sides of the overflow groove shell, and slurry feed ports arranged on the overflow groove shell and respectively connected with the plurality of cyclone separators; the diversion trench is arranged on the bottom frame, and the cyclone separator, the material distribution trench, the overflow trench and the material guide trench are integrated into an independent system by limiting the specific structure of the cyclone separation system and the arrangement positions of all parts, so that the occupied space is reduced.

Description

Cyclone separation system for sand washing

Technical Field

The utility model belongs to the sand washing equipment field, concretely relates to cyclone separation system for sand washing.

Background

The cyclone separation system is a sand washing process core system module and can be applied to a sand washing machine or an independent module applied to a wet-type sand production line. The application aims to highly integrate the hydrocyclone separator, the overflow groove, the material distribution groove and the material guide groove into an independent system, and complete the operation processes of sand cleaning, impurity removal and water circulation by applying the technical characteristics of hydrocyclone separation. The pipeline has high sealing grade, abrasion resistance, flexible interface adjustment and strong application adaptability. The supports are mutually independent, and the grading requirement of one or two grades of materials can be completed according to the production requirement.

When a sand washing production line is arranged, the discharge of slurry overflow liquid generated after sand washing operation is finished is often limited by the height limit of a mud-water sedimentation tank (next procedure); the road surface mud-water sedimentation tank is higher than a sand washer, the phenomenon is more obvious particularly along with the improvement of the planned productivity of a wet-type sand making line, and in order to ensure the overflow effect (overcome back pressure) of the hydraulic cyclone, the arrangement of a production line has to store overflow mud-water slurry in a road surface excavation (or other storage-containing) transition tank and then the overflow slurry is pumped to the mud-water sedimentation tank through a high-power slurry pump. Thus, the overall production line cost and maintenance cost are drastically increased.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming prior art's shortcoming, provide a cyclone separation system for sand washing.

The utility model adopts the following technical scheme:

a cyclone separation system for sand washing comprises a bottom frame, a material distribution groove, a plurality of cyclone separators, an overflow groove and a material guide groove;

the distributing groove is arranged on the underframe and used for distributing the entering mortar, and comprises a distributing groove shell, two mortar feeding holes which are respectively and symmetrically arranged at two sides of the distributing groove shell, and a plurality of mortar discharging holes which are symmetrically arranged on the distributing groove shell;

the cyclone separators are arranged on the underframe and respectively correspond to the mortar discharge ports one by one to treat the entering mortar;

the overflow groove is arranged opposite to the material distribution groove, receives the slurry obtained by the treatment of the plurality of cyclone separators, and comprises an overflow groove shell, two overflow ports symmetrically arranged at two sides of the overflow groove shell and slurry feed ports arranged on the overflow groove shell and respectively connected with the plurality of cyclone separators;

and the guide chute is arranged on the bottom frame, is respectively connected with the plurality of cyclone separators and receives the gravels obtained by processing the plurality of cyclone separators.

Furthermore, the overflow groove is arranged in the bottom frame and is positioned above the material guide groove, and the material distribution groove is arranged at the top of the bottom frame and is positioned above the overflow groove.

Furthermore, the distributing groove is arranged at the top of the bottom frame and positioned above the guide groove, and the overflow groove is supported at the top of the distributing groove.

Furthermore, the overflow groove is supported at the top of the distribution groove through a support, and the support comprises a first support arranged at the top of the distribution groove shell and a second support arranged at the bottom of the overflow groove and detachably connected with the first support.

Furthermore, the distributing trough is installed on the bottom frame through a supporting frame, and an arc-shaped supporting trough which extends downwards and is used for supporting the distributing trough is formed at the top of the supporting frame.

Furthermore, the mortar discharge port is obliquely arranged on the distributing groove shell.

Further, the cyclone separator is connected with a mortar discharge port through a conveying pipeline, and a pressure detector is arranged on the conveying pipeline.

Furthermore, the distributing trough further comprises a mortar connector detachably arranged on the mortar feeding hole.

Furthermore, the overflow launder still includes the pipe connection head of dismantling the setting on the overflow mouth.

Further, the cyclone separator is obliquely arranged on the underframe through a mounting frame.

It can be known from the above description of the present invention, compared with the prior art, the beneficial effects of the present invention are: this application makes cyclone, silo, overflow launder, baffle box integration an organic whole form independent system through the concrete structure of injecing the hydrocyclone separation system and the position of arranging of each part, reduces the occupation space of each part, can assemble on sand washer or independently use on wet-type system sand line, improves hydrocyclone separation system's practicality.

Drawings

Fig. 1 is a first embodiment of the present invention;

fig. 2 is a second embodiment of the present invention;

in the figure, 1-bottom frame, 2-material distributing groove, 3-cyclone separator, 4-overflow groove, 5-material guiding groove, 6-supporting frame, 7-support, 21-material distributing groove shell, 22-mortar feeding hole, 23-mortar discharging hole, 24-mortar connector, 31-mounting frame, 32-conveying pipeline, 33-pressure detector, 41-overflow groove shell, 42-overflow hole, 43-slurry feeding hole, 44-pipeline connector, 71-first support and 72-second support.

Detailed Description

The present invention will be further described with reference to the following detailed description.

Referring to fig. 1 to 2, a cyclone separation system for sand washing includes a base frame 1, a material distribution chute 2, a plurality of cyclone separators 3, an overflow chute 4, and a material guide chute 5.

The material distributing groove 2 is arranged on the underframe 1 and used for distributing the entering mortar, and comprises a material distributing groove shell 21, two mortar feeding holes 22 respectively and symmetrically arranged at two sides of the material distributing groove shell 21, a plurality of mortar discharging holes 23 symmetrically arranged on the material distributing groove shell 21 and a mortar connecting head 24 detachably arranged on the mortar feeding holes 22; through the matching of the mortar feed port 22 and the mortar connector 24, the size of the mortar feed pipe for conveying mortar to the distributing chute 2 can be changed at any time according to arrangement conditions during assembly, and the mortar feeding device is flexible and convenient; specifically, the mortar discharge port 23 is obliquely arranged on the distributing groove shell 21; further, the mortar connector 24 is detachably arranged on the mortar feed port 22 through a bolt assembly.

The cyclone separators 3 are arranged on the underframe 1, correspond to the mortar discharge holes 23 one by one respectively, and treat the entering mortar; the cyclone separator 3 is connected with the mortar discharge port 23 through a conveying pipeline 32, a pressure detector 33 is arranged on the conveying pipeline 32, and by arranging the pressure detector 33, daily inspection and maintenance are facilitated, and the sand washing operation is ensured to be always in a stable state; specifically, the cyclone separator 3 is obliquely arranged on the underframe 1 through a mounting frame 31; further, the cyclone separator 3 is a common device in the field of sand washing, and the specific structure and the working principle thereof are not further described herein.

The overflow groove 4 is arranged opposite to the distributing groove 2 and used for receiving the slurry obtained by the treatment of the plurality of cyclone separators 3, and comprises an overflow groove shell 41, two overflow ports 42 symmetrically arranged at two sides of the overflow groove shell 41, a slurry feed port 43 arranged on the overflow groove shell 41 and respectively connected with the plurality of cyclone separators 3, and a pipeline connector 44 detachably arranged on the overflow ports 42, wherein the overflow ports 42 are matched with the pipeline connector 44, and a slurry discharge pipe for discharging the slurry in the overflow groove 4 is replaced at any time during assembly, so that the operation is flexible and convenient; specifically, the pipe connector 44 is detachably disposed on the overflow port 42 through a bolt assembly.

The diversion trench 5 is arranged on the underframe 1, is respectively connected with the plurality of cyclone separators 3, and receives the gravels obtained by the treatment of the plurality of cyclone separators 3; specifically, the material guide chute 5 is a common device in the field of sand washing, and the specific structure and the working principle thereof are not further described herein.

This application is through changing the position of arranging of distributing trough 2 and overflow launder 4 to when making the hydrocyclone separation system of this application can be used to sand washer, also can be used to wet-type system sand line, improve hydrocyclone separation system's practicality.

Referring to fig. 1, in a first embodiment of the present application, an overflow chute 4 is disposed in an underframe 1 above a material guiding chute 5, and a material distributing chute 2 is disposed on the top of the underframe 1 above the overflow chute 4; specifically, the distributing trough 2 is arranged on the underframe 1 through a support frame 6, and an arc-shaped support trough which extends downwards and is used for supporting the distributing trough 2 is formed at the top of the support frame 6; through the specific structure of injecing the hydrocyclone separation system and the arrangement position of each part, make hydrocyclone separator 3, distributing trough 2, overflow launder 4, baffle box 5 integration an organic whole form independent system, reduce the occupation space of each part, can assemble on sand washer or the independent application improves hydrocyclone separation system's practicality on wet-type system sand line.

Referring to fig. 2, in the second embodiment of the present application, a material distribution groove 2 is arranged on the top of an underframe 1 and above a material guide groove 5, and an overflow groove 4 is supported on the top of the material distribution groove 2 to lift the overflow groove 4 by 2-3 meters vertically, so that the height difference between a sand washer and a mud sedimentation tank is made up to a certain extent, and the implementation feasibility of pipeline arrangement and equipment unit arrangement of a wet sand making line is improved.

Wherein, divide silo 2 to install on chassis 1 through support frame 6, the top of support frame 6 is formed with the arc support slot that downwardly extends and is used for supporting divide silo 2.

The overflow groove 4 is supported at the top of the diversion groove 2 through a bracket 7, the bracket 7 comprises a first bracket 71 arranged at the top of the diversion groove shell 21 and a second bracket 72 arranged at the bottom of the overflow groove shell 41 and detachably connected with the first bracket 71, and the first bracket 71 is matched with the second bracket 72 to lift the vertical arrangement height of the overflow groove 4 of 2-3 meters upwards; specifically, the first bracket 71 and the second bracket 72 are connected by a bolt assembly.

This application makes cyclone 3, branch silo 2, overflow launder 4, baffle box 5 integration an organic whole form independent system through the specific structure of injecing cyclone separation system and the position of arranging of each part, reduces the occupation space of each part, can assemble on sand washer or independently use on wet-type system sand line, improves cyclone separation system's practicality.

The above description is only a preferred embodiment of the present invention, and therefore the scope of the present invention should not be limited thereby, and all equivalent changes and modifications made within the scope of the claims and the specification should be considered within the scope of the present invention.

Claims (10)

1. The utility model provides a sand washing is with cyclone separation system which characterized in that: comprises a bottom frame, a material distributing groove, a plurality of cyclone separators, an overflow groove and a material guide groove;

the distributing groove is arranged on the underframe and used for distributing the entering mortar, and comprises a distributing groove shell, two mortar feeding holes which are respectively and symmetrically arranged at two sides of the distributing groove shell, and a plurality of mortar discharging holes which are symmetrically arranged on the distributing groove shell;

the cyclone separators are arranged on the underframe and respectively correspond to the mortar discharge ports one by one to treat the entering mortar;

the overflow groove is arranged opposite to the material distribution groove, receives the slurry obtained by the treatment of the plurality of cyclone separators, and comprises an overflow groove shell, two overflow ports symmetrically arranged at two sides of the overflow groove shell and slurry feed ports arranged on the overflow groove shell and respectively connected with the plurality of cyclone separators;

and the guide chute is arranged on the bottom frame, is respectively connected with the plurality of cyclone separators and receives the gravels obtained by processing the plurality of cyclone separators.

2. A sand wash cyclonic separation system as claimed in claim 1, wherein: the overflow groove is arranged in the underframe and is positioned above the material guide groove, and the material distribution groove is arranged at the top of the underframe and is positioned above the overflow groove.

3. A sand wash cyclonic separation system as claimed in claim 1, wherein: the distributing groove is arranged at the top of the bottom frame and positioned above the guide groove, and the overflow groove is supported at the top of the distributing groove.

4. A sand wash cyclonic separation system as claimed in claim 3, wherein: the overflow groove is supported at the top of the distribution groove through a support, and the support comprises a first support arranged at the top of the distribution groove shell and a second support arranged at the bottom of the overflow groove and detachably connected with the first support.

5. A sand wash cyclonic separation system as claimed in claim 3, wherein: the distributing trough is installed on the bottom frame through a supporting frame, and an arc-shaped supporting trough which extends downwards and is used for supporting the distributing trough is formed in the top of the supporting frame.

6. A sand wash cyclonic separation system as claimed in claim 1, wherein: the mortar discharge port is obliquely arranged on the distributing groove shell.

7. A hydrocyclone separation system for sand washing according to claim 5, wherein: the cyclone separator is connected with the mortar discharge port through a conveying pipeline, and a pressure detector is arranged on the conveying pipeline.

8. A sand wash cyclonic separation system as claimed in claim 1, wherein: the distributing trough further comprises a mortar connector detachably arranged on the mortar feeding hole.

9. A sand wash cyclonic separation system as claimed in claim 1, wherein: the overflow launder also comprises a pipeline connector which is detachably arranged on the overflow port.

10. A sand wash cyclonic separation system as claimed in claim 1, wherein: the cyclone separator is obliquely arranged on the underframe through a mounting frame.

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