CN206981178U - A kind of more vibration source multistage composite vibratory sieves - Google Patents
A kind of more vibration source multistage composite vibratory sieves Download PDFInfo
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- CN206981178U CN206981178U CN201720821167.3U CN201720821167U CN206981178U CN 206981178 U CN206981178 U CN 206981178U CN 201720821167 U CN201720821167 U CN 201720821167U CN 206981178 U CN206981178 U CN 206981178U
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Abstract
Originally it is new to be related to a kind of more vibration source multistage composite vibratory sieves, including framework for support, guide link, bearing spring, connecting spring, carry column, bearing frame, sieve, horizontal oscillations mechanism and vertical oscillation mechanism, bearing frame is in framework for support, bearing frame is connected by guide link with framework for support, it is connected with each other between two adjacent bearing frames by carrying column, carrying column both ends are connected by bearing spring with bearing frame respectively, at least one sieve is all provided with each bearing frame, sieve is connected by least four connecting springs with bearing frame inner surface, horizontal oscillations mechanism is distributed on bearing frame outer surface around framework for support axis, vertical oscillation mechanism is distributed on each carrying column side surface around framework for support axis.This new one side possesses good versatility and reliability, on the other hand can apply the oscillating force of multiple directions and intensity simultaneously to material, so as to effectively improve the operating efficiency of material vibrations screening operation and screening quality.
Description
Technical field
A kind of temperature equipment is the utility model is related to, is exactly a kind of more vibration source multistage composite vibratory sieves.
Background technology
At present in the industry such as food, medication chemistry, industrial and mining enterprises, in the production and preparation for carrying out product, generally require
Multistage screening operation is carried out to material, but in the screening operation of reality, in order to improve the operating efficiency of screening operation, often
The Structure of Vibrating Screen of use is relatively complicated, and operation energy consumption is relatively large, and use cost is higher, but in vibrations operation process
In, the effective shock effect power applied to material is relatively small, and the direction of oscillating force is relatively single, so as on the one hand make
Operating efficiency into vibrations screening operation is low, and screening operation operation energy consumption is of a relatively high, on the other hand also causes in reciprocating sieve
When selecting, driving force of material when by the sieve aperture of screening installation sieve is inadequate, so as to cause sieve clogging serious, so as to
Cause that current screening installation operation stability is poor, and regular maintenance cost is of a relatively high, therefore be directed to this problem, compel to be essential
A kind of new screening installation is developed, to meet the needs of actual use.
Utility model content
In view of the shortcomings of the prior art, the utility model provides a kind of more vibration source multistage composite vibratory sieves, this is new
Type is simple in construction, flexible and convenient to use, on the one hand possesses good versatility and reliability, can effectively meet various materials and
The needs of operation are used in combination in plurality of devices, can be according to using needs, on the other hand in operation process is shaken to material simultaneously
Apply the oscillating force of multiple directions and intensity, so as to effectively improve the operating efficiency of material vibrations screening operation and screening
Quality, and can avoid showing generation with sieve sieve pore blockade caused by material to a certain degree.
To achieve these goals, the utility model is to realize by the following technical solutions:
A kind of more vibration source multistage composite vibratory sieves, including framework for support, guide link, bearing spring, connecting spring, carrying
Column, bearing frame, sieve, horizontal oscillations mechanism and vertical oscillation mechanism, framework for support are the column with horizontal plane distribution
Frame structure, bearing frame at least three is simultaneously in the framework for support, and each bearing frame is along framework for support axis phase from top to bottom
Mutually parallel to be distributed and be coaxially distributed with framework for support, bearing frame is connected by least four guide links with framework for support, is oriented to
Connecting rod front end is hinged by linkage and bearing frame outer surface, and guide link end is connected by eccentric mechanism and framework for support
Connect, and guide link axis and framework for support axis are in 30 ° -120 ° angles, pass through at least two between adjacent two bearing frames
Individual carrying column is connected with each other, and is carried column and surround bearing frame axis uniformly and be distributed with framework for support diameter parallel, carrying
Column both ends are connected by bearing spring with bearing frame respectively, and 1/4-1/2 part of bearing spring height is coated on carrying column
Coaxially it is distributed outside and with carrying column, sieve is some, and at least one sieve is all provided with each bearing frame, and sieve is embedded in carrying
Inframe is simultaneously coaxially distributed with bearing frame, and sieve is connected by least four connecting springs with bearing frame inner surface, and and bearing frame
" Qian " font groove-like structure that depth is at least 5 centimetres, and the sieve in adjacent two bearing frames are formed, positioned at holding for upper strata
The sieve mesh aperture for carrying inframe is 1-3 times of the sieve mesh aperture in lower floor's bearing frame, and positioned at the bearing frame of lower floor
Interior sieve mesh density is 1.5-5 times of the sieve mesh density in the bearing frame of upper strata, and horizontal oscillations mechanism is some
It is individual, and be distributed on around framework for support axis on bearing frame outer surface, each horizontal oscillations mechanism vibrations direction and framework for support axle
Line vertical distribution, vertical oscillation mechanism is some, and is distributed on around framework for support axis on each carrying column side surface, and each
At least one vertical oscillation mechanism, vertical oscillation mechanism vibrations direction and framework for support diameter parallel point are all provided with carrying column
Cloth.
Further, described framework for support is that cross section is rectangular, circular and regular polygon cylindrical frame structure.
Further, described guide link and carrying column are at least two-stage Telescopic rod structure.
Further, described bearing frame lower surface sets elastic connection sleeve, and described elastic connection sleeve and bearing frame are same
Axle is distributed and is coated on outside bearing frame.
Further, the uniform at least two supersonic oscillations device in described sieve lower surface, described supersonic oscillations
Device offsets with sieve lower surface, and is connected with each other by gusset and bearing frame inner surface.
Further, described sieve cross section is any one in rectangle, " V " font and " Qian " font structure.
Further, in described bearing frame, the bearing frame area positioned at lower floor is the adjacent bearing frame positioned at upper strata
1.5-2 times of area.
This new structure is simple, flexible and convenient to use, on the one hand possesses good versatility and reliability, can effectively expire
The needs of operation are used in combination in sufficient various materials and plurality of devices, can be according to using need on the other hand in operation process is shaken
Will, apply the oscillating force of multiple directions and intensity simultaneously to material, shake screening operation so as to effectively improve material
Operating efficiency and screening quality, and can avoid showing generation with sieve sieve pore blockade caused by material to a certain degree.
Brief description of the drawings
Describe the utility model in detail with reference to the accompanying drawings and detailed description.
Fig. 1 is the utility model structure diagram.
Embodiment
Technological means, creation characteristic, reached purpose and effect to realize the utility model are easy to understand, below
With reference to embodiment, the utility model is expanded on further.
A kind of more vibration source multistage composite vibratory sieves as described in Figure 1, including framework for support 1, guide link 2, bearing spring
3rd, connecting spring 4, carrying column 5, bearing frame 6, sieve 7, horizontal oscillations mechanism 8 and vertical oscillation mechanism 9, framework for support 1 are
With the cylindrical frame structure of horizontal plane distribution, bearing frame 6 at least three and in framework for support 1, and each bearing frame 6
It is parallel to each other from top to bottom along the axis of framework for support 1 and is distributed and is coaxially distributed with framework for support 1, bearing frame 6 passes through at least four
Guide link 2 is connected with framework for support 1, and the front end of guide link 2 is hinged by linkage and the outer surface of bearing frame 6, the company of guiding
The end of bar 2 is connected by eccentric mechanism 10 with framework for support 1, and the axis of guide link 2 and the axis of framework for support 1 in 30 °-
120 ° of angles, it is connected with each other by least two carrying columns 5 between adjacent two bearing frames 6, and carries column 5 around holding
Carry the axis of frame 6 uniformly and be distributed with the diameter parallel of framework for support 1, carrying column 5 both ends pass through bearing spring 4 and bearing frame respectively
6 connections, and 1/4-1/2 part of the height of bearing spring 4 is coated on outside carrying column 5 and is coaxially distributed with carrying column 5, sieve 7
It is some, and at least one sieve 7 is all provided with each bearing frame 6, and sieve 7 is coaxially divided in bearing frame 6 and with bearing frame 6
Cloth, sieve 7 are connected by least four connecting springs 4 with the inner surface of bearing frame 6, and are formed depth with bearing frame 6 and be at least 5 lis
" Qian " font groove-like structure of rice, and the sieve 7 in adjacent two bearing frames 6, the sieve 7 in the bearing frame 6 on upper strata
Mesh aperture is 1-3 times of the mesh aperture of sieve 7 in lower floor's bearing frame 6, and the sieve 7 in the bearing frame 6 of lower floor
Mesh density is 1.5-5 times of the mesh density of sieve 7 in upper strata bearing frame 6, horizontal oscillations mechanism 8 several, and ring
It is distributed on around the axis of framework for support 1 on the outer surface of bearing frame 6, each horizontal oscillations mechanism 8 shakes direction and hung down with the axis of framework for support 1
Straight distribution, vertical oscillation mechanism 9 is some, and is distributed on around the axis of framework for support 1 on each carrying column 5 side surface, and each
At least one vertical oscillation mechanism 9, the direction of vibration of vertical oscillation mechanism 9 and the diameter parallel of framework for support 1 are all provided with carrying column 5
Distribution.
In the present embodiment, described framework for support 1 is that cross section is rectangular, circular and regular polygon cylindrical frame knot
Structure.
In the present embodiment, described guide link 2 and carrying column are at least two-stage Telescopic rod structure.
In the present embodiment, the described lower surface of bearing frame 6 sets elastic connection sleeve 11, and described elastic connection sleeve 11 is with holding
Frame 6 is carried coaxially to be distributed and be coated on outside bearing frame 6.
In the present embodiment, the described uniform at least two supersonic oscillations device 12 in the lower surface of sieve 7, described ultrasonic wave
Oscillation device 12 offsets with the lower surface of sieve 7, and is connected with each other by gusset 13 and the inner surface of bearing frame 6.
In the present embodiment, the described cross section of sieve 7 is any one in rectangle, " V " font and " Qian " font structure.
In the present embodiment, in described bearing frame 6, the area of bearing frame 6 positioned at lower floor is adjacent holding positioned at upper strata
Carry 1.5-2 times of the area of frame 6.
This is new in the specific implementation, and first according to using needs, appropriate number of bearing frame is installed in framework for support,
Then start eccentric mechanism, horizontal oscillations mechanism and the operation of vertical oscillation mechanism simultaneously, on the one hand pass through eccentric mechanism pair
Bearing frame applies the alternation oscillating force horizontal by 10 ° -45 ° angles, on the other hand by horizontal oscillations mechanism to holding
Frame is carried to apply with the effect of vibration power of plane-parallel and by vertical oscillation mechanism to bearing frame apply and horizontal plane
Effect of vibration power, so as to which multidirectional complicated oscillation exchange effect is finally formed in sieve in bearing frame, and it is vertical by carrying
Post and bearing spring realize two neighboring bearing frame active force transmission, so as to avoid the generation covibration of adjacent two bearing frame.
When carrying out vibration service, material is delivered in the sieve of the top bearing frame first, and causes material
Screening operation can be completed by passing sequentially through each bearing frame, and when material passes through bearing frame, the effect of vibration power in sieve is on the one hand
Horizontal homogeneous is carried out to material to spread out, on the other hand screening activation force is provided by sieve aperture for material, so as to realize to thing
Material carries out the effect of screening operation.
This new structure is simple, flexible and convenient to use, on the one hand possesses good versatility and reliability, can effectively expire
The needs of operation are used in combination in sufficient various materials and plurality of devices, can be according to using need on the other hand in operation process is shaken
Will, apply the oscillating force of multiple directions and intensity simultaneously to material, shake screening operation so as to effectively improve material
Operating efficiency and screening quality, and can avoid showing generation with sieve sieve pore blockade caused by material to a certain degree.
It should be understood by those skilled in the art that the utility model is not restricted to the described embodiments.Above-described embodiment and
Simply illustrate principle of the present utility model described in specification.On the premise of the spirit and scope of the utility model is not departed from,
The utility model also has various changes and modifications.These changes and improvements both fall within claimed the scope of the utility model
It is interior.The utility model requires protection scope is by appended claims and its equivalent thereof.
Claims (7)
- A kind of 1. more vibration source multistage composite vibratory sieves, it is characterised in that:Described more vibration source multistage composite vibratory sieves include carrying Frame, guide link, bearing spring, connecting spring, carrying column, bearing frame, sieve, horizontal oscillations mechanism and vertical oscillation machine Structure, described framework for support are the cylindrical frame structure with horizontal plane distribution, and described bearing frame at least three is simultaneously embedding In in framework for support, and each bearing frame is parallel to each other and is distributed and coaxially divides with framework for support from top to bottom along framework for support axis Cloth, described bearing frame are connected by least four guide links with framework for support, and the guide link front end passes through Link chain device Structure is hinged with bearing frame outer surface, and guide link end is connected by eccentric mechanism with framework for support, and described guiding connects Rod axis are in 30 ° -120 ° angles with framework for support axis, pass through at least two carrying columns between adjacent two bearing frames It is connected with each other, and carries column and surround bearing frame axis uniformly and be distributed with framework for support diameter parallel, described carrying column Both ends are connected by bearing spring with bearing frame respectively, and 1/4-1/2 part of described bearing spring height is coated on carrying and stood Post is outer and is coaxially distributed with carrying column, and described sieve is some, and is all provided with least one sieve, and sieve in each bearing frame Coaxially it is distributed in bearing frame and with bearing frame, described sieve is connected by least four connecting springs and bearing frame inner surface Connect, and be at least 5 centimetres " Qian " font groove-like structure with bearing frame composition depth, and the sieve in adjacent two bearing frames Piece, the sieve mesh aperture in the bearing frame on upper strata are 1-3 times of the sieve mesh aperture in lower floor's bearing frame, and Sieve mesh density in the bearing frame of lower floor is 1.5-5 times of the sieve mesh density in the bearing frame of upper strata, described Horizontal oscillations mechanism it is some each, and be distributed on around framework for support axis on bearing frame outer surface, each horizontal oscillations mechanism shake Dynamic direction and framework for support axis vertical distribution, described vertical oscillation mechanism is some, and is distributed on around framework for support axis On each carrying column side surface, and at least one vertical oscillation mechanism, described vertical oscillation machine are all provided with each carrying column Structure direction of vibration is distributed with framework for support diameter parallel.
- A kind of 2. more vibration source multistage composite vibratory sieves according to claim 1, it is characterised in that:Described framework for support is Cross section is rectangular, circular or regular polygon cylindrical frame structure.
- A kind of 3. more vibration source multistage composite vibratory sieves according to claim 1, it is characterised in that:Described guide link and Carrying column is at least two-stage Telescopic rod structure.
- A kind of 4. more vibration source multistage composite vibratory sieves according to claim 1, it is characterised in that:Described bearing frame following table Face sets elastic connection sleeve, and described elastic connection sleeve is coaxially distributed and is coated on outside bearing frame with bearing frame.
- A kind of 5. more vibration source multistage composite vibratory sieves according to claim 1, it is characterised in that:Described sieve lower surface Uniform at least two supersonic oscillations device, described supersonic oscillations device offset with sieve lower surface, and by gusset with Bearing frame inner surface is connected with each other.
- A kind of 6. more vibration source multistage composite vibratory sieves according to claim 1, it is characterised in that:Described sieve cross section For any one in rectangle, " V " font and " Qian " font structure.
- A kind of 7. more vibration source multistage composite vibratory sieves according to claim 1, it is characterised in that:In described bearing frame, Bearing frame area positioned at lower floor is 1.5-2 times of the adjacent bearing frame area positioned at upper strata.
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109746181A (en) * | 2019-01-04 | 2019-05-14 | 焦作天宝桓祥机械科技有限公司 | A kind of more sieve composite ultraphonic waves concussion screening plants of diadust |
CN111701846A (en) * | 2020-06-30 | 2020-09-25 | 河南博锐新材料有限公司 | Diamond micropowder fine separation equipment and separation method thereof |
-
2017
- 2017-07-08 CN CN201720821167.3U patent/CN206981178U/en active Active
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109746181A (en) * | 2019-01-04 | 2019-05-14 | 焦作天宝桓祥机械科技有限公司 | A kind of more sieve composite ultraphonic waves concussion screening plants of diadust |
CN111701846A (en) * | 2020-06-30 | 2020-09-25 | 河南博锐新材料有限公司 | Diamond micropowder fine separation equipment and separation method thereof |
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