CN208161524U - The raw material proportioning device of cement - Google Patents
The raw material proportioning device of cement Download PDFInfo
- Publication number
- CN208161524U CN208161524U CN201820381507.XU CN201820381507U CN208161524U CN 208161524 U CN208161524 U CN 208161524U CN 201820381507 U CN201820381507 U CN 201820381507U CN 208161524 U CN208161524 U CN 208161524U
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- raw material
- storage hopper
- dust suction
- charge
- belted electronic
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Abstract
The utility model discloses a kind of raw material proportioning devices of cement, including multiple for storing different material and in the storage hopper of top opening structure, feeding device for from the feeding to storage hopper, it is corresponded with storage hopper and is horizontally placed on the belted electronic balance below storage hopper, multiple storage hoppers are along arranged in a straight line, the height of multiple belted electronic balances declines step by step along the orientation of storage hopper, inclined coupling tube is connected between the head and the tail of the adjacent belted electronic balance, the coupling tube upper end is connected to the end of previous belted electronic balance, the coupling tube lower end is connected to the starting point of latter belted electronic balance.The utility model provides the conveying of stablizing that can be realized raw material, a kind of raw material proportioning device of cement of extension belted electronic balance service life.
Description
Technical field
The utility model relates to field of cement production equipment, in particular to the raw material proportioning device of a kind of cement.
Background technique
Cement:Powdery hydraulicity inorganic coagulation material can harden or in water in air at slurry after adding water and stirring
Preferably hardening, and can the materials such as sand, stone are cemented together securely.Cement is mixed by plurality of raw materials proportion,
During producing cement, the accuracy of proportion scale and the uniformity of mixing not only will affect speed of production, but also straight
Connect the quality for influencing the cement produced.
The patent document of China Patent Publication No. CN203440251U discloses a kind of cement producing line cement automatic blending
Device, including desulfurized gypsum library, clinker warehouse, yellow material library, mixture library, gypsum library, microcomputer claim, ingredient conveyer belt and controller,
There is ingredient conveyer belt below the discharge port that microcomputer claims.
In process of production, the raw material in each library falls on the surface that microcomputer claims to above-mentioned technical proposal first, then by microcomputer
Title falls into ingredient and transmits belt surface, and microcomputer claims have certain difference in height between ingredient conveyer belt, then raw material is being fallen
During be easy to ingredient conveyer belt generate damage.
Utility model content
The purpose of the utility model is to provide a kind of raw material proportioning devices of cement, and that realizes raw material stablizes conveying, extend
The service life of belted electronic balance.
The above-mentioned technical purpose of the utility model technical scheme is that:A kind of raw material of cement is matched
Than device, including multiple for storing different material and being in the storage hopper of top opening structure, for the feeding into storage hopper
Feeding device, the belted electronic balance for corresponding and being set to below storage hopper with storage hopper, multiple storage hoppers are along straight line
Arrangement, the height of multiple belted electronic balances decline step by step along the orientation of storage hopper, the adjacent belted electronic balance
Inclined coupling tube is connected between head and the tail, the coupling tube upper end is connected to the end of previous belted electronic balance, described
Coupling tube lower end is connected to the starting point of latter belted electronic balance.
By using above-mentioned technical proposal, make the raw material on previous belted electronic balance can gradually be slid by coupling tube to
The upper surface of latter belted electronic balance reduces speed when raw material falls, and avoids due to directly vertically falling to latter item electricity
Sub- weighing belt damages, meanwhile, enable all belted electronic balances successively transferring raw material, thus by the last item electronics skin
Belt scale can make previous belted electronic balance by all feedstock transportations to next process, by the space that coupling tube institute's frame rises
The raw material on surface is fully delivered to next belted electronic balance surface, and then promotes the accuracy of proportion.
The utility model is further arranged to:Multiple coupling tube lower ends are communicated with dust collection mechanism, the vacuum cleaner
Structure include the dust suction branch pipe for being connected to coupling tube lower end, the dust suction for being connected to dust suction branch pipe be in charge of, removing of being connected to that dust suction is in charge of
Dirt blower, the adjacent dust suction, which is in charge of, to be connected.
By using above-mentioned technical proposal, when raw material is fallen on latter belted electronic balance from previous belted electronic balance
Certain dust can be generated, and the dust generated during this can be absorbed using dust collection mechanism at this time, and then avoid
Dust impacts environment.
The utility model is further arranged to:The dust suction is provided with dust stratification cleaning mechanism, the dust stratification cleaning in being in charge of
Mechanism includes being in charge of axial sliding along dust suction and being connected to dust suction to be in charge of internal conditioning disk, be connected to conditioning disk both ends of the surface
The rotating disc that drawstring is connected with drawstring far from one end of conditioning disk, the conditioning disk outer rim contact at dust suction and are in charge of inside.
By using above-mentioned technical proposal, rotary motion disk can pull conditioning disk to be in charge of interior edge in dust suction by drawstring
The axial movement be in charge of of dust suction, the dust stratification that conditioning disk will be in charge of dust suction inner wall during the motion play the role of ash disposal,
So as to play the role of recycling to the part material, raw material also can be all made full use of, and makes the proportion of various raw materials more
Accurately.
The utility model is further arranged to:The conditioning disk outer rim is fixed with iron hairbrush, and the iron hairbrush contacts at suction
Dirt is in charge of inner wall.
By using above-mentioned technical proposal, it can play the role of striking off deashing to the inner wall that dust suction is in charge of, and then by the portion
Raw material is divided to re-use.
The utility model is further arranged to:The dust suction be in charge of inner wall integrally formed with central shaft in parallel
Gib block, the conditioning disk, which is embedded and slides, is connected to gib block.
By using above-mentioned technical proposal, the guiding that gib block can be utilized in conditioning disk moving process is being pulled with drawstring
It acts on and the movement of conditioning disk is made to keep stablizing, avoid the swing for causing conditioning disk in drawing process and reduce ash-removal effect.
The utility model is further arranged to:The feeding device include the transport tube tilted upward, be rotationally connected with it is defeated
The spiral conveyor rod in cylinder is sent, the transport tube is located at the top of storage hopper upper opening, and the transport tube is provided with and storage hopper
The one-to-one lower hopper of upper opening.
It can be by transport tube point using a transport tube with multiple lower hoppers by using above-mentioned technical proposal
The not blanking into multiple storage hoppers opens the corresponding lower hopper of the storage hopper of the raw material when needing one of raw material, and
Other lower hoppers are closed, then material can be delivered to specified blanking from transport tube using the spiral conveyor rod of rotation
Bucket, and by falling into the lower hopper to specified storage hopper, thus can be right by a transport tube and spiral conveyor rod
All materials carry out feeding, without matching a transport tube to each storage hopper, and then can reduce the overall volume of equipment
And occupied space.
The utility model is further arranged to:The lower hopper includes that upper end is connected to transport tube and lower end extends to storing
The blanking tube for the upper opening that struggles against, the outlet valve for being set to blanking tube lower end.
It, will be under its corresponding blanking tube when needing the blanking into specified storage hopper by using above-mentioned technical proposal
The outlet valve at end is opened, and the outlet valve of other blanking tubes is all closed, so as to rely on a transport tube can be to institute
Blanking in some storage hoppers.
The utility model is further arranged to:Dustcloth is connected between the outlet valve lower end and the upper opening of storage hopper
Bag.
It, can be for dust that blanking tube generates in blanking process by dustproof cloth bag by using above-mentioned technical proposal
Blocking effect is played, the dust generated in blanking process is avoided to impact working environment.
In conclusion the utility model has the advantages that:
One:Using coupling tube, the raw material between adjacent electronics weighing belt can be made to slide diagonally downward, avoid vertically falling
It falls and belted electronic balance is damaged, extend the service life of belted electronic balance;
Secondly:Exclusion effect can be played to the dust generated during feedstock transportation by dust collection mechanism, keep good
Working environment;
Thirdly:Using with the one-to-one transport tube of multiple storage hoppers, can be by the spiral transferring in same root transport tube
It send bar to convey different raw materials into different storage hoppers, and then saves the overall space of equipment.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the present embodiment;
Fig. 2 is the portion the I enlarged drawing of Fig. 1;
Fig. 3 is that the present embodiment is mainly used for embodying the structural schematic diagram of storage hopper;
Fig. 4 is that the present embodiment is mainly used for embodying the structural schematic diagram of dedusting mechanism;
Fig. 5 is the portion the II enlarged drawing of Fig. 4.
Appended drawing reference:1, storage hopper;2, feeding device;21, transport tube;211, feed inlet;22, spiral conveyor rod;23, it drives
Dynamic motor;3, lower hopper;31, blanking tube;32, outlet valve;4, baiting valve;5, belted electronic balance;6, elevator;7, coupling tube;
8, dust collection mechanism;81, dust suction branch pipe;82, dust suction is in charge of;83, dedusting fan;9, dust stratification cleaning mechanism;91, conditioning disk;92, it draws
Rope;93, rotating disc;94, iron hairbrush;95, wheel carrier;10, block;11, dustproof cloth bag;12, pass through mouth;13, gib block.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
A kind of raw material proportioning device of cement, referring to Fig.1 shown in, including five in top opening structure storage hopper 1, can
The feeding device 2, electric correspondingly with the under shed of each storage hopper 1 of feeding is carried out into the upper opening of all storage hoppers 1
Sub- weighing belt 5 is weighed and is conveyed to the raw material in each storage hopper 1 by belted electronic balance 5.
The upper part of storage hopper 1 is cylindrical, and lower part is in conical structure, and five storage hoppers 1 are arranged along straight line, and
And the height of five storage hoppers 1 is incremented by step by step, and baiting valve 4 is mounted at the lower ending opening of each storage hopper 1, baiting valve 4 selects
With electrical ball valve, to can be controlled whether storage hopper 1 discharges by electrical ball valve.
The lower section of each baiting valve 4 matches a belted electronic balance 5, and belted electronic balance 5 can be to falling into its surface
Raw material is weighed, and the baiting valve 4 of corresponding storage hopper 1 is closed when reaching required amount, then will be quantitative by belted electronic balance 5
Raw material rearward conveys.All belted electronic balances 5 are in being horizontally disposed with, and the height of five belted electronic balances 5 is along 1 height of storage hopper
Incremental direction declines step by step, and adjacent electronics weighing belt 5 is end to end, then the raw material on previous belted electronic balance 5
It can fall at transport to end to the upper surface of latter belted electronic balance 5, and then utilize 5 energy of the last item belted electronic balance
It is enough that all raw materials are fed through next process.
Shown in referring to Fig.1, it is in horizontally disposed transport tube 21 that feeding device 2, which includes one, and transport tube 21 is set to all
The top of 1 upper opening of storage hopper.The inner rotation of transport tube 21 has a spiral conveyor rod 22, spiral conveyor rod 22 and transport tube
21 it is central axial in parallel, one end of spiral conveyor rod 22 through transport tube 21 a wherein end face and be connected with driving electricity
Machine 23.The starting point of transport tube 21 offers the feed inlet 211 in upper opening.For the transferring raw material into each storage hopper 1, knot
Close Fig. 2 shown in, be provided on transport tube 21 with the one-to-one lower hopper 3 of storage hopper 1, lower hopper 3 include be shaped in
Transport tube 21 and with the blanking tube 31 that is connected in transport tube 21, blanking tube 31 is in being vertically arranged and in alignment with the upper of storage hopper 1
Opening.Outlet valve 32 is installed in the lower end of blanking tube 31, outlet valve 32 also selects electrical ball valve.And in the bottom of outlet valve 32
Dustproof cloth bag 11 is connected between the upper opening of storage hopper 1.When needing the transferring raw material into some storage hopper 1, opening should
The outlet valve 32 of the corresponding blanking tube 31 of storage hopper 1, and the outlet valve of other blanking tubes 31 32 is all closed, thus in spiral
Under the action of conveying lever 22 raw material can fall in specified storage hopper 1 from the blanking tube 31 for opening outlet valve 32.
Referring to shown in Fig. 3, in order to reduce the dust generated during raw material proportioning, it is fixedly mounted in the outer rim of baiting valve 4
There is block 10, block 10 is in cuboid and the upper surface for extending downward into belted electronic balance 5, is located at belted electronic balance in block 10
It is offered in the one side wall of 5 directions of advance through mouth 12.Meanwhile in order to avoid raw material is fallen into from previous belted electronic balance 5
The damage that belted electronic balance 5 is caused when extremely latter 5 surface of belted electronic balance, between the last head end of adjacent electronics weighing belt 5
It is provided with coupling tube 7, coupling tube 7 is in both ends open and is obliquely installed, and the upper opening of coupling tube 7 is in alignment with previous electronic belt
The end of scale 5, the under shed of coupling tube 7 make previous electronic belt in alignment with the upper surface of latter 5 head end of belted electronic balance
Raw material on scale 5 can be out of coupling tube 7 to the upper surface for dropping down onto latter belted electronic balance 5 that glides.
Referring to shown in Fig. 4, and in order to avoid generation when raw material is fallen into out of coupling tube 7 to the upper surface of belted electronic balance 5
A large amount of dust is provided with dust collection mechanism 8 close to the part of bottom end in coupling tube 7, and dust collection mechanism 8 includes and 7 bottom of coupling tube
One to be connected tilts upward the dust suction branch pipe 81 of setting, and the upper end of dust suction branch pipe 81 is communicated with one in horizontal dust suction point
Pipe 82, all dust suctions are in charge of 82 and are set in parallel and adjacent dust suction is in charge of 82 and is connected, and in last root dust suction point
A dedusting fan 83 is communicated on pipe 82.
It is removed in order to which the dust stratification inside 82 effectively is in charge of in dust suction, is in charge of in 82 in dust suction and is provided with dust stratification cleaning
Mechanism 9, referring to Figure 5, dust stratification cleaning mechanism 9 include being set to the conditioning disk 91 that dust suction is in charge of inside 82, conditioning disk 91
Outer rim is fixed with iron hairbrush 94, and iron hairbrush 94 contacts at the inner wall that dust suction is in charge of 82.And dust suction be in charge of 82 inner wall one at
Type has to be in charge of 82 central axial in parallel gib block 13 with dust suction, and conditioning disk 91, which is embedded and slides, is connected to gib block 13, from
And the axial movement for enabling conditioning disk 91 to be in charge of 82 along dust suction on gib block 13.Conditioning disk 91 is grasped for convenience
Make, is fixedly connected to a drawstring 92 in the both ends of the surface of conditioning disk 91, two drawstrings 92 are arranged in dust suction respectively and are in charge of 82
One of end face, two drawstrings 92 are respectively connected with a rotating disc 93 far from one end of conditioning disk 91(It is shown in Fig. 4), rotation
Disk 93 is rotationally connected with a wheel carrier 95, when needing to remove dust stratification, rotary motion disk 93, by drawstring 92 to conditioning disk 91
Active force and be in charge of conditioning disk 91 in 82 in dust suction and move, and then the dust stratification in 82 is in charge of in dust suction and is purged and makes the portion
Divide raw material to fall into again through dust suction branch pipe 81 to 5 surface of belted electronic balance, and then realizes recycling.
Shown in referring to Fig.1, in order to further decrease the occupied space of transport tube 21, it is provided in the bottom end of transport tube 21
One elevator 6, the bottom end of elevator 6 are feed inlet, and upper end is discharge port, by the feed inlet of elevator 6 be disposed in proximity in
The position on ground, and be positioned in close to the position at harbour;The discharge port of elevator 6 is set to 21 feed inlet of transport tube
211 top.
The working principle of the present embodiment is:Feeding, first by the selection of the biggish raw material of accounting in cement proportion using height compared with
High storage hopper 1 is stored, and when needing to carry out feeding to one of raw material, opens the corresponding blanking tube of storage hopper 1
31 outlet valve 32, and other outlet valves 32 are closed, start elevator 6 and spiral conveyor rod 22, and then will be one of former
Material is fallen by the wherein blanking tube 31 on transport tube 21 to specified storage hopper 1.
The outlet valve 32 of each storage hopper 1 individually controls, and different raw materials is respectively fallen in carrying out on belted electronic balance 5
Weigh, when required amount reaches specified value close outlet valve 32, then from belted electronic balance 5 by different raw materials to next
Belted electronic balance 5 conveys, and then all raw materials are successively delivered to next process by the last item belted electronic balance 5.
Start dedusting fan 83 in this process, the dust generated in transportational process is sucked into dust suction and is in charge of in 82,
Belted electronic balance 5 complete transport after, rotate each dust suction be in charge of 82 corresponding to one of rotating disc 93, by drawstring 92
It pulls conditioning disk 91 to be in charge of in 82 in dust suction and moves, the dust stratification in 82 is in charge of in dust suction and strikes off and makes dust stratification again from dust suction branch pipe
It falls in 81, falls into this part material again to 5 surface of belted electronic balance, and be transported to by belted electronic balance 5 next
Procedure.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability
Field technique personnel can according to need the modification that not creative contribution is made to the present embodiment after reading this specification, but
As long as all by the protection of Patent Law in the scope of the claims of the utility model.
Claims (8)
1. the raw material proportioning device of a kind of cement, including multiple for storing different material and in the storage hopper of top opening structure
(1), for storage hopper(1)The feeding device of interior feeding(2)With storage hopper(1)It corresponds and is horizontally placed on storage hopper
(1)The belted electronic balance of lower section(5), it is characterized in that:Multiple storage hoppers(1)Along arranged in a straight line, multiple electronic belts
Scale(5)Height along storage hopper(1)Orientation decline step by step, the adjacent belted electronic balance(5)Head and the tail between connect
There is inclined coupling tube(7), the coupling tube(7)Upper end is connected to previous belted electronic balance(5)End, the transition
Pipe(7)Lower end is connected to latter belted electronic balance(5)Starting point.
2. the raw material proportioning device of cement according to claim 1, it is characterized in that:Multiple coupling tubes(7)Lower end is equal
It is communicated with dust collection mechanism(8), the dust collection mechanism(8)Including being connected to coupling tube(7)The dust suction branch pipe of lower end(81), be connected to
Dust suction branch pipe(81)Dust suction be in charge of(82), be connected to dust suction and be in charge of(82)Dedusting fan(83), the adjacent dust suction is in charge of
(82)It is connected.
3. the raw material proportioning device of cement according to claim 2, it is characterized in that:The dust suction is in charge of(82)Inside it is provided with
Dust stratification cleaning mechanism(9), the dust stratification cleaning mechanism(9)Including being in charge of along dust suction(82)Axial sliding is connected to dust suction and is in charge of
(82)Internal conditioning disk(91), be connected to conditioning disk(91)The drawstring of both ends of the surface(92)With drawstring(92)Far from cleaning
Disk(91)The rotating disc that is connected of one end(93), the conditioning disk(91)Outer rim contacts at dust suction and is in charge of(82)It is internal.
4. the raw material proportioning device of cement according to claim 3, it is characterized in that:The conditioning disk(91)Outer rim is fixed with
Iron hairbrush(94), the iron hairbrush(94)Dust suction is contacted to be in charge of(82)Inner wall.
5. the raw material proportioning device of cement according to claim 3, it is characterized in that:The dust suction is in charge of(82)Inner wall one
It forms with central shaft in parallel gib block(13), the conditioning disk(91)It is embedded and slides and be connected to gib block
(13).
6. the raw material proportioning device of cement according to claim 1, it is characterized in that:The feeding device(2)Including level
The transport tube of setting(21), be rotationally connected with transport tube(21)Interior spiral conveyor rod(22), the transport tube(21)Positioned at storage
Hopper(1)The top of upper opening, the transport tube(21)It is provided with and storage hopper(1)The one-to-one lower hopper of upper opening(3).
7. the raw material proportioning device of cement according to claim 6, it is characterized in that:The lower hopper(3)Connect including upper end
Pass through transport tube(21)And lower end extends to storage hopper(1)The blanking tube of upper opening(31), be set to blanking tube(31)Lower end
Outlet valve(32).
8. the raw material proportioning device of cement according to claim 7, it is characterized in that:The outlet valve(32)Lower end and storing
Bucket(1)Upper opening between be connected with dustproof cloth bag(11).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820381507.XU CN208161524U (en) | 2018-03-20 | 2018-03-20 | The raw material proportioning device of cement |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820381507.XU CN208161524U (en) | 2018-03-20 | 2018-03-20 | The raw material proportioning device of cement |
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Publication Number | Publication Date |
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CN208161524U true CN208161524U (en) | 2018-11-30 |
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ID=64373538
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CN201820381507.XU Expired - Fee Related CN208161524U (en) | 2018-03-20 | 2018-03-20 | The raw material proportioning device of cement |
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CN (1) | CN208161524U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110843133A (en) * | 2019-11-04 | 2020-02-28 | 常德金江水泥有限公司 | Dosing unit and material loading structure in cement manufacture |
-
2018
- 2018-03-20 CN CN201820381507.XU patent/CN208161524U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110843133A (en) * | 2019-11-04 | 2020-02-28 | 常德金江水泥有限公司 | Dosing unit and material loading structure in cement manufacture |
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Legal Events
Date | Code | Title | Description |
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20181130 |