CN208761333U - Wear-resisting receiving hopper for filter material - Google Patents
Wear-resisting receiving hopper for filter material Download PDFInfo
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- CN208761333U CN208761333U CN201821383797.8U CN201821383797U CN208761333U CN 208761333 U CN208761333 U CN 208761333U CN 201821383797 U CN201821383797 U CN 201821383797U CN 208761333 U CN208761333 U CN 208761333U
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- wear
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- hopper
- hopper ontology
- wealthy
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Abstract
The utility model discloses a kind of wear-resisting receiving hoppers for filter material, it applies in machine work field, when solving sandstone material and falling on receiving hopper, sand hopper can cause the inner wall of receiving hopper to impact and rub, the technical issues of leading to the trapezoidal steel plate serious wear on receiving hopper, its key points of the technical solution are that: including the hopper ontology surrounded by the identical trapezoidal steel plate of four block sizes, the big one end of hopper ontology bore is set as feed end, the small one end of hopper ontology bore is set as discharge end, inner sidewall on four blocks of trapezoidal steel plates along hopper ontology is equipped with wear-resistant block, the shape of wear-resistant block is consistent with the shape of trapezoidal steel plate;What is had has the technical effect that the setting of wear-resistant block can reduce sandstone material and directly contact and wear the possibility of trapezoidal steel plate with the trapezoidal surface of steel plate of hopper ontology, to extend the service life of hopper ontology.
Description
Technical field
The utility model relates to machine work field, in particular to a kind of wear-resisting receiving hopper for filter material.
Background technique
Currently, receiving hopper is the common component of machinery field, basic effect is to transport material, such as sand, stone,
Cement etc., during material conveying, receiving hopper is generally arranged at the top of conveyor belt, for accepting material and by material
It is sent in conveyor belt, the existing receiving hopper used is usually cylinder-shaped receiving hopper, and this receiving hopper generally selects trapezoidal steel
Plate is made, and when sandstone material is fallen on receiving hopper, sand hopper can cause the inner wall of receiving hopper to impact and rub, and causes to connect
Trapezoidal steel plate serious wear on hopper, at actual production scene, feed hopper is often also not up to normal service life and mentions
Before scrap, cause the waste of great resource.
Utility model content
The purpose of the utility model is to provide a kind of wear-resisting receiving hoppers for filter material, its advantage is that: when sandstone object
When material is fallen in hopper ontology, sandstone material falls directly on the surface of wear-resistant block, and the setting of wear-resistant block can reduce sandstone material
The possibility of trapezoidal steel plate is directly contacted and worn with the trapezoidal surface of steel plate of hopper ontology, to extend the use of hopper ontology
Service life.
The above-mentioned technical purpose of the utility model has the technical scheme that a kind of for filter material
Wear-resisting receiving hopper, including the hopper ontology surrounded by the identical trapezoidal steel plate of four block sizes, the hopper ontology bore is big
One end is set as feed end, and the small one end of the hopper ontology bore is set as discharge end, and the discharge end is equipped with feed tube, four pieces of institutes
It states the inner sidewall on trapezoidal steel plate along hopper ontology and is equipped with wear-resistant block, the shape phase of the shape of the wear-resistant block and trapezoidal steel plate
Unanimously.
Through the above technical solutions, sandstone material falls directly on wear-resistant block when sandstone material is fallen in hopper ontology
Surface, the setting of wear-resistant block can reduce sandstone material and directly contact with the trapezoidal surface of steel plate of hopper ontology and wear trapezoidal steel
The possibility of plate, to extend the service life of hopper ontology, while hopper ontology is by the identical trapezoidal steel plate group of four block sizes
At, when, which there is damage, in one of trapezoidal steel plate to be needed replacing, one block of trapezoidal steel plate that operator only needs to be worn into
Row replacement can and do not have to by four blocks of steel plates simultaneously replace, reduce resource waste.
The utility model is further arranged to: the both sides of the trapezoidal wear-resistant block along the vertical direction offer card slot, institute
The fixture block for being equipped on hopper ontology and matching with card slot is stated, one end that the fixture block protrudes into hopper ontology is connected with limited block,
The limited block and wear-resistant block inner wall are inconsistent, and one end that the fixture block stretches out hopper ontology is fixedly connected on material by fixing piece
It struggles against on body outer wall.
Through the above technical solutions, wear-resistant block is fitted on the inner wall of hopper ontology by operation first when installation, then will
Limited block is fed through fixture block blend compounds water and is bonded, then fixture block is vertically fed through trapezoidal steel plate and is connected to hopper wear-resistant block
Card slot in, while be displaced outwardly fixture block make limited block contradict on the inner wall of wear-resistant block, reduce sandstone material fall on it is wear-resisting
The possibility for making wear-resistant block position shift on block so that wear-resistant block is adjacent on trapezoidal steel plate, and passes through fixing piece
Fixture block is fixed on trapezoidal steel plate outer wall, so that quickly wear-resistant block is fixed on trapezoidal steel plate, when needing to wear-resistant block
When being replaced, it is only necessary to which wear-resistant block can be removed by removing fixture block out of trapezoidal steel plate and wear-resistant block card slot, convenient fast
It is prompt.
The utility model is further arranged to: the fixing piece includes the fixed block being set on fixture block, the fixed block
It is fixed on the outer wall of hopper ontology by fixing bolt, worn on the side wall of the fixed block and is threaded with the first positioning spiral shell
Bolt, first positioning bolt are inconsistent towards one end of fixed block and fixture block.
Through the above technical solutions, operator will fix first when needing for fixture block to be fixed on hopper body outer wall
Block is set on fixture block, and then fixed block is fixed on hopper body outer wall by clamping screw, and by the first positioning bolt
Wear into fixed block until with fixture block lateral wall it is inconsistent be fixed on fixed block so that fixture block is clamped, so that fixture block
It is quickly fixed on hopper ontology, the setting of fixed block improves the stability connected between fixture block and hopper ontology.
The utility model is further arranged to: the card slot along its length be wherein connected with compressed spring, institute on one side
It states the one end of compressed spring far from card slot and fixture block is inconsistent.
Through the above technical solutions, needing to be fixed in hopper inner body wall before in the card slot of wear-resistant block by fixture block
When, compressed spring is pressed on card slot inner wall by operator first, fixture block is then connected in card slot and is unclamped compressed spring,
Compressed spring elasticity is restored and fixture block is pushed against on card slot inner wall at this time, to improve the stabilization connected between fixture block and card slot
Property, so that wear-resistant block is fixed in hopper inner body wall.
The utility model is further arranged to: the wear-resistant block is weldingly fixed on trapezoidal steel plate, described in adjacent two
There are gaps between wear-resistant block.
Through the above technical solutions, operator puts in finger in the gap between two neighboring wear-resistant block, helps when installation
Wear-resistant block and to the position of wear-resistant block be adjusted until wear-resistant block it is corresponding with trapezoidal steel plate, then wear-resisting block welding is consolidated
It is scheduled on trapezoidal steel plate, installs simple and fast.When sandstone material is fallen in hopper ontology, sandstone material fine crushing can block
It connects in the gap between wear-resistant block, causes to wear so as to reduce sandstone material to the trapezoidal steel plate between gap.
The utility model is further arranged to: the feed end end is equipped with grid fence, and the grid fence passes through wealthy
Buccal mass is fixedly connected on feed end end.
Through the above technical solutions, fallen in hopper ontology from input end when sandstone material, the setting of grid fence is by body
The impurity barrier such as biggish stone of product is on grid fence, to play a role in filtering to sandstone material.
The utility model is further arranged to: the wealthy buccal mass is composed of a fixed connection by four blocks of trapezoidal metal blocks, described
The small one end of wealthy buccal mass bore is obliquely installed towards feed end, the wealthy buccal mass direction along the side wall of feed end from up to down,
The grid fence is fixedly connected on the side wall of the small one end of wealthy buccal mass bore.
Through the above technical solutions, sandstone material is quick along the side wall of wealthy buccal mass when sandstone material is fallen to input end
Be slipped on grid fence, meanwhile, the big one end of wealthy buccal mass bore deviates from feed end, forms a structure dehisced, can be with
The possibility that sandstone material falls on wealthy buccal mass outer is reduced, so that sandstone material can enter in hopper ontology, reduces money
Source waste.
The utility model is further arranged to: is offered on the wealthy buccal mass with hopper ontology close to the outer peripheral edge of feed end
The card slot matched, the lateral wall of the wealthy buccal mass are equipped with several and are fed through the second positioning bolt of wealthy buccal mass, and described the
Two positioning bolts are inconsistent close to the lateral wall of feed end with hopper ontology.
Through the above technical solutions, operator first lifts to wealthy buccal mass when needing to be mounted on wealthy buccal mass on hopper ontology
Above hopper ontology, so that the feed end of card slot alignment hopper ontology, then put down wealthy buccal mass and make hopper ontology close to feed end
Outer peripheral edge be connected in card slot, then by the second positioning bolt be fed through wealthy buccal mass and contradict hopper ontology lateral wall
On, so that quickly wealthy buccal mass is fixed on hopper ontology, when needing other side's barrier to replace, operator is by wealthy mouth
It is convenient and efficient under block is dismantled from hopper ontology.
The utility model is further arranged to: the discharge end is equipped with feed tube, and the feed tube passes through several locking screws
Bolt is fixedly connected on the side wall of discharge end.
Through the above technical solutions, the setting of feed tube is convenient for the intrinsic sandstone material of hopper along feed tube inner wall collection
In fall on splicing plate, reduce sandstone material and slide the possibility for being splashed to splicing plate outer directly from hopper ontology, with
Feed tube is fixed on hopper ontology by this simultaneously, by clamping screw, is quickly installed to feed tube convenient for operator
With dismantle and replace, improve efficiency.
The utility model is further arranged to: the inner wall of the feed tube is equipped with wearing layer.
Through the above technical solutions, the setting of wearing layer, which reduces the intrinsic sandstone material of hopper, is slipped to feed tube
It is interior, the possibility of abrasion is caused to feed tube inner wall, to extend the service life of feed tube.
In conclusion the utility model has the following beneficial effects:
1. sandstone material falls directly on the surface of wear-resistant block when sandstone material is fallen in hopper ontology, wear-resistant block is set
Sandstone material can be reduced by, which setting, directly contacts and wears the possibility of trapezoidal steel plate with the trapezoidal surface of steel plate of hopper ontology, to prolong
The service life of hopper ontology is grown;
2. the setting of grid fence stops the bulk stone fallen into the sandstone material of hopper ontology or impurity, thus
Play the role of filtering to sandstone material.
Detailed description of the invention
Fig. 1 is the structural schematic diagram of the wear-resisting receiving hopper for filter material of the present embodiment 1;
Fig. 2 is the cross-sectional view of the wear-resisting receiving hopper for filter material of the present embodiment 1;
Fig. 3 is the enlarged drawing in the portion A in Fig. 2;
Fig. 4 is the enlarged drawing in the portion B in Fig. 2;
The cross-sectional view of the wear-resisting receiving hopper for filter material of Fig. 5 the present embodiment 2.
Appended drawing reference: 1, hopper ontology;2, trapezoidal steel plate;3, feed end;4, discharge end;5, wear-resistant block;6, card slot;7, block
Block;8, fixing piece;81, fixed block;82, fixing bolt;83, the first positioning bolt;9, compressed spring;10, grid fence;11,
Wealthy buccal mass;111, card slot;112, the second positioning bolt;12, clamping screw;13, wearing layer;14, feed tube;15, limited block.
Specific embodiment
The utility model is described in further detail below in conjunction with attached drawing.
Embodiment 1: a kind of wear-resisting receiving hopper for filter material, such as Fig. 1, including by the identical trapezoidal steel of four block sizes
The hopper ontology 1 that plate 2 surrounds, the big one end of 1 bore of hopper ontology are feed end 3(Fig. 2), the small one end of 1 bore of hopper ontology
For discharge end 4(Fig. 2), discharge end 4 is equipped with feed tube 14, and feed tube 14 is fixedly connected on feed end by several clamping screws 12
On 3 side wall, the setting of feed tube 14 is connect convenient for the sandstone material in hopper ontology 1 along falling on of concentrating of 14 inner wall of feed tube
On flitch, reduce sandstone material and slide the possibility for being splashed to splicing plate outer directly out of hopper ontology 1, feed tube 14 it is interior
One layer of wearing layer 13(Fig. 2 is welded on wall), wearing layer 13 is made of wear-resistant ceramic, and wear-resistant ceramic hardness is big, light-weight, wear-resisting
Performance is fabulous, and the setting of wearing layer 13 can reduce sandstone material and directly contact with 14 inner wall of feed tube and cause to feed tube 14
The possibility of abrasion.
Such as Fig. 2 and Fig. 3, the inner sidewall on four blocks of trapezoidal steel plates 2 along hopper ontology 1 is equipped with wear-resistant block 5, wear-resistant block 5
Shape is identical as the shape of trapezoidal steel plate 2, and the both sides of trapezoidal wear-resistant block 5 along the vertical direction offer card slot 6, and card slot 6 is along length
Degree direction is wherein welded with two compressed springs 9 on one side, and hopper ontology 1 is equipped with eight fixture blocks 7, on every block of trapezoidal steel plate 2
Be respectively provided with two fixture blocks 7, one end that each fixture block 7 protrudes into hopper ontology 1 is connected with a limited block 15, limited block 15 with it is wear-resisting
5 inner wall of block is inconsistent.
Such as Fig. 2 and Fig. 3, when installation, wear-resistant block 5 is fitted in the surface of trapezoidal steel plate 2 by operator first, and by card slot 6
Interior compressed spring 9 pushes, and limited block 15 is then fed through fixture block 7, and limited block 15 is bonded on fixture block 7 by blend compounds water,
Fixture block 7 is fed through trapezoidal steel plate 2 again, and pull out fixture block 7 until limited block 15 and the inner wall of wear-resistant block 5 it is inconsistent, make
It obtains wear-resistant block 5 and is adjacent to the inner wall in trapezoidal steel plate 2, fixture block 7 is connected in card slot 6 and is pressed in compressed spring 9, unclamps pressure at this time
Contracting spring 9,9 elasticity recovery of compressed spring is simultaneously inconsistent with fixture block 7, thus by 7 clamping fixed of fixture block in card slot 6, so that resistance to
Abrading block 5 is fixed on trapezoidal steel plate 2, and last operation person will block one end that fixture block 7 stretches out hopper ontology 1 by fixing piece 8
Block 7 is fixedly connected on 1 outer wall of hopper ontology.
Such as Fig. 2 and Fig. 3, fixing piece 8 includes eight fixed blocks 81.When installation, fixed block 81 is first set in card by operator
On block 7, fixed block 81 is then fixedly connected on by fixing bolt 82 by the outer wall of hopper ontology 1, on the side wall of fixed block 81
Threaded hole is offered, operator is by the threaded hole that the first positioning bolt 83 is fed through on fixed block 81 and is threaded in threaded hole
It is interior, until the first positioning bolt 83 is inconsistent towards one end of fixed block 81 and fixture block 7, the fixed work of limit is played to fixture block 7
With, it is possible to reduce the possibility loosened between fixture block 7 and fixed block 81.
Such as Fig. 1, wear-resistant block 5 is made of granite, and granite hardness is high, wear-resistant, when sandstone material falls in hopper ontology 1
When on inner wall, sandstone material can be contacted directly with the surface of wear-resistant block 5, reduced sandstone material and directly connect with trapezoidal 2 surface of steel plate
The possibility of trapezoidal steel plate 2 is touched and wears, to extend the service life of hopper ontology 1.
Such as Fig. 2 and Fig. 4,3 end of feed end is equipped with a grid fence 10, and grid fence 10 connects by the way that wealthy buccal mass 11 is fixed
It connects and offers the card slot matched with hopper ontology 1 close to the outer peripheral edge of feed end 3 on 3 end of feed end, wealthy buccal mass 11
111, the side wall of wealthy buccal mass 11 is equipped with several second positioning bolts 112.When installation, operator is by wealthy 11 hopper of buccal mass
On ontology 1, and then mobile wealthy buccal mass 11 is determined second until card slot 111 and the end of 1 feed end 3 of hopper ontology are mutually clamped
Position bolt 112 is fed through the threaded hole on wealthy buccal mass 11 until the second positioning bolt 112 contradicts the hopper ontology in card slot 111
On 1 lateral wall, then the second positioning bolt 112 is tightened, thus quickly by hopper ontology 1 and wealthy 11 clamping fixed of buccal mass.
Such as Fig. 1, the size of several grid bores is according to the rubble impurity being mingled in sandstone material etc. on grid fence 10
Specific size is set, and the bore of the grid in the present embodiment is 80mm × 50mm, and wealthy buccal mass 11 is consolidated by four pieces of trapezoidal blooms
Fixed connection composition, the small one end of wealthy 11 bore of buccal mass are welded to connect towards feed end 3(Fig. 2), grid fence 10 in wealthy buccal mass 11
On the side wall of the small one end of bore, wealthy buccal mass 11 is fixed in the end of feed end 3.Wealthy buccal mass 11 along feed end 3 side wall from
On tilt down setting, when sandstone material is fallen to grid fence 10, reduce sandstone material and spill into wealthy 11 outer peripheral edge of buccal mass
Possibility, reduce the waste to sandstone material, sandstone material drops on grid fence 10, classical prescription barrier 10 filter after sand
Stone material can quickly be fallen in hopper inner body wall.
Action process: when needing to be filtered sandstone material, operator first falls sandstone material to square grid
On column 10, drops into hopper ontology 1 by the sandstone material that grid fence 10 filters and directly connect with the surface of wear-resistant block 5
Touching, then sandstone material is slipped in feed tube 14 along the surface of wear-resistant block 5, is then fallen by feed tube 14.It crosses herein
Cheng Zhong is reduced sandstone material and fallen on trapezoidal steel plate 2 and caused abrasion to trapezoidal 2 surface of steel plate due to the setting of wear-resistant block 5
May, extend the service life of hopper ontology 1.
Embodiment 2: a kind of wear-resisting receiving hopper for filter material, such as Fig. 5, unlike the first embodiment, wear-resistant block 5
It is weldingly fixed on trapezoidal steel plate 2, there are gap, the spacing in gap about 50mm between two adjacent wear-resistant blocks 5.When installation,
Finger is put in gap and is adjusted to the position of wear-resistant block 5 by operator, to be adjusted to again welding wear-resistant block 5 after desired location
It connects and is fixed on trapezoidal steel plate 2.
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 (10)
1. a kind of wear-resisting receiving hopper for filter material, it is characterised in that: including by the identical trapezoidal steel plate (2) of four block sizes
The hopper ontology (1) surrounded, the big one end of hopper ontology (1) bore are set as feed end (3), hopper ontology (1) mouth
The small one end of diameter is set as discharge end (4), and the inner sidewall on four pieces of trapezoidal steel plates (2) along hopper ontology (1) is equipped with wear-resisting
The shape of block (5), the wear-resistant block (5) is consistent with the shape of trapezoidal steel plate (2).
2. the wear-resisting receiving hopper according to claim 1 for filter material, it is characterised in that: the trapezoidal wear-resistant block
(5) both sides along the vertical direction offer card slot (6), are equipped with the fixture block matched with card slot (6) on the hopper ontology (1)
(7), one end that the fixture block (7) protrudes into hopper ontology (1) is connected with limited block (15), the limited block (15) and wear-resistant block
(5) inner wall is inconsistent, and one end that the fixture block (7) stretches out hopper ontology (1) is fixedly connected on hopper ontology by fixing piece (8)
(1) on outer wall.
3. the wear-resisting receiving hopper according to claim 2 for filter material, it is characterised in that: fixing piece (8) packet
The fixed block (81) being set on fixture block (7) is included, the fixed block (81) is fixed on hopper ontology (1) by fixing bolt (82)
Outer wall, wear and be threaded with the first positioning bolt (83) on the side wall of the fixed block (81), the first positioning spiral shell
Bolt (83) is inconsistent towards one end of fixed block (81) and fixture block (7).
4. the wear-resisting receiving hopper according to claim 3 for filter material, it is characterised in that: the card slot (6) is along length
That spends direction is wherein equipped with compressed spring (9) on one side, and the fixture block (7) and compressed spring (9) are inconsistent.
5. the wear-resisting receiving hopper according to claim 1 for filter material, it is characterised in that: wear-resistant block (5) weldering
It connects and is fixed on trapezoidal steel plate (2), there are gaps between the wear-resistant block (5) of adjacent two.
6. the wear-resisting receiving hopper according to claim 1 for filter material, it is characterised in that: feed end (3) end
Portion is equipped with grid fence (10).
7. the wear-resisting receiving hopper according to claim 6 for filter material, it is characterised in that: the grid fence (10)
It is fixedly connected on feed end (3) end by wealthy buccal mass (11), the wealthy buccal mass (11) is connected by four blocks of trapezoidal metal blocks are fixed
Composition is connect, the wealthy buccal mass (11) is obliquely installed from up to down along the side wall of feed end (3), and wealthy buccal mass (11) bore is small
One end towards feed end (3), the grid fence (10) is fixedly connected on the side wall of the small one end of wealthy buccal mass (11) bore.
8. the wear-resisting receiving hopper according to claim 7 for filter material, it is characterised in that: on the wealthy buccal mass (11)
The card slot (111) matched with the outer peripheral edge of feed end (3) is offered, the lateral wall of the wealthy buccal mass (11) is equipped with several
Be fed through the second positioning bolt (112) of wealthy buccal mass (11), second positioning bolt (112) and hopper ontology (1) close into
Expect that the lateral wall of end (3) is inconsistent.
9. the wear-resisting receiving hopper according to claim 1 for filter material, it is characterised in that: the discharge end (4) sets
Have feed tube (14), the feed tube (14) is fixedly connected on the side wall of discharge end (4) by several clamping screws (12).
10. the wear-resisting receiving hopper according to claim 9 for filter material, it is characterised in that: the feed tube (14)
Inner wall be equipped with wearing layer (13).
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CN201821383797.8U CN208761333U (en) | 2018-08-24 | 2018-08-24 | Wear-resisting receiving hopper for filter material |
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CN201821383797.8U CN208761333U (en) | 2018-08-24 | 2018-08-24 | Wear-resisting receiving hopper for filter material |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110217503A (en) * | 2019-07-10 | 2019-09-10 | 马鞍山钢铁股份有限公司 | A kind of wear-resistant hopper for transporting sintered material |
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2018
- 2018-08-24 CN CN201821383797.8U patent/CN208761333U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN110217503A (en) * | 2019-07-10 | 2019-09-10 | 马鞍山钢铁股份有限公司 | A kind of wear-resistant hopper for transporting sintered material |
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