CN207887315U - Automatic charging equipment with demagnetizer - Google Patents

Automatic charging equipment with demagnetizer Download PDF

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Publication number
CN207887315U
CN207887315U CN201820565789.9U CN201820565789U CN207887315U CN 207887315 U CN207887315 U CN 207887315U CN 201820565789 U CN201820565789 U CN 201820565789U CN 207887315 U CN207887315 U CN 207887315U
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CN
China
Prior art keywords
degaussing
demagnetizer
case
electromagnetic wand
automatic charging
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CN201820565789.9U
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Chinese (zh)
Inventor
王君业
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Qingdao Green New Sunshine Group Co Ltd
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Qingdao Green New Sunshine Group Co Ltd
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Priority to CN201820565789.9U priority Critical patent/CN207887315U/en
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Abstract

The utility model discloses a kind of automatic charging equipments with demagnetizer, belong to lining segment manufacturing field, its key points of the technical solution are that including rack, the conveyer belt for being set to the elevating hopper of frame top and being set to below elevating hopper, demagnetizer is provided between the elevating hopper and conveyer belt;Demagnetizer includes the degaussing case being fixedly arranged in rack and more electromagnetic wands being set in degaussing case.The utility model, which is solved, contains ferromagnetic metal and its oxide in sand and stone for lining for building section of jurisdiction, ferromagnetic metal and its oxide removal will be contained by having reached in sand and stone, the effect of demagnetization is carried out to lining segment.

Description

Automatic charging equipment with demagnetizer
Technical field
The utility model is related to lining segment manufacturing field, more particularly to a kind of automatic charging with demagnetizer is set It is standby.
Background technology
As the advanced construction of underground tunnel technique in the world --- shield tunnel drivage method, lining fast with speed of application The advantages that quality is high, and effect on environment is small is built, current underground construction engineering is widely used in.As important lining cutting component, lining It is with constructing tunnel technique, the especially development of shield-tunneling construction technique to build segment production technology, and lining segment is The main mounting structure of shield-tunneling construction is the innermost layer barrier in tunnel, carries and resists earth pressure, groundwater pressure and resist The effect of the special loads such as shake.Lining segment needs sand, stone and cement etc. being added in blender before processing It is stirred.
The prior art can refer to the Chinese utility model patent that Authorization Notice No. is CN206598380U, and the utility model is public A kind of blender sandstone elevating hopper dust-extraction unit and blender are opened, its key points of the technical solution are that including connection on blender The elevating hopper of side, is provided with dust cover, the top of dust cover is communicated with air draft pipe, bottom end and elevating hopper above elevating hopper Side wall it is affixed, the side of dust cover offers the feeding opening stretched into for conveyer belt, and feeding opening is provided with sliding up and down Block door, driving is connected with outside dust cover and blocks a drive component for sliding;A kind of blender, including body are set in body It is equipped with stir chamber, sandstone elevating hopper dust-extraction unit is communicated on the upside of body, has achieved the purpose that ensure surrounding working environment.
But above-mentioned utility model has the following disadvantages:Contain ferromagnetic metal in stone or sand in usual elevating hopper And its oxide etc., these impurity in stone and sand are not easy to remove, and make to contain in the lining segment built up by stone and sand There are ferromagnetic metal and its oxide.
Utility model content
The purpose of this utility model is to provide a kind of automatic charging equipment with demagnetizer, will be mixed in stone and sand Some ferromagnetic metals and its oxide removal, the advantages of reaching the lining segment degaussing built up by stone and sand.
The above-mentioned purpose of the utility model technical scheme is that:
A kind of automatic charging equipment with demagnetizer, including rack, be set to the elevating hopper of frame top and set The conveyer belt being placed in below elevating hopper is provided with demagnetizer between the elevating hopper and conveyer belt;Demagnetizer includes fixed In in rack degaussing case and more electromagnetic wands being set in degaussing case.
By using said program, sand and stone are gone out of elevating hopper drops into lower section degaussing case in degaussing case Bar magnet can remove ferromagnetism by the ferromagnetic metal contained in sand and stone and its oxide adsorbent in the surface of electromagnetic wand The sand and stone of metal and its oxide drop on the conveyer belt of lower section, then are passed in blender after stirring by conveyer belt For building up lining segment, by the ferromagnetic metal and its oxide removal in sand and stone, reaches and lining segment is carried out Degaussing.
Preferably, the electromagnetic wand is rotationally connected on degaussing case, one end of electromagnetic wand is connected with driving electromagnetic wand rotation Drive component.
By using said program, drive component drives electromagnetic wand rotation, when stone and sand are fallen on electromagnetic wand, Electromagnetic wand rotates the contact area that can increase stone and sand and electromagnetic wand, the ferromagnetic metal that will be mixed in stone and sand And its oxide removal is more thorough.
Preferably, the driving component includes being connected to the gear of each electromagnetism stick end, between adjacent two gears It is intermeshed, driving motor is connected on gear.
By using said program, the rotation of driving motor sliding tooth wheel, gear drives electromagnetic wand rotation, gear drive to compare There is stronger stability in V belt translation.
It is connected on degaussing case preferably, the electromagnetic wand is detachably fixed.
By using said program, electromagnetic wand may be damaged after a period of use, can between electromagnetic wand and degaussing case Dismounting, it is convenient to carry out demolition and replacement to electromagnetic wand.
Preferably, the electromagnetic wand extends degaussing case close to one end of driving motor, one end grafting of degaussing case is stretched out There are plug socket, gear to be fixedly connected on the outside of plug socket;Degaussing case is extended in the one end of the electromagnetic wand far from driving motor, The part for stretching out degaussing case is arranged with bearing, and bearing outside is equipped with step and top chock, step and top chock Bolt is fixed on the lateral wall of degaussing case.
By using said program, when needing to replace electromagnetic wand, top chock and step need to be first only removed, Bearing is removed again, finally removes plug socket again, you can electromagnetic wand is removed from degaussing case, then new electromagnetic wand is installed back It goes, dismounting, replacement and the installation of convenient electromagnetic stick.
Preferably, the bottom of the degaussing case is connected with sand and stone and the ferromagnetic metal being adsorbed on electromagnetic wand And its feeding distribution mechanism of oxide separate collection.
By using said program, feeding distribution mechanism can by the ferromagnetic metal and its oxide that are adsorbed on electromagnetic wand with Stone and sand separate collection, convenient for handling the ferromagnetic metal filtered out and its oxide.
Preferably, the feeding distribution mechanism includes the blanking channel for being fixedly connected on picking-up container bottom, blanking channel bottom side Middle part is rotatably connected to rotation axis, and the demarcation strip swung in blanking channel, one end of rotation axis are fixedly connected in rotation axis It is connected with sub-material motor;It is provided with lower hopper and discharge bucket below demarcation strip, lower hopper is located at the surface of conveyer belt, discharge bucket Above the side of conveyer belt;When demarcation strip moves to madial wall of the blanking channel close to discharge bucket side, blanking channel is under Hopper is connected to, and when demarcation strip moves to madial wall of the tapping channel close to lower hopper side, blanking channel is connected to discharge bucket.
By using said program, sub-material motor driving demarcation strip moves to inside of the blanking channel close to discharge bucket side When wall, blanking channel is connected to lower hopper, is made stone and sand from the conveyer belt that lower hopper drops into lower section at this time, is worked as sub-material When motor driving demarcation strip moves to madial wall of the tapping channel close to lower hopper side, blanking channel is connected to discharge bucket, right Electromagnetic wand powers off, and the ferromagnetic metal being adsorbed on electromagnetic wand and its oxide can be made to discharge from discharge bucket at this time.
Preferably, being placed with picking-up container below the discharge bucket.
By using said program, ferromagnetic metal and its oxide are fallen to after discharge bucket is fallen below discharge bucket In picking-up container, convenient collection and processing to ferromagnetic metal and its oxide.
Preferably, the bottom of the elevating hopper offers feed opening, is slid at feed opening and be connected with discharge door, on discharge door It is connected with the driving cylinder that driving discharge door moves horizontally.
By using said program, driving cylinder driving discharge door movement, discharge door controls the keying of feed opening, facilitates control The feeding of elevating hopper processed and closing after closing, power off electromagnetic wand, convenient ferromagnetic metal and its oxygen to being adsorbed on electromagnetic wand Compound is handled.
In conclusion the utility model has the advantages that:
1. being provided with degaussing case between elevating hopper and conveyer belt, more electromagnetic wands, after energization, feeding are provided in degaussing case Sand and stone in bucket are fallen in degaussing case, are contacted with the electromagnetic wand in degaussing case, and the electromagnetic wand after energization can be by sand With the ferromagnetic metal and its oxide adsorbent that are mixed in stone in the surface of electromagnetic wand, you can will be ferromagnetic in sand and stone Property metal and its oxide removal, reach and degaussing carried out to lining segment;
2. electromagnetic wand is rotationally connected on degaussing case, one end of electromagnetic wand is connected with the driving electricity of driving electromagnetic wand rotation Machine, driving motor drives electromagnetic wand rotation, and when stone and sand are fallen on electromagnetic wand, electromagnetic wand rotation can increase stone With the contact area of sand and electromagnetic wand, by the more thorough of the ferromagnetic metal being mixed in stone and sand and its oxide removal Bottom;
It is connected on degaussing case 3. electromagnetic wand is detachably fixed, it is detachable between electromagnetic wand and degaussing case, it is convenient to electromagnetism Stick is dismantled, replaced and is installed.
Description of the drawings
Fig. 1 is the axonometric drawing of embodiment;
Fig. 2 is the sectional view of elevating hopper;
Fig. 3 be drive cylinder, fixed plate and discharge door connection relationship diagram;
Fig. 4 is the structural schematic diagram of demagnetizer;
Fig. 5 is to highlight the explosive view of top chock, bearing and step and work;
Fig. 6 is the explosive view made to highlight convex block and groove;
Fig. 7 is the explosive view made to highlight feeding distribution mechanism.
In figure, 1, rack;2, elevating hopper;21, feed opening;22, discharge door;23, fixed plate;24, cylinder is driven;3, degaussing Device;31, degaussing case;32, electromagnetic wand;321, convex block;33, bearing;34, top chock;35, step;36, driving group Part;361, plug socket;362, gear;363, groove;364, driving motor;365, L-type fixed plate;37, feeding distribution mechanism;371, under Expect channel;372, rotation axis;373, sub-material motor;374, demarcation strip;375, lower hopper;376, discharge bucket;377, picking-up container;4、 Conveyer belt.
Specific implementation mode
The utility model is described in further detail below in conjunction with attached drawing.The identical attached drawing of wherein identical parts Label indicates.It should be noted that word "front", "rear" used in the following description, "left", "right", "up" and "down" refer to It is the direction in attached drawing, word " bottom surface " and " top surface ", "inner" and "outside" are referred respectively to towards or away from particular elements geometry The direction at center.
Embodiment:A kind of automatic charging equipment with demagnetizer referring to Fig. 1, including rack 1, is set to the top of rack 1 The elevating hopper 2 in portion, the conveyer belt 4 positioned at 2 lower section of elevating hopper and the demagnetizer 3 between elevating hopper 2 and conveyer belt 4, Demagnetizer 3 is fixedly connected in rack 1.Sand and stone are dropped into from elevating hopper 2 in demagnetizer 3, and demagnetizer 3 is to sand The ferromagnetic metal and its oxide contained in son and stone is filtered, and the sand and stone after degaussing fall to the biography of lower section It send on band 4, sand and stone are passed in blender and are stirred by conveyer belt 4.
Referring to Fig. 2 and Fig. 3, the bottom of elevating hopper 2 offers feed opening 21, is slid on the elevating hopper 2 of 21 top of feed opening There are one discharge door 22, one end of discharge door 22 to stretch out elevating hopper 2 and be fixedly connected with fixed plate 23, connect in fixed plate 23 for connection It is connected to the driving cylinder 24 that driving discharge door 22 moves, the piston rod of driving cylinder 24 is fixedly connected in fixed plate 23, drives The cylinder body of cylinder 24 is fixedly connected on the lateral wall of elevating hopper 2.When work, the piston rod elongation of driving cylinder 24 pushes blanking Door 22 is displaced outwardly, and sand or stone can be fallen from feed opening 21.
Referring to Fig. 4 and Fig. 5, demagnetizer 3 includes the degaussing case 31 being fixed in rack 1, and degaussing case 31 is rotatably connected to More electromagnetic wands 32, for the ease of dismantling electromagnetic wand 32, one end of electromagnetic wand 32 extends degaussing case 31 and is connected with bearing 33, axis 33 outsides for being sheathed on electromagnetic wand 32 are held, top chock 34 and step 35 are arranged with outside bearing 33, top chock 34 is under 35 bolt of bearing block is fixed on degaussing case 31.
Referring to Fig. 4 and Fig. 6, in order to increase the contact area of electromagnetic wand 32 and sand and stone, the other end of electromagnetic wand 32 Extend degaussing case 31 and is connected with the drive component 36 that driving electromagnetic wand 32 rotates.Drive component 36 includes plug socket 361, consolidates The driving motor 364 rotated set on the gear 362 and driving gear 362 of 361 lateral wall of plug socket, the lateral wall of degaussing case 31 It is installed with L-type fixed plate 365, plug socket 361 is rotationally connected in L-type fixed plate 365, and the inside of plug socket 361 offers recessed The end of slot 363, electromagnetic wand 32 is installed with convex block 321, the pluggable groove 363 in plug socket 361 of convex block 321 of electromagnetic wand 32 It is interior, it is intermeshed between the gear 362 on plug socket 361 outside adjacent electromagnetic wand 32.When work, driving motor 364 drives Gear 362 rotates, and gear 362 drives electromagnetic wand 32 to rotate, and stone or sand drop into degaussing case 31 after elevating hopper 2 is fallen On interior electromagnetic wand 32, electromagnetic wand 32 by sand or stone ferromagnetic metal and its oxide adsorbent in the table of electromagnetic wand 32 Face.
Referring to Fig. 4 and Fig. 7, for convenience to the ferromagnetic metal and its oxide that are adsorbed on electromagnetic wand 32 and sand and The bottom of stone separate collection, degaussing case 31 is provided with feeding distribution mechanism 37, and feeding distribution mechanism 37 includes being connected to 31 bottom of degaussing case Blanking channel 371, the lower rotation of blanking channel 371 is connected with a rotation axis 372, separation is installed in rotation axis 372 Plate 374, demarcation strip 374 are located in blanking channel 371, the one end of demarcation strip 374 far from rotation axis 372 and blanking channel 371 Madial wall abuts, and one end of rotation axis 372 is fixedly connected with sub-material motor 373, and 372 lower section of rotation axis is provided with lower hopper 375 With discharge bucket 376.
Referring to Fig. 4 and Fig. 7, the top of lower hopper 375 and discharge bucket 376 is fixedly arranged on the bottom of blanking channel 371, blanking Bucket 375 is located at the surface of conveyer belt 4, and sub-material motor 373 drives rotation axis 372 to rotate, demarcation strip 374 is made to be located at blanking channel 371 close to the madial wall of discharge bucket 376 when, blanking channel 371 is connected to lower hopper 375, make the sand after degaussing and stone from Lower hopper 375 drops on conveyer belt 4.Discharge bucket 376 is located above the side of conveyer belt 4, and the lower section of discharge bucket 376, which is provided with, to be connect Hopper 377, sub-material motor 373 drive rotation axis 372 to reversely rotate, demarcation strip 374 are made to be located at blanking channel 371 close to lower hopper When 375 madial wall, blanking channel 371 is connected to discharge bucket 376, can make the ferromagnetic metal adsorbed on bar magnet and its oxide From the picking-up container 377 that discharge bucket 376 falls to lower section.
The automatic charging equipment use principle with demagnetizer is as follows:
It is powered to electromagnetic wand 32, driving motor 364 drives electromagnetic wand 32 to rotate, and the piston rod elongation of driving cylinder 24 pushes away Dynamic discharge door 22 moves, and sand and stone is made to be dropped into degaussing case 31 from the feed opening 21 of elevating hopper 2, sand and stone with go Electromagnetic wand 32 in magnetic case 31 contacts, electromagnetic wand 32 by sand and stone ferromagnetic metal and its oxide adsorbent in electromagnetism The surface of stick 32, demarcation strip 374 are located at 376 top of discharge bucket, sand and stone are made to drop into the transmission of lower section from lower hopper 375 On band 4.It works after a period of time, the piston rod of driving cylinder 24 is shunk, and discharge door 22 is driven to close feed opening 21, sub-material electricity Machine 373 rotates, and so that demarcation strip 374 is located at 375 top of lower hopper, is powered off to electromagnetic wand 32, be adsorbed in the iron on 32 surface of electromagnetic wand Magnetic metal and its oxide are fallen from electromagnetic wand 32, and the picking-up container 377 to lower section is eventually fallen into from discharge bucket 376 after falling In.
This specific embodiment is only the explanation to the utility model, is not limitations of the present invention, ability Field technique personnel can as needed make the present embodiment the modification of not creative contribution after reading this specification, but As long as all being protected by Patent Law in the right of the utility model.

Claims (9)

1. a kind of automatic charging equipment with demagnetizer, including rack (1), the elevating hopper (2) that is set at the top of rack (1) And it is set to the conveyer belt (4) below elevating hopper (2), it is characterised in that:
It is provided with demagnetizer (3) between the elevating hopper (2) and conveyer belt (4);
Demagnetizer (3) includes the degaussing case (31) being fixedly arranged in rack (1) and more electricity being set in degaussing case (31) Bar magnet (32).
2. the automatic charging equipment according to claim 1 with demagnetizer, it is characterised in that:The electromagnetic wand (32) It is rotationally connected on degaussing case (31), one end of electromagnetic wand (32) is connected with the drive component that driving electromagnetic wand (32) rotates (36)。
3. the automatic charging equipment according to claim 2 with demagnetizer, it is characterised in that:The driving component (36) include the gear (362) for being connected to each electromagnetic wand (32) end, be intermeshed between adjacent two gears (362), Driving motor (364) is connected on gear (362).
4. the automatic charging equipment according to claim 1 with demagnetizer, it is characterised in that:The electromagnetic wand (32) It is detachably fixed and is connected on degaussing case (31).
5. the automatic charging equipment according to claim 4 with demagnetizer, it is characterised in that:
The electromagnetic wand (32) extends degaussing case (31) close to one end of driving motor (364), stretches out the one of degaussing case (31) End is plugged with plug socket (361), and gear (362) is fixedly connected on the outside of plug socket (361);
Degaussing case (31) is extended in the one end of the electromagnetic wand (32) far from driving motor (364), stretches out the portion of degaussing case (31) It point is arranged with bearing (33), is arranged with step (35) and top chock (34) outside bearing (33), step (35) and upper Bearing block (34) bolt is fixed on the lateral wall of degaussing case (31).
6. the automatic charging equipment according to claim 1 with demagnetizer, it is characterised in that:The degaussing case (31) Bottom be connected with sand and stone and the ferromagnetic metal being adsorbed on electromagnetic wand (32) and its oxide separate collection Feeding distribution mechanism (37).
7. the automatic charging equipment according to claim 6 with demagnetizer, it is characterised in that:
The feeding distribution mechanism (37) includes the blanking channel (371) for being fixedly connected on picking-up container (377) bottom, blanking channel (371) it is rotatably connected to rotation axis (372) in the middle part of bottom side, is fixedly connected in rotation axis (372) in blanking channel (371) One end of the demarcation strip (374) of swing, rotation axis (372) is connected with sub-material motor (373);
It is provided with lower hopper (375) and discharge bucket (376) below demarcation strip (374), lower hopper (375) is located at conveyer belt (4) Surface, discharge bucket (376) are located above the side of conveyer belt (4);Demarcation strip (374) move to blanking channel (371) close to go out When the madial wall of hopper (376) side, blanking channel (371) is connected to lower hopper (375), and demarcation strip (374) moves to blanking When channel (371) is close to the madial wall of lower hopper (375) side, blanking channel (371) is connected to discharge bucket (376).
8. the automatic charging equipment according to claim 7 with demagnetizer, it is characterised in that:The discharge bucket (376) picking-up container (377) is placed with below.
9. the automatic charging equipment according to claim 1 with demagnetizer, it is characterised in that:The elevating hopper (2) Bottom offer feed opening (21), at feed opening (21) sliding be connected with discharge door (22), discharge door is connected with drive on (22) The driving cylinder (24) that dynamic discharge door (22) moves horizontally.
CN201820565789.9U 2018-04-20 2018-04-20 Automatic charging equipment with demagnetizer Active CN207887315U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN201820565789.9U CN207887315U (en) 2018-04-20 2018-04-20 Automatic charging equipment with demagnetizer

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN201820565789.9U CN207887315U (en) 2018-04-20 2018-04-20 Automatic charging equipment with demagnetizer

Publications (1)

Publication Number Publication Date
CN207887315U true CN207887315U (en) 2018-09-21

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Application Number Title Priority Date Filing Date
CN201820565789.9U Active CN207887315U (en) 2018-04-20 2018-04-20 Automatic charging equipment with demagnetizer

Country Status (1)

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CN (1) CN207887315U (en)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110918183A (en) * 2019-12-10 2020-03-27 安徽省含山民生瓷业有限责任公司 Ceramic machining raw materials deironing equipment

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN110918183A (en) * 2019-12-10 2020-03-27 安徽省含山民生瓷业有限责任公司 Ceramic machining raw materials deironing equipment

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