CN204820043U - Material system is thrown to shale shaker - Google Patents
Material system is thrown to shale shaker Download PDFInfo
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- CN204820043U CN204820043U CN201520460857.1U CN201520460857U CN204820043U CN 204820043 U CN204820043 U CN 204820043U CN 201520460857 U CN201520460857 U CN 201520460857U CN 204820043 U CN204820043 U CN 204820043U
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- feeding groove
- hopper
- vibrating
- sieving
- charging gear
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Abstract
Material system is thrown to shale shaker for the material is thrown to automatic ration to the material. Material system is thrown to shale shaker including the vibratory screen apparatus, the feeder that set gradually with throw the material device, vibratory screen apparatus and feeder response transmission, feeder with throw material device response transmission, the discharge gate of vibratory screen apparatus's blown down tank is relative with feeder's defeated silo, the conveying mouth of feeder's defeated silo is with to throw the hopper of expecting the device relative, vibratory screen apparatus still constructs and the bobbing machine structure including the passing machine that links up from top to bottom, and vibration mechanism's involving vibrations casing and vibrating motor, vibrating motor fix in the vibration casing. The utility model discloses a form of shale shaker with the form fast pass of quantitative through -put vibration to the hopper in, both saved the manual work, reduced manufacturing cost, improved the throughput rate of product moreover for the production process of typical products in mass production more tends to convenient and swift.
Description
Technical field
The utility model relates to feeding apparatus technical field, is specifically related to vibratory sieve feeding system, for quantitatively feeding intake to the automation of material.
Background technology
Along with the development of science and technology, object particularly moulding is being manufactured in order to make material form various different shape after shaping in process, often adopts and material is placed in difform die for molding formation head product.
And for various different object, the input ratio of different material and the quality of each material are different, therefore need quantitatively to feed intake in mould.The mode that common producer quantitatively feeds intake in mould generally adopts Manual material feeding, namely each material is manual again after manual weighing puts in mould, not only consumes a large amount of manpowers, and very consuming time, seriously reduce the molding rate of object, what be unfavorable for that object in enormous quantities produces carries out.In addition, inevitably there is the problem of material quality deviations in Manual material feeding, thus cause higher percent defective, further increases the production cost of object.Consider above problem, in order to reduce the input of manpower and ensure to drop into the accuracy of quality of material, need produce and a kind ofly can realize the feeding system that automation can control again material input amount more accurately.
Utility model content
For the deficiency that prior art exists, the purpose of this utility model is to provide a kind of shaker systems that can be used for quantitatively feeding intake in mould, to feed intake the problem that the production efficiency that causes is low and scrappage is high in the mode solving artificial quantitative weighing in existing manufacturing.
For achieving the above object, the technical solution of the utility model is: vibratory sieve feeding system, comprise the vibrating screen device, charging gear and the charging device that set gradually by flow process, transmission is responded to by inductive means between described vibrating screen device and described charging gear and between described charging gear and described charging device, described vibrating screen device comprises blow tank, described charging gear comprises feeding groove, described charging device comprises hopper, the discharging opening of described blow tank is relative with described feeding groove, and the conveying mouth of described feeding groove is relative with described hopper;
Described vibrating screen device also comprises the sieving mechanism and vibrating mechanism that are connected up and down, described vibrating mechanism involving vibrations housing and vibrating motor, and described vibrating motor is fixed in described vibration housing.
Preferably, described sieving mechanism comprises bottom surface and is coated with the screen frame of screen cloth and the sieving fixed mount of fixing described screen frame, described sieving fixed mount is fixedly connected on the top of described vibrating motor, and the feed inlet end of described blow tank is fixedly connected with described sieving fixed mount and is positioned at the downside of described screen cloth.
Preferably, be provided with the shock-absorbing spring for reducing sieving mechanism Oscillation Amplitude in described vibration housing, one end of described shock-absorbing spring is fixedly connected with by the inwall of pole with vibration housing, and the other end of described shock-absorbing spring is fixed on described sieving fixed mount; The bottom surface of described vibration housing is also provided with snubber block, and described snubber block adopts cushion blocking or shock-absorbing spring.
Preferably, described charging gear also comprises oscillating mechanism, described feeding groove is fixedly installed on the top of described oscillating mechanism, described oscillating mechanism comprises base and is arranged on electromagnet, armature, the flat spring between described feeding groove and described base, described electromagnet and described armature are fixedly mounted on described base and described feeding groove respectively, two described flat springs are obliquely installed and connect described base and described feeding groove, and the bottom surface of described base is also provided with damping block.
Preferably, inductive switch and control valve is provided with in the feeding groove of described charging gear, described control valve is arranged on the conveying mouth position of described feeding groove, realizes Signal transmissions and control the open and close of described vibrating motor between described inductive switch and described vibrating motor.
Preferably, the hopper of described charging device carries out support by LOAD CELLS, described hopper is provided with openable gate, described gate is connected with the motor that feeds intake be arranged on described hopper by swing arm, realizes Signal transmissions and control the open and close of described oscillating mechanism between described LOAD CELLS and described oscillating mechanism.
Preferably, the bottom of described vibrating screen device, described charging gear and described charging device can arrange the first support, the second support and the 3rd support for supporting and regulate height respectively.
Compared with prior art, the beneficial effects of the utility model are: the utility model is by setting gradually vibrating screen device, charging gear, charging device thus realize the transmission of material, and the material in charging device adopts LOAD CELLS weigh and respond to, thus can control by regulating the setting value of LOAD CELLS the inventory at every turn poured out from hopper.Respond to transmission between each device, make the transport process of material more easy to control.The utility model adopts the form of vibratory sieve to be ultimately delivered in hopper by material by the form of vibration, without the need to adopting the mode of manual weighing again, both saved artificial, turn improve the accuracy dropping into quality of material, reduce production cost, improve the throughput rate of product, make the production process of typical products in mass production more be tending towards convenient and quick.In addition, adopt vibrating motor as the power source of vibrating screen device, vibrating screen device overall structure is simpler, installation and maintenance is also convenient, be easier to control in course of normal operation, compared to vibrating disk not by the interference of electromagnetic signal, operating noise is also less.
Be described in further detail the utility model below with reference to drawings and Examples, this embodiment, only for explaining the utility model, is not construed as limiting protection domain of the present utility model.
Accompanying drawing explanation
Fig. 1 is the structural representation of the vibratory sieve feeding system according to the utility model embodiment;
In figure:
1-vibrating screen device, 2-charging gear, 3-charging device, 11-blow tank, 12-sieving mechanism, 121-screen frame, 122-sieving fixed mount, 13-vibrating mechanism, 131-vibrates housing, 132-vibrating motor, 133-shock-absorbing spring, 134-snubber block, 21-feeding groove, 211-inductive switch, 212-control valve, 22-oscillating mechanism, 31-hopper, 32-gate, 33-swing arm, 34-feeds intake motor, 35-LOAD CELLS, 4-first support, 5-second support, 6-the 3rd support.
Detailed description of the invention
As shown in Figure 1, the present embodiment vibratory sieve feeding system, comprise the vibrating screen device 1, charging gear 2 and the charging device 3 that set gradually by flow process, wherein respond to transmission by inductive means between vibrating screen device 1 and charging gear 2 and between charging gear 2 and charging device 3, blow tank 11 is provided with in vibrating screen device 1, feeding groove 21 is provided with in charging gear 2, hopper 31 is provided with in charging device 3, the discharging opening of blow tank 11 is facing to feeding groove 21, the conveying mouth of feeding groove 21 faces toward hopper 31, to realize material transmission in systems in which.
Vibrating screen device 1 in system comprises the sieving mechanism 12 and vibrating mechanism 13 that are connected up and down, wherein, sieving mechanism 12 comprises screen frame 121 and the sieving fixed mount 122 that bottom surface is coated with screen cloth, screen frame 121 to be fixed on sieving fixed mount 122 and to realize transmission by sieving fixed mount 122 and vibrating mechanism 13, in vibrating mechanism 13, vibrating motor 132 is placed in vibration housing 131, the bottom of vibration housing 131 is also provided with the snubber block 134 for slowing down vibration, and snubber block 134 is rubber blanket or spring.Sieving fixed mount 122 is fixedly connected with vibrating motor 132, and the charging aperture of blow tank 11 to be fixedly mounted on sieving fixed mount 122 and to be positioned at the downside of screen cloth, and the material in screen frame 121 falls into blow tank 11 through screen cloth.Vibrating motor 132 duty co-operating screen filter structure 12 vibrates together, make blow tank 11 in vibration processes by material transferring in the feeding groove 21 of charging gear 2.It is worth mentioning that, in order to slow down the Oscillation Amplitude of sieving mechanism 12, in vibration housing 131, also can arrange two shock-absorbing springs 133, one end of shock-absorbing spring 133 is fixedly connected with by the inwall of pole with vibration housing 131, and the other end of shock-absorbing spring 133 is fixed on sieving fixed mount 122.
Charging gear 2 in system be also by vibration pattern by the material transferring in feeding groove 21 in hopper 31, therefore, charging gear 2 is made up of oscillating mechanism 22 and feeding groove 21, oscillating mechanism 22 is fixedly connected on the bottom of feeding groove 21, oscillating mechanism 22 comprises base, also the snubber block 134 for reducing Oscillation Amplitude is provided with in the bottom surface of base, the electromagnet and armature that are fixedly connected with feeding groove 21 with base is respectively provided with between base and feeding groove 21, in addition, also connect base and feeding groove 21 by two flat springs tilted, alternating voltage is input in the solenoid of electromagnet formation after halfwave rectifier, high-frequency suction can be produced between electromagnet and armature, disconnected action thus make flat spring produce a high-frequency elastic deformation, the elastic force that deformation recovers acts directly on feeding groove 21, make feeding groove 21 be subject to a high-frequency inertial force to vibrate in vertical direction, thus by the material transferring in feeding groove 21 in the hopper 31 of charging device 3.Inductive switch 211 and control valve 212 are also installed in feeding groove 21, the speed that the conveying mouth position that control valve 212 is arranged on feeding groove 21 exports from feeding groove 21 to regulate material, regulate inductive switch 211 can control the maximum of material in feeding groove 21, when reaching inductive switch 211 setting value, respond to due to inductive switch 211 and vibrating screen device 1 and link, thus make vibrating screen device 1 stop vibration then stopping material from vibrating screen device 1 to the transmission of charging gear 2.
Charging device 3 in system comprises the hopper 31 adopting LOAD CELLS 35 support, LOAD CELLS 35 responds to transmission with the oscillating mechanism 22 of charging gear 2, hopper 31 is provided with gate 32, hopper 31 can be made to form downward sluice gate by the unlatching of gate 32, the material in hopper 31 exports by sluice gate.Gate 32 realizes folding mainly through swing arm 33, and swing arm 33 is controlled by the motor 34 that feeds intake be arranged on hopper 31.
System is when just opening, and first the motor 34 that feeds intake operates and the gate 32 on charging device 3 is opened, and is discharged by the residue material in hopper 31, and hopper 31 resets in emptying state late gate 32 and makes hopper 31 in original closure state.The weight of material carried in hopper 31 operation is afterwards adjusted by LOAD CELLS 35, after setting, system is whole starts operation, adjusts the maximum carrying material in feeding groove 21, can regulate the setting value of the inductive switch 211 in feeding groove 21 again if also need.In entire system operation, first, vibrating screen device 1 starts vibration by the mass transport in blow tank 11 in the feeding groove 21 of charging gear 2, charging gear 2 also in vibration processes by the mass transport in feeding groove 21 in the hopper 31 of charging device 3, when the inductive switch 211 in feeding groove 21 senses that inventory reaches setting value, vibrating screen device 1 stops vibration thus stops feeding, when the inventory in feeding groove 21 does not reach the setting value of inductive switch 211, material resumes defeated at vibrating screen device 1 and charging gear 2 relaying.Material in the feeding groove 21 of charging gear 2 is transferred in hopper 31 in vibration processes, and because charging gear 2 and charging device 3 respond to transmission, then when reaching the setting value of LOAD CELLS 35, charging gear 2 stops vibration namely stopping conveying in hopper 31.Mould in the lower Founder of hopper 31 to sluice gate, under the effect of the motor 34 that feeds intake, swing arm 33 drives gate 32 to open, the material of constant weight is poured on mould by hopper 31, be finished down rear sluice gate to close, charging gear 2 just vibration material delivering again, so repeatedly operates, realizes the quantitative dosing operation of the automation of mould.
Certainly, in order to the height adjusting vibrating screen device 1, charging gear 2 and charging device 3 makes blow tank 11, feeding groove 21 and hopper 31 be the mutual transmission that certain difference in height is convenient to realize material, first support 4 of desired height can be set in the bottom of vibration housing 131, second support 5 of desired height can be set in the bottom of charging gear 2, the 3rd support 6 of desired height can be set in the bottom of charging device 3.
The foregoing is only preferred embodiment of the present utility model, not in order to limit the utility model, all do within spirit of the present utility model and principle any amendment, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.
Claims (7)
1. vibratory sieve feeding system, it is characterized in that, comprise the vibrating screen device (1) set gradually by flow process, charging gear (2) and charging device (3), transmission is responded to by inductive means between described vibrating screen device (1) and described charging gear (2) and between described charging gear (2) and described charging device (3), described vibrating screen device (1) comprises blow tank (11), described charging gear (2) comprises feeding groove (21), described charging device (3) comprises hopper (31), the discharging opening of described blow tank (11) is relative with described feeding groove (21), the conveying mouth of described feeding groove (21) is relative with described hopper (31),
Wherein, described vibrating screen device (1) also comprises the sieving mechanism (12) and vibrating mechanism (13) that are connected up and down, described vibrating mechanism (13) involving vibrations housing (131) and vibrating motor (132), described vibrating motor (132) is fixed in described vibration housing (131).
2. vibratory sieve feeding system according to claim 1, it is characterized in that, described sieving mechanism (12) comprises bottom surface and is coated with the screen frame (121) of screen cloth and the sieving fixed mount (122) of fixing described screen frame (121), described sieving fixed mount (122) is fixedly connected on the top of described vibrating motor (132), and the feed inlet end of described blow tank (11) is fixedly connected with described sieving fixed mount (122) and is positioned at the downside of described screen cloth.
3. vibratory sieve feeding system according to claim 2, it is characterized in that, the shock-absorbing spring (133) for reducing sieving mechanism (12) Oscillation Amplitude is provided with in described vibration housing (131), one end of described shock-absorbing spring (133) is fixedly connected with by the inwall of pole with vibration housing (131), and the other end of described shock-absorbing spring (133) is fixed on described sieving fixed mount (122); The bottom surface of described vibration housing (131) is also provided with snubber block (134), and described snubber block (134) adopts rubber blanket or spring.
4. vibratory sieve feeding system according to claim 1, it is characterized in that, described charging gear (2) also comprises oscillating mechanism (22), described feeding groove (21) is fixedly installed on the top of described oscillating mechanism (22), described oscillating mechanism (22) comprises base and is arranged on the electromagnet between described feeding groove (21) and described base, armature, flat spring, described electromagnet and described armature are fixedly mounted on described base and described feeding groove (21) respectively, two described flat springs are obliquely installed and connect described base and described feeding groove (21), the bottom surface of described base is also provided with snubber block (134).
5. vibratory sieve feeding system according to claim 1, it is characterized in that, inductive switch (211) and control valve (212) is provided with in the feeding groove (21) of described charging gear (2), described control valve (212) is arranged on the conveying mouth position of described feeding groove (21), realizes Signal transmissions and control the open and close of described vibrating motor (132) between described inductive switch (211) and described vibrating motor (132).
6. vibratory sieve feeding system according to claim 4, it is characterized in that, the hopper (31) of described charging device (3) carries out support by LOAD CELLS (35), described hopper (31) is provided with openable gate (32), described gate (32) is connected with the motor that feeds intake (34) be arranged on described hopper (31) by swing arm (33), realizes Signal transmissions and control the open and close of described oscillating mechanism (22) between described LOAD CELLS (35) and described oscillating mechanism (22).
7. vibratory sieve feeding system according to claim 1, it is characterized in that, the bottom of described vibrating screen device (1), described charging gear (2) and described charging device (3) arranges the first support (4), the second support (5) and the 3rd support (6) for supporting and regulate height respectively.
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CN201520460857.1U CN204820043U (en) | 2015-06-29 | 2015-06-29 | Material system is thrown to shale shaker |
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CN201520460857.1U CN204820043U (en) | 2015-06-29 | 2015-06-29 | Material system is thrown to shale shaker |
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
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WO2017107234A1 (en) * | 2015-12-25 | 2017-06-29 | 广东基泰智能设备有限公司 | Powder spraying apparatus |
CN107197807A (en) * | 2017-05-26 | 2017-09-26 | 上海海洋大学 | Automatic weigh feeding system and feeding method |
CN108593064A (en) * | 2018-04-26 | 2018-09-28 | 新乡市东振机械制造有限公司 | A kind of electronic scale batcher weighing discharging mechanism |
CN108620323A (en) * | 2018-07-02 | 2018-10-09 | 山东钢铁股份有限公司 | Adjustable powder shakes sieve and adjusting method |
CN109418207A (en) * | 2017-09-02 | 2019-03-05 | 黄滨 | A kind of feeder with automatic leakage reception device and weighing system |
CN109632063A (en) * | 2019-01-07 | 2019-04-16 | 广东勇锋电子科技有限公司 | A kind of easily adjusting, easy-to-dismount combination balance |
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2015
- 2015-06-29 CN CN201520460857.1U patent/CN204820043U/en active Active
Cited By (7)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2017107234A1 (en) * | 2015-12-25 | 2017-06-29 | 广东基泰智能设备有限公司 | Powder spraying apparatus |
CN107197807A (en) * | 2017-05-26 | 2017-09-26 | 上海海洋大学 | Automatic weigh feeding system and feeding method |
CN109418207A (en) * | 2017-09-02 | 2019-03-05 | 黄滨 | A kind of feeder with automatic leakage reception device and weighing system |
CN108593064A (en) * | 2018-04-26 | 2018-09-28 | 新乡市东振机械制造有限公司 | A kind of electronic scale batcher weighing discharging mechanism |
CN108620323A (en) * | 2018-07-02 | 2018-10-09 | 山东钢铁股份有限公司 | Adjustable powder shakes sieve and adjusting method |
CN108620323B (en) * | 2018-07-02 | 2024-01-26 | 山东钢铁股份有限公司 | Adjustable powder vibrating screen and adjusting method |
CN109632063A (en) * | 2019-01-07 | 2019-04-16 | 广东勇锋电子科技有限公司 | A kind of easily adjusting, easy-to-dismount combination balance |
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