CN209427644U - Feeding inlet material guide device and antistatic belt conveyor - Google Patents

Abstract

The utility model belongs to bulk conveying technologies field.A kind of feeding inlet material guide device adjusts component for the feeding of belt feeder, including material bin shell, blanking bottom plate and first, and material bin case top is provided with feed inlet, and the bottom of the material bin shell is open；The pivot joint of blanking bottom plate is arranged on the inner sidewall of the material bin shell, and forms blanking port between the blanking bottom plate and the material bin housing bottom；First, which adjusts blanking bottom plate described in Component driver, swings, and adjusts the angle in blanking direction Yu the belt feeder.Disclosed herein as well is a kind of antistatic belt conveyors.The application overall construction design is reasonable, it passes through the design to material bin, speed and angle that bulk cargo enters air-cushion type conveyor belt can effectively be regulated and controled, maximally reduce the relative motion of the two, and then the generation of the electrostatic between bulk cargo and conveyor belt is avoided, to avoid the problem that the generation of discharging end adhesion material.

Description

Feeding inlet material guide device and antistatic belt conveyor

Technical field

The utility model belongs to bulk conveying technologies field, and in particular to a kind of feeding inlet material guide device and antistatic belt Conveyer.

Background technique

In harbour, harbour, bulk cargo (wheat, corn and soybean) is conveyed, mainly transports material using belt feeder.Pass through Mobile grab bucket puts bulk cargo into material bin from crawl in cabin, and bulk cargo flows into the fortune of belt feeder from hopper by chute It send above belt, follow belt is transported to next process together.

But because belt feeder belt is run with certain speed, when material is fallen into above belt by chute, the initial velocity of material Degree is inconsistent with belt feeder belt speed, causes material when reaching above belt, generates speed difference, material and belt with belt Between generate friction, under the action of frictional force, material reaches speed identical with belt feeder after moving a distance, together to Preceding movement.When material speed does not reach belt speed, material and belt generate relative motion, while because the friction between object produces Raw electrostatic.When material enters next process by head discharge, because of the effect of electrostatic, will be glued with the partial material of belt contacts It is attached to above belt, cannot be introduced into next process, and material sticks are after belt, with belt circulatory motion, in circulatory motion During, when the material of adherency reaches it is a certain amount of when, shake when because of belt operation, a part of material of adherency is suitable along belt Length direction is fallen in belt feeder shell, and with the long time running of belt feeder, the intracorporal material of belt feeder shell the more can collect the more more, The final normal operation for influencing belt feeder, and belt feeder distance is longer, shell disassembly is difficult, and cleaning is caused to bother.On the other hand, Also result in the waste during material transports.

Summary of the invention

The purpose of this utility model is in view of the above problems and insufficient, provides a kind of feeding inlet material guide device and prevents quiet Electric belt conveyor, it is reasonable in design, it can be avoided and belt and material generation electrostatic occurs, material sticks are effectively reduced in skin A possibility that taking.

In order to achieve the above objectives, it is adopted the technical scheme that:

A kind of feeding inlet material guide device, the feeding for belt feeder, comprising: material bin shell, top are provided with charging Mouthful, the bottom of the material bin shell is open；Blanking bottom plate, pivot joint are arranged on the inner sidewall of the material bin shell, and Blanking port is formed between the blanking bottom plate and the material bin housing bottom；And first adjust component, driving described in Blanking bottom plate is swung, and adjusts the angle in blanking direction Yu the belt feeder.

According to the utility model feeding inlet material guide device, it is preferable that the inner wall of the material bin shell is hingedly provided with two Side plate and second adjusts component, forms blanking chamber between two side plates, and the blanking chamber is laid in blanking bottom plate top, The second adjusting component adjusts the blanking width of the blanking chamber.

According to the utility model feeding inlet material guide device, it is preferable that described second adjusts component to be arranged in the side plate With the second power push-rod between the material bin shell；Or the second adjusting component is to be arranged on the material bin shell Second adjust bolt, it is described second adjusting bolt inner end be bonded support with the side plate.

According to the utility model feeding inlet material guide device, it is preferable that the blanking bottom plate is successively to be segmented along flow direction of material The multi-segment structure of laying includes at least the first blanking bottom plate and the second blanking bottom plate, in the blanking bottom plate at least within The slope of one segmentation is different from the slope that other are segmented.

According to the utility model feeding inlet material guide device, it is preferable that set on material bin shell corresponding with the feed inlet It is equipped with adjustable plate, the adjustable plate controls the feed entrance point of the feed inlet.

According to the utility model feeding inlet material guide device, it is preferable that the first adjusting component include: be provided with it is described enter Regulating tank on hopper shell side wall；And first be arranged on blanking bottom plate adjusts bolt, is adjusted by controlling described first Bolt is saved in the position of regulating tank, controls the tilt angle of the blanking bottom plate；Or the first adjusting component is pivot joint setting The first power push-rod between the material bin shell and the blanking bottom plate.

A kind of antistatic belt conveyor, comprising: rack is laid with chain-drive section dress and machine at the both ends of the rack respectively Tail portion dress；Gas chamber, support are laid in the rack between the chain-drive section dress and drive end unit dress；Belt is laid in described Between gas chamber, chain-drive section dress and drive end unit dress；And feeding inlet material guide device as described above, it is laid in described The feed end top of belt；Electrostatic rod is laid at the blanking end of the belt.

According to the utility model antistatic belt conveyor, it is preferable that the gas chamber includes: upper chamber comprising upper gas Chamber and upper dish groove；And lower chamber comprising lower chamber chamber and lower dish groove, belt matching are laid in the upper dish groove and described In lower dish groove, it is spaced at the middle part of the upper dish groove and the lower dish groove and is laid with the single gas being connected to corresponding air chamber Hole.

According to the utility model antistatic belt conveyor, it is preferable that along the length of the upper dish groove and the lower dish groove Direction, the stomata are equidistantly spaced laying；Along the width direction of the upper dish groove and the lower dish groove, during the stomata is located at Between position.

According to the utility model antistatic belt conveyor, it is preferable that the upper chamber chamber includes the first folding of two Z-shapeds Plate, the upper dish groove are the first frid of arcuate structure, and first folded plate and the first frid split are upper chamber chamber；Institute State the second folded plate that lower chamber chamber includes U-shaped structure, the lower dish groove is the second frid of arcuate structure, second folded plate and The second frid split is lower chamber chamber；The gas is connected to become by side seal board between the upper chamber chamber and lower chamber chamber Room；Cover board is provided on the gas chamber.

By adopting the above technical scheme, acquired beneficial effect is:

The application overall construction design is reasonable, by the design to material bin, can effectively regulate and control bulk cargo and enter skin The speed and angle of band, maximally reduce the relative motion of the two, and then avoid the electrostatic between bulk cargo and conveyor belt Generation, to avoid the problem that the generation of discharging end adhesion material.

The application by blanking end be arranged electrostatic rod, carry out further static elimination, realize blanking end without quiet Electric blanking operation, so as to effectively reduce the adhesion of material, for air-cushion type conveyor belt optimization provide it is good Basis.

The application also proposed a kind of specific implementation structure of single row of holes air cushion conveyer, air-flow be among dish groove to Diverging is formed twice, and because of the effect of the lift of wind energy, air-flow is from centre to two sides, and the active force for holding up belt becomes smaller, in belt Band edge at air film gap it is minimum, reduced so as to cause the outside spill-out of gas, reduce the unnecessary loss of gas.Together When, relatively existing air cushion belt feeder, the stomata quantity of dish groove decreases 70% ~ 80%, and used air quantity is also reduced therewith, And intersection-type collision does not occur for air-flow, air film is embarked on journey uniformly.Finally, same belt feeder yield, the blower quantity used also just subtract It is a half left and right, there is good market value and economic value.

Detailed description of the invention

It, hereinafter will be to the utility model embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing simply introduced.Wherein, attached drawing is used only for showing some embodiments of the utility model, rather than will be originally practical new The whole embodiments limited to this of type.

Fig. 1 is the structural schematic diagram according to the feeding inlet material guide device of the utility model embodiment.

Fig. 2 is the structural schematic diagram of the A-A of Fig. 1.

Fig. 3 is the structural schematic diagram according to the antistatic belt conveyor of the utility model embodiment.

Fig. 4 is the structural schematic diagram according to the feed end of the utility model embodiment.

Fig. 5 is the structural schematic diagram according to the air feed section of the utility model embodiment.

Fig. 6 is the structural schematic diagram according to the blanking end of the utility model embodiment.

Fig. 7 is upper dish groove, the overlooking structure diagram of lower dish groove according to the utility model embodiment.

Serial number in figure:

100 be rack, 110 be chain-drive section dress, 120 be drive end unit dress；

200 it is feeding inlet material guide device, 201 be material bin shell, 202 be blanking bottom plate, 203 be feed inlet, 204 is One adjusting bolt, 205 be regulating tank, 206 be the second adjusting bolt, 207 be side plate, 208 be blanking chamber, 209 be adjustable plate, 210 it is material bin cover board, 211 be form, 212 is blanking port；

300 it is gas chamber, 301 be upper chamber chamber, 302 be upper dish groove, 303 be lower chamber chamber, 304 be lower dish groove, 305 is gas Hole, 306 be the first folded plate, 307 be cover board, 308 be belt；

401 it is driving motor, 402 is blower.

Specific embodiment

In order to enable the purpose of the technical solution of the utility model, technical characteristic and technical effect are clearer, hereinafter The attached drawing of the utility model specific embodiment will be combined, the exemplary scenario of the utility model embodiment is carried out clearly and completely Description.

Referring to Fig. 1 and Fig. 2, a kind of feeding inlet material guide device 200 of the utility model, for the feeding of belt feeder, including enters Hopper shell 201, blanking bottom plate 202 and first adjust component, are provided with feed inlet 203 at the top of material bin shell 201, it is described enter The bottom of hopper shell 201 is open, and is provided with material bin cover board 210；The pivot joint of blanking bottom plate 202 is arranged in the material bin shell On the inner sidewall of body 201, and blanking port 212 is formed between the blanking bottom plate 202 and 201 bottom of material bin shell； First, which adjusts blanking bottom plate 202 described in Component driver, swings, and adjusts the angle in blanking direction Yu the belt feeder.

In the present embodiment first adjusting component include the regulating tank 205 being provided on 201 side wall of material bin shell, With the first adjusting bolt 204 being arranged on blanking bottom plate 202, bolt 204 is adjusted in regulating tank 205 by controlling described first Position, control the tilt angle of the blanking bottom plate 202；Or the first adjusting component is that pivot joint is arranged in the material bin The first power push-rod between shell 201 and the blanking bottom plate 202 can be in other words the driving electricity of driving articulated shaft rotation Machine, gear and rack teeth mechanism etc..

In order to further control the width of blanking, so that its adaptability is improved, in material bin shell 201 in the present embodiment Inner wall be hingedly provided with both side plate 207 and second and adjust component, blanking chamber 208, blanking chamber 208 are formed between both side plate 207 It is laid in 202 top of blanking bottom plate, the pivot angle that component adjusts both side plate is adjusted by second, to reach control blanking chamber The purpose of 208 blanking width, the second adjusting component is the be arranged between side plate 207 and the material bin shell 201 Two power push-rods；Or second adjusting component be arranged on material bin shell 201 second adjust bolt 206, second adjust spiral shell The inner end of bolt 206 is bonded the mechanisms such as support, or other motor driven articulated shaft rotations with side plate 207, not further One statement.Its side plate is applied in combination with blanking bottom plate, the speed and width of blanking can be controlled, to realize speed and width With the matching of belt feeder.

Due to being directed to different conveying speeds, there is also new problems for different type etc., therefore blanking bottom plate 202 is arranged For the multi-segment structure for being successively segmented laying along flow direction of material, the first blanking bottom plate and the second blanking bottom plate, institute are included at least It is different from the slope that other are segmented to state the slope of at least one of segmentation in blanking bottom plate 202, that is to say, that adjust at least within The slope of the segmentation of one blanking bottom plate is carried out the control of rate control and inlet angle by different slopes, and then realized The accurate control of speed.

Adjustable plate 209 is provided on material bin shell 201 corresponding with the feed inlet 203, the adjustable plate controls institute The feed entrance point of feed inlet 203 is stated, which, which can be, manually adjusts, and is also possible to motorized adjustment, main purpose is The corresponding situation for controlling feed inlet 203 and blanking port 212, ensures mutual dislocation.

Referring to Fig. 1-Fig. 7, disclosed herein as well is a kind of antistatic belt conveyors, including rack 100, gas chamber 300, skin Band 308 and feeding inlet material guide device 200, the both ends of rack 100 be laid with respectively chain-drive section fill 110 and drive end unit fill 120；Gas Room 300 support be laid in chain-drive section fill 110 and drive end unit fill in rack between 120；Feeding inlet material guide device 200 is laid in skin With 308 feed end top；Electrostatic rod is laid at the blanking end of belt 308.

Gas chamber 300 includes upper chamber and lower chamber, and upper chamber includes upper chamber chamber 301 and upper dish groove 302；Lower chamber includes Lower chamber chamber 303 and lower dish groove 304；The matching of belt 308 is laid in dish groove 302 and lower dish groove 304, in the upper dish groove 302 and the middle part of the lower dish groove 304 be spaced the stomata 305 for being laid with the single connection with corresponding air chamber.

Along the length direction of upper dish groove 302 and lower dish groove 304, stomata 305 equidistantly lay by interval；Along upper 302 He of dish groove The width direction of the lower dish groove 304, stomata 305 are centrally located；The upper chamber chamber 301 includes the first of two Z-shapeds Folded plate 306, the upper dish groove are the first frid of arcuate structure, and first folded plate and the first frid split are upper chamber Chamber；Further, lower chamber chamber includes the second folded plate of U-shaped structure, and the lower dish groove is the second frid of arcuate structure, described Second folded plate and the second frid split are lower chamber chamber；Pass through side seal board or branch between the upper chamber chamber and lower chamber chamber Support is connected to become the gas chamber, and cover board 307 is provided on gas chamber.

It further include having driving motor and air pump in the attached drawing of the application, driving motor is for driving entire antistatic belt defeated The motion of machine is sent, air pump is for inputting compressed air into gas chamber, to realize the small―gap suture point of belt and upper and lower dish groove From the normal operating of realization, the connection structure of the driving motor and air pump no longer repeats.

After material is fallen into material bin from certain altitude by chute, certain speed is formed due to gravity, is fallen into entering The blanking substrate of hopper changes the direction of motion of material because of the effect of blanking bottom plate, changes into material vertical drop Tilt drop can be significantly reduced the velocity shock generated when material drops down above belt in this way.When material is because of blanking bottom plate After effect becomes banking motion, is fallen to above belt with the component velocity of vertical speed along the rolling of blanking bottom plate, pushed away according to theory It calculates, changes the tilt angle of blanking bottom plate, when making material movement to belt, horizontal component velocity is identical as the speed of service of belt, At this point, material is consistent with belt speed, relative movement will not be generated between the two, would not also generate kinetic force of friction, thus Effectively avoid the generation of electrostatic.Because material does not generate electrostatic, when material is transported at head blanking port, Watch combined with leather belt is left When face, the phenomenon that material sticks belt would not also occur.That is the effective solution above problem.

Each embodiment in this specification is described in a progressive manner, the highlights of each of the examples are with other The difference of embodiment, same or similar part may refer to each other between each embodiment.

Unless otherwise defined, the technical term or scientific term used herein is should be in the utility model fields The ordinary meaning that personage with general technical ability is understood." first " used in present specification and claims, " second " and similar word are not offered as any sequence, quantity or importance, and are used only to distinguish different compositions Part.Equally, the similar word such as "one" or " one " also not necessarily indicates quantity limitation." comprising " or "comprising" etc. are similar Word mean that the element or object that occur before the word are covered the element for appearing in the word presented hereinafter or object and its waited Together, other elements or object are not excluded for." connection " either the similar word such as " connected " not now due to physics or machine The connection of tool, but may include electrical connection, it is either direct or indirect."upper", "lower", "left", "right" etc. It is only used for indicating relative positional relationship, after the absolute position for being described object changes, then the relative positional relationship may also phase Change with answering.

It is described in detail the exemplary embodiment of the utility model above in reference to preferred embodiment, however this field Technical staff can make above-mentioned specific embodiment more it will be appreciated that under the premise of without departing substantially from the utility model theory Kind of modification and remodeling, and can to the utility model proposes each technical characteristic, structure carry out multiple combinations, and without departing from this reality With novel protection scope, the protection scope of the utility model is determined by the attached claims.

Claims (10)

1. a kind of feeding inlet material guide device, the feeding for belt feeder characterized by comprising

Material bin shell, top are provided with feed inlet, and the bottom of the material bin shell is open；

Blanking bottom plate, pivot joint are arranged on the inner sidewall of the material bin shell, and in the blanking bottom plate and the pan feeding Blanking port is formed between bucket housing bottom；And

First adjusts component, drives the blanking bottom plate to swing, and adjust the angle in blanking direction Yu the belt feeder.

2. feeding inlet material guide device according to claim 1, which is characterized in that the inner wall of the material bin shell is hingedly set It is equipped with both side plate and second and adjusts component, form blanking chamber between two side plates, the blanking chamber is laid in the blanking bottom Plate top, the second adjusting component adjust the blanking width of the blanking chamber.

3. feeding inlet material guide device according to claim 2, which is characterized in that the second adjusting component is setting in institute State the second power push-rod between side plate and the material bin shell；

Or the second adjusting component is that second be arranged on the material bin shell adjusts bolt, described second adjusts bolt Inner end be bonded support with the side plate.

4. feeding inlet material guide device according to claim 1, which is characterized in that the blanking bottom plate be along flow direction of material according to The multi-segment structure that secondary segmentation is laid, includes at least the first blanking bottom plate and the second blanking bottom plate, in the blanking bottom plate extremely The slope of a few wherein segmentation is different from the slope that other are segmented.

5. feeding inlet material guide device according to claim 1, which is characterized in that material bin shell corresponding with the feed inlet Adjustable plate is provided on body, the adjustable plate controls the feed entrance point of the feed inlet.

6. feeding inlet material guide device according to claim 1, which is characterized in that described first, which adjusts component, includes:

The regulating tank being provided in the material bin housing sidewall；And

First be arranged on blanking bottom plate adjusts bolt, adjusts bolt in the position of regulating tank, control by controlling described first Make the tilt angle of the blanking bottom plate；

Or the first adjusting component is the first power that pivot joint is arranged between the material bin shell and the blanking bottom plate Push rod.

7. a kind of antistatic belt conveyor characterized by comprising

Rack is laid with chain-drive section dress and drive end unit dress at the both ends of the rack respectively；

Gas chamber, support are laid in the rack between the chain-drive section dress and drive end unit dress；

Belt is laid between the gas chamber, chain-drive section dress and drive end unit dress；And

Feeding inlet material guide device as described in claim 1-6 is any is laid in the feed end top of the belt；Described The blanking end of belt is laid with electrostatic rod.

8. antistatic belt conveyor according to claim 7, which is characterized in that the gas chamber includes:

Upper chamber comprising upper chamber chamber and upper dish groove；And

Lower chamber comprising lower chamber chamber and lower dish groove, belt matching is laid in the upper dish groove and the lower dish groove, in institute The middle part for stating dish groove and the lower dish groove be spaced be laid with it is single with the stomata of corresponding air chamber connection.

9. antistatic belt conveyor according to claim 8, which is characterized in that along the upper dish groove and the lower dish groove Length direction, the stomata is equidistantly spaced laying；Along the width direction of the upper dish groove and the lower dish groove, the stomata It is centrally located.

10. antistatic belt conveyor according to claim 8 or claim 9, which is characterized in that the upper chamber chamber includes two Z First folded plate of font, the upper dish groove are the first frid of arcuate structure, first folded plate and the first frid split For upper chamber chamber；The lower chamber chamber includes the second folded plate of U-shaped structure, and the lower dish groove is the second frid of arcuate structure, Second folded plate and the second frid split are lower chamber chamber；Pass through side seal board between the upper chamber chamber and lower chamber chamber It is connected to become the gas chamber；Cover board is provided on the gas chamber.