CN203563502U - Segregation mechanism, feeding device composed of segregation mechanism and mixing device composed of segregation mechanism - Google Patents

Abstract

The utility model relates to a segregation mechanism, a feeding device composed of the segregation mechanism and a mixing device composed of the segregation mechanism. The segregation mechanism enables feeds to be conveyed in a quantitative mode so that the discharging quantity of each time can be mastered, and the situation that the feeds are prone to clamping a known mechanism is avoided. The segregation mechanism comprises a driving module and a transmission caterpillar band, the driving module is sleeved with the transmission caterpillar band in a surrounding mode, and the transmission caterpillar band is driven by the driving module to rotate. A plurality of separating plates are arranged on the outer surface of the transmission caterpillar band and used for bearing the feeds, and gaps reserved between the separating plates are the same to achieve the aim of assisting the fixed feed output quantity. The feeding device is formed depending on the segregation mechanism, the feeds with the fixed output quantity can be output by the feeding device, and the problem that the known mechanism is easily blocked by the feeds is solved. The mixing device is further derived according to the segregation mechanism and is formed by combining two feeding devices, the feeds filled into the feeding devices are respectively output or are output to the same position, and the effect of outputting the feeds in a sole mode or outputting two kinds of feeds in a mixed mode is achieved.

Description

The charging device of feeding distribution mechanism and composition thereof and mixing device

Technical field

The utility model is about the charging device of a kind of feeding distribution mechanism and composition thereof and mixing device, refers to especially a kind of the have feeding distribution mechanism of driven pedrail and several dividing plates and feeding intake and mixing device of composition thereof.

Background technology

Pet feeding is quite general general mood in society now, and except can adjusting as life, the very important soul of modern that more becomes busy anxiety is consoled.Yet, during many people's pet feedings, run into maximum puzzlement, be exactly to be on ordinary days busy with one's work, causing can not circadian feeding.So the master that raises who has suffers from hunger for fear of pet, prepares the feed of more deal before all can being on duty or going out, and just can take food voluntarily, and needn't wait until that owner goes home just can eat, but this measure has many shortcomings when pet is hungry.First, once provide more food (feed), with regard to component and the time of uncontrollable pet feed, easily cause pet gluttony, and then harm pet health.Secondly, too much food or feed, pet often cannot once eat up, and remaining food exposure, in environment, is easily caused the insects such as mosquito or cockroach and is multiplied, and makes environment dirty and messy.

Have on the market at present the time that several fodder machines can be set automatic release feed, yet, it is mostly for valve-type designs, the time length that sees through valve switch is controlled the quantity dropping, when its shortcoming is valve-off, easily, because the feed in flowing blocks valve, cause valve to close completely, feed continues to drop out, and causes still having the problems such as aforesaid gluttony.

Edge this, the improving of the utility model people thoughts the problems referred to above, is concentrate on studies and coordinate the utilization of scientific principle, and proposes a kind of reasonable in design and effectively improve the utility model of the problems referred to above.

Summary of the invention

Technical problem to be solved in the utility model is, for above-mentioned the deficiencies in the prior art.A kind of feeding distribution mechanism is provided, the quantity falling can control feed, and make according to this charging device and mixing device.

In order to solve the problems of the technologies described above, the technical scheme that the utility model adopts is: a kind of feeding distribution mechanism, and it comprises: driver module, it comprises driver element and linkage unit, and wherein, this driver element is in order to be connected with a drive unit, and is subject to its driven rotary; And driven pedrail, it is around sheathed this driver element and this linkage unit, and with this driver element and this linkage unit interlock, the outer surface compartment of terrain of this driven pedrail is provided with several dividing plates, make each self-forming material placing area between each dividing plate, and those dividing plates are arranged at the normal direction of the outer surface of this driven pedrail.

The feeding distribution mechanism that above-mentioned each assembly forms, it is to utilize material placing area to divide preloading feed barrow to advance toward Way out, and the quantity that reaches single discharging all can control, and the phenomenon that mechanism can not fasten has overcome the problem of known technology.Again, can by the direction of controlling driven pedrail rotation, coordinate the position of loaded charging device outlet, promote the convenience of being combined with charging device.Wherein, the modal utilization of charging device includes fodder machine, racking machine etc., and embodiment of the present utility model is to take the object that fodder machine is that explanation is used, but not as limit, close first chat bright.

Preferably, the inner surface compartment of terrain of driven pedrail is equipped with several drive lugs, and the periphery of the inner surface both sides of driven pedrail is respectively arranged with an inner edge guide rail.And driver element comprises a driving shaft and two driving wheels.Driving shaft outer rim is provided with a dentalation, and dentalation correspondence is inserted between each drive lugs of driven pedrail and forms engagement, uses and drives driven pedrail to rotate.Two driving wheels are arranged at respectively the two ends of driving shaft, and the outer rim of each driving wheel is provided with a driving guide groove, drive guide groove correspondence to be sheathed on the inner edge guide rail of driven pedrail, use stablely to control transmission and cover the displacement that band rotates.

Preferably, linkage unit comprises a power transmission shaft and two drives.Two drives are arranged at respectively the two ends of power transmission shaft, and the outer rim of each drive has a transmission guide groove, and transmission guide groove correspondence is sheathed on the inner edge guide rail of driven pedrail, uses and reaches accessory drives crawler belt stable rotation.

According to another embodiment of the present utility model, also can several drive lugs be set in the inner surface compartment of terrain of driven pedrail.And driver element correspondence is provided with several driving projections on driving wheel, driving projection actively correspondence is engaged between drive lugs; In like manner, several linked bumps are also set on the connecting traction wheel of linkage unit, make, between the corresponding movably engaged transmission projection of linked bump, also can reach by this object of driving.The person of entering, one driven shaft can be set between couple axle and driving shaft again, and in the two ends of driven shaft, one driven pulley be set respectively, by the setting of driven pulley, driven pedrail support force can be provided, make driven pedrail can not be subject to the weight of feed and produce a large amount of distortion and affect running.

Again, an interior driving-belt can be set in driven pedrail more further, interior driving-belt system comprises that an interior driving-belt piece and an interior driving groove, interior driving-belt piece are engaged transmission projection movably, and interior driving-belt and driven pedrail can together be moved; Again, driving shaft further comprises several driving fixture blocks, and it is to be arranged between two driving wheels, and driving groove in meshing movably, and couple axle also further comprises several interlock fixture blocks, and driving groove in meshing movably.By driving fixture block, interlock Ka Dui to coordinate with interior driving-belt, can increase driven pedrail while moving or smooth degree during rotating.

An embodiment more of the present utility model is equipped with several drive lugs in the inner surface compartment of terrain of driven pedrail, and is respectively convexly equipped with at least one transmission fixture block on each drive lugs again; Accordingly, two driving wheels and are set on driving shaft and drive draw-in groove.Driving wheel is located at respectively the two ends of driving shaft, and be provided with several driving projections in driving wheel, driving projection actively correspondence is engaged between drive lugs, drives draw-in groove to be arranged between two driving wheels and corresponding to transmission fixture block, uses for transmission fixture block and meshes actively; In like manner, couple axle is also provided with two connecting traction wheels and an interlock draw-in groove.Each connecting traction wheel lays respectively at the two ends of couple axle, and be provided with several linked bumps in connecting traction wheel, linked bump is actively between corresponding engaged transmission projection, and interlock draw-in groove is arranged between two connecting traction wheels and corresponding to transmission fixture block, uses for transmission fixture block and meshes actively.Driven shaft is arranged between couple axle and driving shaft, and a driven draw-in groove is set on it, and driven draw-in groove also can mesh with transmission fixture block actively corresponding to this transmission fixture block.Setting by drive lugs with corresponding driving draw-in groove, interlock draw-in groove and driven draw-in groove, can assist crawler belt stably to rotate, the situation of can not slip away driving wheel, connecting traction wheel and driven pulley.

The utility model provides a kind of embodiment of feeding distribution mechanism again, and it comprises a driver module and a driven pedrail.Driver module comprises a driver element and a linkage unit, and wherein, driver element is in order to be connected with a drive unit, and is subject to its driven rotary.Driven pedrail is around sheathed driver element and linkage unit interlock with it, and the outer surface compartment of terrain of driven pedrail is provided with several dividing plates, make each self-forming one material placing area between each dividing plate, and those dividing plates is arranged at the normal direction of the outer surface of this driven pedrail.Again, this driver module further comprises an asessory shaft and a gear train, this asessory shaft is parallel between this driver element and this linkage unit, again, this gear train system is linked to this drive unit, this driver element, this asessory shaft and this linkage unit, uses the power of this drive unit is passed to this asessory shaft and this linkage unit via this gear train; Separately, this driver element and this linkage unit are column gear, this driven pedrail inner side be provided with can with the projection of this driver element and this linkage unit engagement.Use and provide that a degree of fixation is better, power transmission feeding distribution mechanism more smoothly.

The utility model provides a kind of charging device again according to feeding distribution mechanism, it comprises feeding distribution mechanism, housing and control module.This feeding distribution mechanism is arranged at this enclosure interior, and respectively the height of this dividing plate is less than the inwall of this housing and the shortest spacing of this driven pedrail outer surface, housing comprises charging aperture and discharging opening, charging aperture correspondence is arranged at the top of driven pedrail outer surface, and discharging opening correspondence is arranged at the below of driven pedrail outer surface.This control module is electrically connected at this feeding distribution mechanism, in order to control this driver module.See through stably blanking of charging device of the present utility model, the problem of effectively avoiding known technology to occur.Again, the feeding distribution mechanism of institute's combination can be aforesaid various aspect, in this, is repeated no longer in addition.

Preferably, described device more comprises material storage tube and discharging guiding channel, and wherein, one end of this material storage tube is connected in this charging aperture of this housing, and one end of this discharging guiding channel is connected in this discharging opening of this housing.

Preferably, described discharging opening arranges inductive component, and this inductive component is connected with this control module telecommunication, in order to detecting monitoring, whether has had blanking.

The utility model provides a kind of mixing device again according to feeding distribution mechanism, this device comprises two charging devices, batch mixing passage and a control module, this each charging device comprises respectively feeding distribution mechanism claimed in claim 1 and housing, this feeding distribution mechanism is arranged at this enclosure interior, and respectively the height of this dividing plate is less than the beeline of inwall and this driven pedrail outer surface of this housing, this housing comprises charging aperture, discharging opening and batch mixing mouth, and this charging aperture correspondence is arranged at the top of this driven pedrail outer surface; This discharging opening correspondence is arranged at the below of this driven pedrail outer surface; This batch mixing mouth correspondence is arranged at the below of this driven pedrail outer surface, and with respect to this discharging opening, is arranged at the opposite side of this housing; This batch mixing passage has two batch mixing charging apertures and a batch mixing discharging opening, and respectively this batch mixing charging aperture correspondence is connected in respectively this batch mixing mouth of this charging device; This control module telecommunication is connected in this driver element, in order to control the rotation of this driver element.

Preferably, described each charging device further comprises respectively a material storage tube and a discharging guiding channel, and one end of this material storage tube is connected in this charging aperture of this housing, and one end of this discharging guiding channel is connected in each discharging opening of this housing; Again, more further in respectively this discharging guiding channel and this batch mixing passage, one sensing unit is set respectively, and respectively this sensing unit is connected with this control module telecommunication.

The feed that two charging devices that it can be comprised by this mixing device load is output in the lump after mixing, and uses and reach the effect that increases blanking amount or mix two kinds of feeds.

In order further to understand the utility model, be to reach technology, method and the effect that set object is taked, refer to following relevant detailed description of the present utility model, graphic, believe the purpose of this utility model, feature and feature, when being goed deep into thus and concrete understanding, yet appended graphic reference and the explanation use of only providing, is not used for the utility model to be limited.

Accompanying drawing explanation

Fig. 1 is the explosive view of feeding distribution mechanism of the present utility model.

Fig. 2 is the assembling schematic diagram of feeding distribution mechanism of the present utility model.

Fig. 3 is the explosive view of charging device of the present utility model.

Fig. 4 is the combination dissected figure of charging device of the present utility model.

Fig. 5 is that charging device of the present utility model is in conjunction with the decomposing schematic representation of drive unit.

Fig. 6 is that charging device of the present utility model is in conjunction with the combination schematic diagram of drive unit.

Fig. 7 is the explosive view of mixing device of the present utility model.

Fig. 8 is the first assembling schematic diagram of mixing device of the present utility model.

Fig. 9 is the second assembling schematic diagram of mixing device of the present utility model.

Figure 10 is the 3rd assembling schematic diagram of mixing device of the present utility model.

Figure 11 is that mixing device of the present utility model is in conjunction with the schematic diagram of auxiliary frame.

Figure 12 is the assembly exploded perspective view of another embodiment of the utility model feeding distribution mechanism.

Figure 13 is the embodiment illustrated in fig. 12 exploded perspective view that enters again.

Figure 14 is the assembly exploded perspective view of an embodiment again of the utility model feeding distribution mechanism.

Figure 15 is generalized section embodiment illustrated in fig. 14.

The embodiment that Figure 16 is another feeding distribution mechanism is in the stereogram of not installing driven pedrail.

The embodiment that Figure 17 is another feeding distribution mechanism is in the vertical view of not installing driven pedrail.

Figure 18 is the stereogram of driven pedrail of the embodiment of another feeding distribution mechanism.

Label declaration:

1: feeding distribution mechanism 2: charging device

3: mixing device 10: driver module

11: driver element 111: driving shaft

112: driving wheel 1121: drive guide groove

12: gear unit 121: power transmission shaft

122: drive 1221: transmission guide groove

20: driven pedrail 201: drive lugs

202: inner edge guide rail 21: dividing plate

30: housing 301: charging aperture

302: discharging opening 303: batch mixing mouth

40: discharging guiding channel 50: material storage tube

60: drive unit 70: batch mixing passage

701: batch mixing charging aperture 702: batch mixing discharging opening

A: material placing area S: sensing unit

51: support body 1 ＇: feeding distribution mechanism

10 ＇: driver module 20 ＇: driven pedrail

11 ＇: driver element 12 ＇: linkage unit

111 ＇: driving shaft 112 ＇: driving wheel

1121 ＇: drive projection 201 ＇: drive lugs

121 ＇: couple axle 122 ＇: connecting traction wheel

123 ＇: driven shaft 1231 ＇: driven pulley

1221 ＇: linked bump 201 ＇: drive lugs

22 ＇: interior driving-belt 221 ＇: interior driving-belt piece

222 ＇: interior driving groove 1111 ': drive fixture block

1211 ＇: interlock fixture block 211 ＇: ribs

1 ": feeding distribution mechanism 201 ": drive lugs

2011 ": transmission fixture block 11 ": driver element

111 ": driving shaft 1111 ": drive draw-in groove

112 ": driving wheel 1121 ": drive projection

113 ": drive draw-in groove 12 ": linkage unit

121 ": couple axle 122 ": connecting traction wheel

1221 ": linked bump 123 ": driven shaft

201 ": drive lugs 2011 ": transmission fixture block

A10: driver module A11: driver element

A12: linkage unit A13: asessory shaft

A14: gear train A20: driven pedrail

A201: projection A21: dividing plate

A30: drive unit.

Embodiment

See also Fig. 1 and Fig. 2, the feeding distribution mechanism 1 of the present embodiment comprises driver module 10 and driven pedrail 20.Driven pedrail 20 is around sheathed driver module 10, and driven by driver module 10.

Driver module 10 comprises driver element 11 and gear unit 12.Driver element 11 can be in order to be connected with drive unit 60 (seeing Fig. 3), another, drive unit of a great variety, and all driver elements 11 that drives are rotated, and are all the drive unit of the utility model embodiment indication.

Driver element 11 comprises a driving shaft 111 and two driving wheels 112.The outer peripheral edges of driving shaft 111 are provided with dentalation 1111.Two driving wheels 112 are arranged at respectively the two ends of driving shaft 111, and the outer rim of each driving wheel 112 has a driving guide groove 1121.Gear unit 12 comprises a power transmission shaft 121 and two drives 122.Two drives 122 are arranged at respectively the two ends of power transmission shaft 121, and the outer rim of each drive 122 has a transmission guide groove 1221.

The inwall of driven pedrail 20 comprises several drive lugs 201 and two inner edge guide rails 202; And the outer surface compartment of terrain of driven pedrail 20 is provided with several dividing plates 21, so that 21, each dividing plate is formed with several material placing area A.In application preferably, dividing plate 21 can be the normal direction that is arranged at driven pedrail 20 outer surfaces, parallel each other, and in other words, dividing plate 21 can be perpendicular to the outer surface setting of driven pedrail 20; In addition, dividing plate 21 can be engage, plug together, gummed, interlocking or the mode integrally formed with driven pedrail 20, be arranged on driven pedrail 21.

In addition, the dentalation 1111 of driving shaft 111 can be integrated gear, can be maybe the gear of an individual member, is sheathed on driving shaft 111.Special instruction, setting position and the mode thereof of above-mentioned driver module 10 and driven pedrail 20, be only an embodiment wherein, in practical application, can be changed according to demand, for example, be that driven pedrail 20 is provided with guide groove, and driver element 11 and gear unit 12 correspondences are provided with guide rail etc.; In addition, in the guide groove described in this and guide rail, be only the running of stable drive crawler belt 20, practical application, not as limit, can replace it in order to the mechanism of running with other.

Please coordinate shown in Fig. 2, driver module 10 correspondences are installed in driven pedrail 20.Dentalation 1111 correspondences of driver element 11 are sticked in each drive lugs 201 of driven pedrail 20 inside, and the driving guide groove 1121 of each a driving wheel 112 corresponding wherein inner edge guide rail 202 that is sheathed on driven pedrail 20 respectively.The transmission guide groove 1221 of two drives 122 of gear unit 12, respectively corresponding each inner edge guide rail 202 that is sheathed on driven pedrail 20.By this, when driver element 11 is subject to the startup of drive unit 60 and while being rotated, see through the mutual motion of the drive lugs 201 in dentalation 1111 and driven pedrail 20, use and drive driven pedrail 20 counterclockwise or clockwise rotate.Drive unit 60 can be d.c. motor or stepper motor, or can be to connect other a drive unit, the member of usining as transferring power.

See also Fig. 3 to Fig. 6, sincere feeding distribution mechanism 1 described above, below will further illustrate the made charging device 2 of this feeding distribution mechanism 1 of application.As shown in Figures 3 and 4, charging device 2 comprises control module (not shown), feeding distribution mechanism 1, housing 30, discharging guiding channel 40 and material storage tube 50.Feeding distribution mechanism 1 is installed in the inside of housing 30 and is electrically connected with this control module, by this control module, controls its start; About set-up mode and the continuous action relation thereof of each member of feeding distribution mechanism 1, refer to above-mentionedly, in this, do not add to repeat.Separately, the control of feeding distribution mechanism 1 is carried out in the signal instruction that utilizes control module to accept user, is the utilization that known technology is controlled automatically, therefore its detailed flowing mode of doing is not also repeated in this.

Housing 30 comprises charging aperture 301 and discharging opening 302; Charging aperture 301 is arranged at the top of housing 30, and discharging opening 302 is arranged at the below of housing 30.Feeding distribution mechanism 1 is arranged at the inside of housing 30.Charging aperture 301 correspondences of housing 30 are positioned at the top of feeding distribution mechanism 1; Preferably, charging aperture 301 is arranged at the normal direction of the upper surface of driven pedrail 20, and corresponding at least one the material placing area A in charging aperture 301 positions.Discharging opening 302 correspondences of housing 30 are positioned at the below of driven pedrail 20, and when wherein a material placing area A moves to discharging opening 302, corresponding two dividing plates 21 of this material placing area A, can effective ground resistance fall into discharging opening 302 every the material of another material placing area A; In other words, in embodiment preferably, the height of dividing plate 21 is slightly less than the beeline of housing 30 and driven pedrail 20 outer surfaces; This means, dividing plate 21 is less than material size with the spacing distance of housing 30 inwalls, can effectively avoid by this feed to fasten between dividing plate 21 and housing 30, does not affect again advancing of driven pedrail 20.Wherein, dividing plate 21 can be soft materials, elastic material or stiff board material, can be changed design according to demand.

Discharging guiding channel 40 correspondences are installed in the discharging opening 302 of housing 30; Material storage tube 50 correspondence is installed in the charging aperture 301 of housing 30.As shown in the figure, when driven pedrail 20 is driven and clockwise or while being rotated counterclockwise, material falls into each material placing area A by charging aperture 301, those materials that are arranged in material placing area A, after the transporting of driven pedrail 20, are sent by discharging opening 302.Again, discharging guiding channel 40 arranges a sensing unit S who is electrically connected with this control module, utilize this sensing unit S to be confirmed whether blanking success, control module according to this result determines whether want feeding distribution mechanism 1 to carry out corresponding action, for example: commutation is moved, moved around or send the alarm without feed.

As shown in Figures 5 and 6, can be in housing 30 outer setting one drive units 60.Driving shaft 111 connecting drive devices 60 of driver element 11.Drive unit 60 can be d.c. motor or stepper motor etc.Please refer to Fig. 4, by rotating speed and the time of accessory drive 60, and then can control the velocity of rotation of driven pedrail 20 and the distance moving, therefore can control material, enter the time of next material placing area A and the time feeding intake.Again chat brightly, control module, except input or the setting that can see through physical button and carry out instruction for operator, also can be controlled via the mode of wireless transmission (as blue-tooth device, infrared facility), Internet Transmission.But as installed within it and control after software in conjunction with the function of modern intelligent handheld device, can see through in the effective distance range of radio transmitting device of hand-held device and control or carry out at an arbitrary position Long-distance Control via network.

See also Fig. 7 to Figure 10.Just as above-mentioned charging device 2, below the mixing device 3 that forms of this charging device 2 of application will be further illustrated.

Mixing device 3 comprises two charging devices 2 and a batch mixing passage 70.Charging device 2 can be arranged side by side, and interconnects through batch mixing passage 70.Say further, each charging device 2 comprises feeding distribution mechanism 1, housing 30 and discharging guiding channel 40.Relevant connection and the start relation thereof of each member of charging device 2, same as described above, in this, seldom repeat.Again, the control module of each charging device 2 mutually signal connects or is unified by a control module wherein or the control module that connects this two charging device by another control module telecommunication again operates in addition, at all events plants, and all can allow user control.

Wherein, housing 30, except comprising charging aperture 301, discharging opening 302, more comprises batch mixing mouth 303.The explanation of charging aperture 301 and discharging opening 302 is same as above, batch mixing mouth 303 correspondences are arranged at the below of the outer surface of driven pedrail 20, and with respect to this discharging opening 302, be arranged at the opposite side of housing 30, therefore can coordinate the position of discharging opening 302 or batch mixing mouth 303 by the direction of controlling driven pedrail 20 rotations, the feed being carried to control is to be dropped out by discharging opening 302 or batch mixing mouth 303; The direction of Fig. 7 of take is example, when driven pedrail 20 clockwise rotates, there is the material placing area A of filling feed can first arrive at discharging opening 302, therefore the feed carrying will drop out from discharging opening 302, in like manner, when driven pedrail 20 rotates counterclockwise, there is the material placing area A of filling feed can first arrive at batch mixing mouth 303, therefore the feed carrying will drop out from batch mixing mouth 303.

Batch mixing passage 70 comprises two batch mixing charging apertures 701 and a batch mixing discharging opening 702.Each batch mixing charging aperture 701 correspondences are connected in the batch mixing mouth 303 of each charging device 2.Again, batch mixing passage 70 can be Y word profile as shown in the figure.By this mixing device 3, can export individually single feed, also or the feed that two charging devices 2 are loaded through the unified output of batch mixing passage 70, reach the object of mixing, be convenient to two kinds of feeds of mix and match and raise.Certainly, also this two charging device 2 can be inserted to identical feed, to reach the effect of double output, its application mode is wide.Moreover, in batch mixing discharging opening 702, can install the sensing unit S being connected with control module telecommunication, use and be confirmed whether blanking, and result is back to control module, by control module, record or determine the carrying out of next step.For example, while not having the situation of blanking when answering blanking, control module can indicate feeding distribution mechanism 1 to come back rotation to remove barriers driven pedrail 20, or carries out the state reporting without feed.

Referring again to Figure 11, it discloses the support body 51 that a kind of auxiliary above-mentioned mixing device is stood, and this figure is intended to illustrate that the present embodiment can with mixing device, stand, and the form kind of support body 51 can be adjusted on demand further combined with support body 51, shown in this figure, is not limited.Again, the material storage tube 50 shown in figure from shown in other figure, be also different pattern, the shape design of using explanation material storage tube 50 also can be adjusted into identical or different pattern on demand, not with appended graphic being limited.

Below, in Figure 12 and Figure 13, disclose another kind of feeding distribution mechanism 1 ＇, it is still and comprises driver module 10 ＇ and driven pedrail 20 ＇.Driver module 10 ＇ comprise driver element 11 ＇ and linkage unit 12 ＇.Driver element 11 ＇ comprise driving shaft 111 ＇ and two driving wheel 112 ＇, driving wheel 112 ＇ lay respectively at the two ends of driving shaft 111 ＇, and driving wheel 112 ＇ are provided with several driving projection 1121 ＇, those drive projection 1121 ＇ actively between corresponding those drive lugs of engagement 201 ＇.This linkage unit 12 ＇ comprise couple axle 121 ＇, two connecting traction wheel 122 ＇, driven shaft 123 ＇ and two driven pulley 1231 ＇.Each connecting traction wheel 122 ＇ are arranged at respectively the two ends of couple axle 121 ＇, and are provided with several linked bump 1221 ＇, and those linked bumps 1221 ＇ are actively between corresponding those drive lugs of engagement 201 ＇.Driven shaft 123 ＇ are arranged between this couple axle 121 ＇ and this driving shaft 111 ＇, and in the two ends of this driven shaft 123 ＇, one driven pulley 1231 ＇ are set respectively.

Again, the inner surface compartment of terrain of driven pedrail 20 ＇ arranges several drive lugs 201 ＇, and interior driving-belt 22 ＇ are set in this driven pedrail 20 ＇ further, these interior driving-belt 22 ＇ comprise interior driving-belt piece 221 ＇ and interior driving groove 222 ＇, these interior driving-belt piece 221 ＇ mesh those drive lugs 201 ＇ movably, and these interior driving-belt 22 ＇ and this driven pedrail 20 ＇ are together rotated; Again, this driving shaft 111 ＇ further comprise several driving fixture block 1111 ＇, and it is arranged between this two driving wheel 112 ＇, and mesh movably this interior driving groove 222 '; This couple axle 121 ' further comprises several interlock fixture blocks 1211 ', and meshes movably this interior driving groove 222 ', by driving fixture block 1111 ', connect in fixture block 1211 ' engagement after driving groove 222 ', can accessory drives crawler belt 20 ' advance.

Separately, can be responsible for respectively a promotion turning to by driven pedrail 20 ' and interior driving-belt 22 ', for example: when driven pedrail 20 ' is responsible for turning to clockwise, drive lugs 201 ' on it and the configuration design that drives projection 1121 ' and linked bump 1221 ' can corresponding its shapes of design, make it when running, reduce the loss of strength in transmittance process, reach maximum thrust, in like manner, interior driving-belt 22 ' is is responsible for rotating counterclockwise direction, therefore driving groove 222 ' and corresponding driving fixture block 1111 ' in it, it is main that the design of interlock fixture block 1211 ' can promote the object that driven pedrail 20 ' rotates counterclockwise, reduce unnecessary consumption.

Moreover, on this dividing plate 21 ', a ribs 211 ' can be further set, utilize ribs 211 ' that the strength that dividing plate 21 can bear is increased, avoid occurring the situation of compressive deformation.

For another example another feeding distribution mechanism 1 again shown in Figure 14 and Figure 15 ", it is in this driven pedrail 20 " inner surface compartment of terrain be equipped with several drive lugs 201 ", and in each drive lugs 201 " on be convexly equipped with again at least one transmission fixture block 2011 ".

In the same manner, driver module 10 " comprise driver element 11 " with linkage unit 12 ".Driver element 11 " comprise a driving shaft 111 ", two driving wheels 112 " with one drive draw-in groove 113 ", two driving wheels 112 " be located at respectively this driving shaft 111 " two ends, and in those driving wheels 112 " be provided with several driving projections 1121 ", those drive projection 1121 " corresponding those drive lugs 201 of engagement actively " between.Drive draw-in groove 1111 " be arranged at this two driving wheel 112 " between and corresponding to this transmission fixture block 2011 ", use for this transmission fixture block 2011 " engagement actively.

Linkage unit 12 " comprise a couple axle 121 " with a driven shaft 123 ".Couple axle 121 " two connecting traction wheels 122 are set in two ends ", and in those connecting traction wheels 122 " be provided with several linked bumps 1221 ", those linked bumps 1221 " corresponding those drive lugs 2011 of engagement actively " between; One interlock draw-in groove 1211 " be arranged at this two connecting traction wheel 122 " between and corresponding to this transmission fixture block 2011 ", use for this transmission fixture block 2011 " engagement actively.Driven shaft 123 " be arranged at this couple axle 121 " and this driving shaft 111 " between, it arranges a driven draw-in groove 1231 ", in order to transmission fixture block 2011 " engagement actively.By this kind of kenel, can reach and improve driven pedrail 20 " degree of fixation in advancing.

Again, refer to Figure 16 to Figure 18, it is the embodiment of another feeding distribution mechanism (need chat in advance bright: because its driven pedrail A20 stereogram and aforesaid each embodiment after being combined with driver module A10 is similar, therefore separately draw stereogram after combination).The feeding distribution mechanism of the present embodiment comprises driver module A10 and driven pedrail A20, and this driver module A10 comprises a driver element A11, a linkage unit A12, an asessory shaft A13 and a gear train A14.Asessory shaft A13 is parallel between this driver element A11 and this linkage unit A12, this gear train A14 is linked to drive unit A30, this driver element A11, this asessory shaft A13 and this linkage unit A12, uses the power of this drive unit A30 is passed to this asessory shaft A13 and this linkage unit A12 via this gear train A14; Separately, this driver element A11 and this linkage unit A12 are column gear, this driven pedrail A20 inner side is provided with the projection A201 that can mesh with this driver element A11 and this linkage unit A12, driven pedrail A20 is around sheathed driver element A11, linkage unit A12 interlock with it, the outer surface compartment of terrain of driven pedrail A20 is provided with several dividing plate A21, make each self-forming one material placing area between each dividing plate A21, and those dividing plates A21 is arranged at the normal direction of the outer surface of this driven pedrail A20.The present embodiment is the setting that utilizes gear train A14, make the power of drive unit A30 transmit more smooth and easy evenly, allow the operation of driven pedrail A20 rotate and be not subject to the weight of object to be carried and affect.

Separately, the charging device 2 of the various embodiments described above or mixing device 3 can be applied in animal feed feed system, and can be in the hull outside of charging device 2 or mixing device 3, the associated components such as installing camera module, deodorizing module, anion module, automatic feeding system module, interactive toy, controlled in wireless or Bluetooth loudspeaker, by this pet owner can be in calculator or handheld apparatus tele-control system or monitoring man the situation of pet, or as amusement, the use of playing music.

Only the foregoing is only preferred embodiment of the present utility model; non-ly be intended to limit to scope of patent protection of the present utility model; therefore such as use the equivalence that the utility model specification and graphic content are done to change, be all in like manner all contained within the scope of rights protection of the present utility model, close and give Chen Ming.

Claims (10)

1. a feeding distribution mechanism, is characterized in that, it comprises:

Driver module, it comprises driver element and linkage unit, and wherein, this driver element is in order to be connected with a drive unit, and is subject to its driven rotary; And

Driven pedrail, it is around sheathed this driver element and this linkage unit, and with this driver element and this linkage unit interlock, the outer surface compartment of terrain of this driven pedrail is provided with several dividing plates, make each self-forming material placing area between each dividing plate, and those dividing plates are arranged at the normal direction of the outer surface of this driven pedrail.

2. feeding distribution mechanism as claimed in claim 1, is characterized in that, the inner surface compartment of terrain of described driven pedrail is equipped with several drive lugs, and the periphery of the inner surface both sides of this driven pedrail is respectively arranged with inner edge guide rail; This driver element comprises a driving shaft and two driving wheels, the outer rim of this driving shaft is provided with dentalation, this dentalation correspondence is inserted between this drive lugs and forms and mesh, this two driving wheel is arranged at respectively the two ends of this driving shaft, and respectively the outer rim of this driving wheel is provided with driving guide groove, this drives guide groove corresponding to this inner edge guide rail of this driven pedrail; This linkage unit comprises a power transmission shaft and two drives, and this two drive is arranged at respectively the two ends of this power transmission shaft, and respectively the outer rim of this drive has a transmission guide groove, and this transmission guide groove is corresponding to this inner edge guide rail of this driven pedrail.

3. feeding distribution mechanism as claimed in claim 1, is characterized in that, the inner surface compartment of terrain of described driven pedrail arranges several drive lugs; This driver element comprises a driving shaft, and these driving shaft two ends are respectively equipped with a driving wheel, and is provided with several driving projections in this driving wheel respectively, and those drive between those drive lugs of the corresponding engagement of projections; This linkage unit comprises a couple axle and a driven shaft, and these couple axle two ends are respectively equipped with a connecting traction wheel, is provided with several linked bumps again in this connecting traction wheel respectively, between those drive lugs of the corresponding engagement of those linked bumps; This driven shaft is arranged between this couple axle and this driving shaft, in the two ends of this driven shaft, one driven pulley is set respectively; Again, an interior driving-belt is set in this driven pedrail further, this interior driving-belt comprises an interior driving-belt piece and an interior driving groove, and this interior driving-belt piece meshes those drive lugs; Again, this driving shaft further comprises several driving fixture blocks, and it is arranged between this two driving wheel, and engageable this interior driving groove; This couple axle further comprises several interlock fixture blocks, and engageable this interior driving groove.

4. feeding distribution mechanism as claimed in claim 1, is characterized in that, the inner surface compartment of terrain of described driven pedrail is equipped with several drive lugs, and on each drive lugs, is convexly equipped with at least one transmission fixture block; Again, in this driver element, comprise a driving shaft, this driving shaft arranges two driving wheels and and drives draw-in groove, and this two driving wheel is located at respectively the two ends of this driving shaft, and being provided with several driving projections in those driving wheels, those drive projection actively between corresponding those drive lugs of engagement; This driving draw-in groove is arranged between this two driving wheel and corresponding to this transmission fixture block, uses for this transmission fixture block engagement; This linkage unit comprises a couple axle and a driven shaft, this couple axle arranges two connecting traction wheels and an interlock draw-in groove, this two connecting traction wheel lays respectively at the two ends of this couple axle, and is provided with several linked bumps in those connecting traction wheels, between those drive lugs of the corresponding engagement of those linked bumps; This interlock draw-in groove is arranged between this two connecting traction wheel and corresponding to this transmission fixture block, uses for this transmission fixture block engagement; This driven shaft is arranged between this couple axle and this driving shaft, and driven draw-in groove is set, and uses for this transmission fixture block and meshes actively.

5. feeding distribution mechanism as claimed in claim 1, it is characterized in that, described driver module further comprises asessory shaft and gear train, this asessory shaft is parallel between this driver element and this linkage unit, again, this gear train is linked to this drive unit, this driver element, this asessory shaft and this linkage unit, uses the power of this drive unit is passed to this asessory shaft and this linkage unit via this gear train; Separately, this driver element and this linkage unit are column gear, and this driven pedrail inner side is provided with the projection with this driver element and the engagement of this linkage unit.

6. a charging device, it is characterized in that, it comprises feeding distribution mechanism claimed in claim 1, housing and control module, this feeding distribution mechanism is arranged at this enclosure interior, and respectively the height of this dividing plate is less than the inwall of this housing and the shortest spacing of this driven pedrail outer surface, this housing comprises charging aperture and discharging opening, and this charging aperture correspondence is arranged at the top of this driven pedrail outer surface; This discharging opening correspondence is arranged at the below of this driven pedrail outer surface; This control module is electrically connected at this feeding distribution mechanism, in order to control this driver module.

7. charging device as claimed in claim 6, it is characterized in that, described device more comprises material storage tube and discharging guiding channel, wherein, one end of this material storage tube is connected in this charging aperture of this housing, and one end of this discharging guiding channel is connected in this discharging opening of this housing.

8. charging device as claimed in claim 7, is characterized in that, described discharging opening arranges inductive component, and this inductive component is connected with this control module telecommunication.

9. a mixing device, it is characterized in that, this device comprises two charging devices, batch mixing passage and a control module, this each charging device comprises respectively feeding distribution mechanism claimed in claim 1 and housing, this feeding distribution mechanism is arranged at this enclosure interior, and respectively the height of this dividing plate is less than the beeline of inwall and this driven pedrail outer surface of this housing, and this housing comprises charging aperture, discharging opening and batch mixing mouth, and this charging aperture correspondence is arranged at the top of this driven pedrail outer surface; This discharging opening correspondence is arranged at the below of this driven pedrail outer surface; This batch mixing mouth correspondence is arranged at the below of this driven pedrail outer surface, and with respect to this discharging opening, is arranged at the opposite side of this housing; This batch mixing passage has two batch mixing charging apertures and a batch mixing discharging opening, and respectively this batch mixing charging aperture correspondence is connected in respectively this batch mixing mouth of this charging device; This control module telecommunication is connected in this driver element, in order to control the rotation of this driver element.

10. mixing device as claimed in claim 9, it is characterized in that, described each charging device further comprises respectively a material storage tube and a discharging guiding channel, and one end of this material storage tube is connected in this charging aperture of this housing, and one end of this discharging guiding channel is connected in each discharging opening of this housing; Again, more further in respectively this discharging guiding channel and this batch mixing passage, one sensing unit is set respectively, and respectively this sensing unit is connected with this control module telecommunication.

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