CN203079168U - Magnet adsorbing type conveying mechanism - Google Patents
Magnet adsorbing type conveying mechanism Download PDFInfo
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- CN203079168U CN203079168U CN 201320022422 CN201320022422U CN203079168U CN 203079168 U CN203079168 U CN 203079168U CN 201320022422 CN201320022422 CN 201320022422 CN 201320022422 U CN201320022422 U CN 201320022422U CN 203079168 U CN203079168 U CN 203079168U
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- conveying
- conveying member
- magnet
- chain
- absorption type
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Abstract
The utility model relates to a conveying mechanism. A magnet adsorbing type conveying mechanism comprises a first conveying assembly and a second conveying assembly. The first conveying assembly comprises a first conveying part and a first driving structure which drives the first conveying part to rotate. The second conveying assembly comprises a second conveying part and a second driving structure which drives the second conveying part to rotate. The first conveying part and the second conveying part are arranged oppositely. The second conveying assembly further comprises a plurality of magnets which are distributed along the rotation direction of the second conveying part and rotate with the second conveying part. The first conveying part is a conveying belt which can be adsorbed by the magnets. According to the magnet adsorbing type conveying mechanism, use is convenient and a phenomenon of self abrasion of the conveying parts cannot occur. The magnet adsorbing type conveying mechanism solves the problems that an existing clamping type conveying mechanism wastes time and energy and is inconvenient to use in the process of usage and the phenomenon of self abrasion can occur so that service life of the existing clamping type conveying mechanism is shortened when objects with thin walls are conveyed.
Description
Technical field
The utility model relates to conveying mechanism, relates in particular to a kind of magnet absorption type conveying mechanism.
Background technology
Conveying mechanism is indispensable mechanism during conveyor line is produced.Wherein modal version is about to object and is placed on the load-transfer device for lifting the holder formula, finishes moving of article by object with the friction force between the load-transfer device; Or carriage is set, object is placed on the carriage, moves by the chain traction carriage and finish moving of object.Lift holder formula structure for conveying owing to rely on object deadweight effect to realize moving with generation friction force between load-transfer device or the carriage, so weight of object is when light, object can produce skidding and can not normally be carried.
For overcoming the above deficiency of lifting the defeated formula structure for conveying of holder, designed clipping conveying mechanism.The version of clipping conveying mechanism has two kinds: a kind of on conveying member (general names of load-transfer device or chain etc.) pressure roller to be set, by pressure roller object pressure is increased object with the friction force between the conveying member, the mode that this kind carries out pressure holding by pressure roller to object exists stressed discontinuous, and pressure roller has deficiencies such as obstruction to object mobile; Designed another kind of clipping conveying mechanism, promptly subtend is provided with two conveying members and some conveying member jljl contact levels that makes keep slack-free tension wheel for this reason.During use object is placed between two conveying members, clamps movement of objects by two conveying members.China Patent No. be 201020536549X, Granted publication day are Mays 4 in 2011 day, be called the clipping conveying mechanism that discloses a kind of above-mentioned second form in the patent documentation of " the sack conveying mechanism that the sack closer machine seals ".
Clipping conveying mechanism in use must just can be finished conveying function to less than the thickness of object the time with the adjust the clearance between two conveying members, otherwise object can skid between two conveying members, when the thickness of object produces change, need to adjust the gap between the conveying member, so waste time and energy during use, very inconvenient; When being used to carry the flexible article of thinner thickness such as sack, bag of cement etc., the gap between the conveying member is minimum, so can produce the phase mutual friction between the conveying member, causes shorten the service life of conveying member.
The utility model content
The utility model provides a kind of easy to use, magnet absorption type conveying mechanism that conveying member can not produce the autogenous grinding phenomenon, solved in the existing clipping conveying mechanism use waste time and energy, inconvenience and can produce the autogenous grinding phenomenon when carrying the object of thin thickness and cause the problem of the lost of life.
Above technical matters solves by following technical proposal: a kind of magnet absorption type conveying mechanism, comprise first delivery assembly and second delivery assembly, first delivery assembly comprises first conveying member and drives first drive configuration that first conveying member rotates, second delivery assembly comprises second conveying member and drives second drive configuration that second conveying member rotates, first conveying member and the second conveying member subtend are provided with, described second delivery assembly also comprises some magnet that rotate with second conveying member that distribute along the second conveying member rotation direction, the load-transfer device of described first conveying member for being adsorbed by magnet.Object is between the magnet and first conveying member in the use, by magnet the adsorption of first conveying member is fixed on object on two conveying members, thereby realizes the advanced in unison of object with conveying member.
As preferably, described second conveying member is a chain, and described magnet is connected on the chain.Convenient when changing second conveying member and magnet being installed.The area that object is squeezed the only area for the face that is squeezed with the area of magnet contact so object is little, and is little to the hurt of object.Preceence when being used to carry corrugated board or corrugated case or foamed objects is particularly evident.
As preferably, chain has two, and two chains are positioned at the two ends of the first conveying member Width.Article two, chain is positioned at the both sides of the edge of object, makes magnet by the edge that is pressed in object, not only to the good clamping effect of object, and also effective to the protection of object.
As preferably, described second drive configuration comprises that imput shaft, axial location are arranged on two drive sprockets, driven shaft and axial locations on the imput shaft adjustablely and are arranged on two driven sprockets on the imput shaft adjustablely, and two chains are arranged on two drive sprockets and two driven sprockets.Adjust the position of sprocket wheel in the use, so that can both be clamped in the edge of object when the objects of different sizes are carried, commonality is good.
As preferably, described chain comprises chain link and the chain link bearing pin that chain link is cascaded, and described chain link bearing pin is a tubulose mechanism, and described magnet passes described chain link bearing pin by bolt and is fixed on the chain.Convenient during installing/dismounting magnet.The installation of magnet can not exert an influence to the rotation of chain.
As preferably, described magnet is provided with protection department, and protection department is positioned at the outside of the annular space that chain surrounds.Reliability in the time of improving clamping.
Preferred as another, described second conveying member is a load-transfer device, and described magnet is connected on the described load-transfer device.Support effect to object is good.Planarization in the object course of conveying is good.
As preferably, described first conveying member is positioned at the below of second conveying member.Conveniently, can observe the moving state of object easily when safeguarding; Support effect to object is good, when especially object is flexible body.
Preferred as another, described first conveying member is positioned at the top of second conveying member.In use, chain needs oily, and this position relation makes the lubricated wet goods dirt on the chain can not drop on the object, can keep the object cleaning.
As preferably, described first conveying member and described second conveying member the two, one feed end exceeds another person's feed end.Convenient during charging.
The utlity model has following advantage, the mode by magnet absorption is fixed on object on the conveying member carries, and object can not skid in the course of conveying, good reliability; Need not the adjusting play to adapt to the variation in thickness of object, time saving and energy saving during use, convenient; Can not produce mutual wearing and tearing, long service life between two conveying members; First conveying member adopts to carry to bring and cooperates magnet object to be fixed stationarity and good reliability during to the object clamping.
Description of drawings
Fig. 1 is the structural representation of the utility model embodiment one.
Fig. 2 is the running condition scheme drawing of embodiment one.
Fig. 3 is the structural representation of the utility model embodiment two.
Fig. 4 is that the C of Fig. 3 is to enlarged diagram.
Fig. 5 is the structural representation of the utility model embodiment three.
Fig. 6 is the semi-sictional view enlarged diagram at the D place of Fig. 5.
Fig. 7 is the structural representation of the utility model embodiment four.
Among the figure: first delivery assembly, 1, the first conveying member 11, iron wire stratum reticulare 111, the first drive configurations 12, first imput shaft, 121, the first drive rolls, 122, the first driven shafts, 123, the first driven vollers 124, second delivery assembly, 2, the second conveying members 21, chain link pivot pin 211, chain link 212, second drive configuration, 22, the second imput shaft, 221, the second drive rolls, 222, the second driven shafts 223, second driven voller 224, drive sprocket 225, driven sprocket 226, magnet 3, bolt 4, jackscrew 5, nut 6.
The specific embodiment
Below in conjunction with accompanying drawing and embodiment the utility model is further described.
Embodiment one, and referring to Fig. 1, a kind of magnet absorption type conveying mechanism comprises first delivery assembly 1 and second delivery assembly 2.
First delivery assembly 1 comprises first conveying member 11 and first drive configuration 12.The load-transfer device that first conveying member 11 is made for silicon steel.First drive configuration 12 comprises first imput shaft 121, be connected first drive roll 122, first driven shaft 123 on first imput shaft 121 and be connected first driven voller 124 on first driven shaft 123.First conveying member 11 is installed on first drive roll 122 and first driven voller 124.
First conveying member 11 and the 21 subtend settings of second conveying member.First conveying member 11 is positioned at the top of second conveying member 21.The right-hand member of second conveying member 21 exceeds the right-hand member of first conveying member 11.
Referring to Fig. 2, during use, object 4 is shelved on the right-hand member of second conveying member 21, and makes magnet 3 be supported on the below of object 4, power is input to first driver train 12, is input to second drive configuration 22 from second imput shaft 221 from first imput shaft 121.First drive configuration 12 drive first conveying member 11 according to A among the figure to rotation, second drive configuration 22 drive second conveying member 21 according to B among the figure to rotation.Object 4 left lateral are between first conveying member 11 and second conveying member 21 time, magnet 3 be attached together with first conveying members 11 and with object 4 by being pressed on first conveying member 11.
Embodiment two, referring to Fig. 3, with the difference of embodiment one are: the right-hand justified of first conveying member 11 and second conveying member 21.The load-transfer device of first conveying member 11 for being made by nickel based alloy.
Second conveying member 21 is a chain.The loop configuration that chain constitutes for the some chain links 212 that are cascaded by chain link pivot pin 211.Chain link pivot pin 211 is a tubulose mechanism.Magnet 3 is fixed on the chain by bolt 4.
Second drive configuration 22 comprises second imput shaft 221, be connected drive sprocket 225, second driven shaft 223 on second imput shaft 221 and be connected driven sprocket 226 on second driven shaft 223.Second conveying member 21 is that chain is installed on drive sprocket 225 and the driven sprocket 226
Referring to Fig. 4, second conveying member 21 is that chain has two.Article two, chain is positioned at the two ends of the Width of first conveying member 11.Blocked by driven sprocket among the drive sprocket 225(figure accordingly and cannot see) and driven sprocket 226 all have two.Driven sprocket 226 is set on second driven shaft 223.Second driven shaft 223 is provided with the lock groove 2231 that extends vertically.Driven sprocket 226 holds out against by jackscrew 5 and is fixed in lock groove 2231 on second driven shaft 223.When unclamping jackscrew 5, can be along second driven shaft 223 move axially driven sprocket 226.Drive sprocket 225 is identical with the connection mode of second driven shaft 223 with driven sprocket 226 with the connection mode of second imput shaft 221.
Screw 4 passes chain link bearing pin 211 back attaching nuts 6, and magnet 3 is fixed on second conveying member 21 is on the chain.Magnet 3 is provided with protection department 31, and protection department 31 is positioned at the outside of the annular space that chain surrounds.
Embodiment three, and referring to Fig. 5, with the difference of embodiment two be: first delivery assembly 1 is positioned at the below of second delivery assembly 2.
Referring to Fig. 6, first conveying member 11 is knitted load-transfer device for cotton.In cotton fabric belt, be provided with iron wire stratum reticulare 111, the conveying member 11 of winning can be adsorbed by magnet 3.
Embodiment four, referring to Fig. 7, with the difference of embodiment three are: first conveying member 11 is made by Ferrite Material, and it is feed end that the right-hand member of first conveying member 11 promptly expects to hold the right-hand member that exceeds second conveying member 21.
Claims (10)
1. magnet absorption type conveying mechanism, comprise first delivery assembly and second delivery assembly, first delivery assembly comprises first conveying member and drives first drive configuration that first conveying member rotates, second delivery assembly comprises second conveying member and drives second drive configuration that second conveying member rotates, first conveying member and the second conveying member subtend are provided with, it is characterized in that, described second delivery assembly also comprises some magnet that rotate with second conveying member that distribute along the second conveying member rotation direction, the load-transfer device of described first conveying member for being adsorbed by magnet.
2. magnet absorption type conveying mechanism according to claim 1 is characterized in that described second conveying member is a chain, and described magnet is connected on the chain.
3. magnet absorption type conveying mechanism according to claim 2 is characterized in that chain has two, and two chains are positioned at the two ends of the first conveying member Width.
4. magnet absorption type conveying mechanism according to claim 3, it is characterized in that, described second drive configuration comprises that imput shaft, axial location are arranged on two drive sprockets, driven shaft and axial locations on the imput shaft adjustablely and are arranged on two driven sprockets on the imput shaft adjustablely, and two chains are arranged on two drive sprockets and two driven sprockets.
5. according to claim 2 or 3 or 4 described magnet absorption type conveying mechanisms, it is characterized in that, described chain comprises chain link and the chain link bearing pin that chain link is cascaded, and described chain link bearing pin is a tubulose mechanism, and described magnet passes described chain link bearing pin by bolt and is fixed on the chain.
6. magnet absorption type conveying mechanism according to claim 5 is characterized in that described magnet is provided with protection department, and protection department is positioned at the outside of the annular space that chain surrounds.
7. magnet absorption type conveying mechanism according to claim 1 is characterized in that described second conveying member is a load-transfer device, and described magnet is connected on the described load-transfer device.
8. according to claim 2 or 3 or 4 described magnet absorption type conveying mechanisms, it is characterized in that described first conveying member is positioned at the below of second conveying member.
9. according to claim 2 or 3 or 4 described magnet absorption type conveying mechanisms, it is characterized in that described first conveying member is positioned at the top of second conveying member.
10. according to claim 1 or 2 or 3 or 4 or 7 described magnet absorption type conveying mechanisms, it is characterized in that, described first conveying member and described second conveying member the two, one feed end exceeds another person's feed end.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN 201320022422 CN203079168U (en) | 2013-01-16 | 2013-01-16 | Magnet adsorbing type conveying mechanism |
Applications Claiming Priority (1)
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CN 201320022422 CN203079168U (en) | 2013-01-16 | 2013-01-16 | Magnet adsorbing type conveying mechanism |
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CN203079168U true CN203079168U (en) | 2013-07-24 |
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CN 201320022422 Expired - Lifetime CN203079168U (en) | 2013-01-16 | 2013-01-16 | Magnet adsorbing type conveying mechanism |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106394998A (en) * | 2016-11-09 | 2017-02-15 | 福建省闽安机械制造有限公司 | Packaging machine of quasi-circular objects |
-
2013
- 2013-01-16 CN CN 201320022422 patent/CN203079168U/en not_active Expired - Lifetime
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106394998A (en) * | 2016-11-09 | 2017-02-15 | 福建省闽安机械制造有限公司 | Packaging machine of quasi-circular objects |
CN106394998B (en) * | 2016-11-09 | 2019-04-09 | 福建省闽安机械制造有限公司 | A kind of similar round Article packaging machines |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
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CX01 | Expiry of patent term |
Granted publication date: 20130724 |