CN203681916U - Intermittent driving continuous bottle separating mechanism - Google Patents
Intermittent driving continuous bottle separating mechanism Download PDFInfo
- Publication number
- CN203681916U CN203681916U CN201320807935.1U CN201320807935U CN203681916U CN 203681916 U CN203681916 U CN 203681916U CN 201320807935 U CN201320807935 U CN 201320807935U CN 203681916 U CN203681916 U CN 203681916U
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- bottle
- backstand
- driving
- driving chain
- swivel base
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Abstract
The utility model discloses an intermittent drive continuous bottle separating mechanism, which comprises a rack, as well as two sets of transmission mechanisms and bottle separating claw components all arranged on the rack, wherein the transmission mechanisms comprise transmission chains; the bottle separating claw components consist of cramp bars and bottle separating claws arranged on the cramp bars; connecting components are arranged on the transmission chains and comprise a rotary base and a connecting rod, and the rotary base is hinged to the transmission chains; one end of the connecting rod is hinged to the rotary base, and the other end of the connecting rod is hinged to the transmission chains; and the cramp bars are arranged on the rotary base. The intermittent driving continuous bottle separating mechanism has the benefits that movement of the bottle separating claws is more smooth and steady, bottle separation is more reliable and failure rate of bottle separation is low; besides, the transmission mechanisms work intermittently, so that bottles continuously transmitted can be separated at a specified time interval according to the packing requirements.
Description
Technical field
The utility model relates to wrapping machine, especially the bottle distributing mechanism in wrapping machine.
Background technology
Wrapping machine is that bottled article or box-packed thing or bagged articles are transported to and are carried on the cardboard of coming, and by folding cardboard encapsulation, makes bottled article or box-packed thing or bagged articles automatically be encased in the equipment in the carton being formed by cardboard.
In the past, be encased in carton bottled article or box-packed thing or bagged articles by artificial realization, and this method not only needs a large amount of manpowers, and efficiency is low.
In order to improve boxing efficiency, most of wrapping machine that adopts automation is realized vanning now.
Existing packing machine is mainly by active conveying bottle bottle separating device, cardboard feedway, folded package installation composition, wherein, the bottled article that active conveying bottle bottle separating device is responsible for conveying to come is fed forward and requires bottled article to divide into groups according to vanning, cardboard feedway is responsible for cardboard to transfer out, and folded package device gets up folding cardboard.Existing active conveying bottle bottle separating device can divide into groups preferably to bottled article, as at application number being discloses a kind of Multifunctional packing bottle distribution machine in the 200920197500.3 Granted publication days patent documentation that is 2009.10.13, and specifically disclose it and comprise the bottle conveying device that is located in frame, bottle registration device and bottle apparatus for grouping, wherein a bottle apparatus for grouping is made up of two sub-bottle drive motor, sub-bottle guide rail, two component bottle driving chains and shifting fork bar assembly.Two sub-bottle drive motor drive respectively two component bottle driving chain motions by two transmission shafts, on two component bottle driving chains, be respectively equipped with the shifting fork bar assembly at interval, after glass bottle is transported on bottle apparatus for grouping, the shifting fork bar assembly before and after utilizing is isolated grouping to glass bottle.Although this structure can realize sub-bottle, the bumpy motion of this shifting fork bar assembly, smooth-going, makes sub-bottle action unreliable, and fault rate is high.
Summary of the invention
For solving the problems of the technologies described above, the utility model provides a kind of continuous bottle distributing mechanism of intermittently-driving.
The technical scheme solving the problems of the technologies described above is: a kind of continuous bottle distributing mechanism of intermittently-driving, and comprise frame and be located at two groups of transmission devices and the two component bottle claw assemblies in frame, transmission device comprises driving chain; Sub-bottle claw assembly comprises cramp bar and is located at the sub-bottle pawl on cramp bar; On driving chain, be provided with coupling assembling, described coupling assembling comprises swivel base and connecting rod, and described swivel base is hinged on driving chain, and one end of connecting rod is hinged on swivel base, and the other end of connecting rod is hinged on driving chain, and described cramp bar is located on swivel base.
Said structure, owing to being provided with the connecting rod assembly being formed by swivel base and connecting rod, and the other end of swivel base and connecting rod is hinged on respectively on driving chain, one end of connecting rod is hinged on swivel base, cramp bar is located on swivel base, therefore, in the time that transmission device is worked, when the motion of sub-bottle pawl, form a track, this track is by the first external arc of below that is positioned at driving chain, be positioned at left side second external arc tangent with the first external arc on the lower side of driving chain, be arranged in the driving chain left side circular arc tangent with the second external arc partially, be positioned at driving chain left side the first upwardly extending and tangent with circular arc linear portion on the upper side, be positioned at driving chain top three external arc tangent with the first linear portion, be positioned at messenger chain top second linear portion tangent with the 3rd external arc, be positioned at the upper right side of messenger chain and all round circular arc tangent with the second linear portion, be positioned at messenger chain the right and with the tangent the second circular arc of circular arc all round, be positioned at messenger chain lower right and the three linear portion composition tangent with the second circular arc, the 3rd linear portion is connected with the first external arc, this track makes the motion of sub-bottle pawl steady, smooth-going, make sub-bottle action more reliable, the failure rate is low of sub-bottle.In addition, two groups of transmission device intermittent uses, like this, can make the continuous bottle of carrying be separated with the interval time of regulation according to the requirement of vanning.
Further, described swivel base is provided with connecting arm, and described connecting arm comprises the first connecting portion of being connected on swivel base, be connected to the U-shaped connecting portion on the first connecting portion and be connected to the supporting part of U-shaped connecting portion.The connecting arm of this structure, utilize space in U-shaped connecting portion as dodging district, can make connecting arm be connected with cramp bar across excessively adjacent driving chain, the motion that two driving chains can not interfered mutually, and can guarantee that again coupling assembling is not subject to the interference of driving chain.
Further, chain stretching device is installed in frame, chain stretching device comprises backstand, tensioning block, position-limited lever and spring; Described backstand is fixed in frame, is provided with perforation on backstand, is provided with and the spacing hole coaxial and that communicate of boring a hole on backstand; The upper end of described position-limited lever has spacing head, bores a hole and stretch out backstand in the lower end of position-limited lever; Tensioning block is connected to the lower end of position-limited lever, and tensioning block contacts with driving chain; Spring is located between backstand and tensioning block.The chain stretching device of this structure, under the effect of spring, can make tensioning block be positioned at all the time driving chain one tensile force, thereby guarantees the reliability of driving chain motion.
Further, on backstand, be provided with the first accommodating hole, in tensioning block, be provided with the second accommodating hole, on backstand, be provided with the bolt hole communicating with the first accommodating hole, bolt hole is provided with one end and reaches the bolt in the first accommodating hole, in the first accommodating hole, is provided with spring perch, one end of bolt contacts with spring perch, the upper end of spring is located in the first accommodating hole, and contacts with spring perch, and the lower end of spring is located in the second accommodating hole.This structure, by adjusting bolt, the position of adjustable springs seat in the first accommodating hole, thus reach the effect of regulating spring elastic force, utilize this structure tension adjusting, method is simple, quick.
Further, described transmission device comprises servomotor, transmission shaft, drive sprocket, driven sprocket and described driving chain, servomotor is arranged in frame, transmission shaft is arranged in frame by bearing, drive sprocket is installed on transmission shaft, being located on the transmission shaft on another group transmission device of driven sprocket activity, driving chain is located between drive sprocket and driven sprocket.Utilize transmission shaft on the transmission device installation shaft as another group transmission device driven sprocket, can simplified structure, reduce the volume of bottle distributing mechanism.
Accompanying drawing explanation
Fig. 1 is the continuous bottle distributing mechanism schematic perspective view of intermittently-driving.
Fig. 2 is the downward structural representation of continuous bottle distributing mechanism of intermittently-driving.
Fig. 3 is the continuous sub-bottle mechanism side face structural representation of intermittently-driving.
Fig. 4 is the structural representation of coupling assembling.
Fig. 5 is the constitution diagram of sub-bottle.
Fig. 6 is the enlarged drawing of A in Fig. 1.
The specific embodiment
Below in conjunction with the drawings and specific embodiments, the utility model is further elaborated.
As shown in Figure 1 to Figure 3, the continuous bottle distributing mechanism of intermittently-driving comprises frame 1, two groups of transmission devices, coupling assembling and sub-bottle claw assemblies.
Described transmission device comprises the first transmission device and the second transmission device.
The first transmission device comprises the first servomotor 211, the first transmission shaft 212, the first drive sprocket 213, the first driven sprocket 214 and the first driving chain 215, the first servomotor 211 is arranged in frame 1, the first transmission shaft 212 is arranged in frame 1 by bearing, the first drive sprocket 213 is installed on the first transmission shaft 211, being located on the second driving shaft on the second transmission device of the first driven sprocket 214 activities, the first driving chain 215 is located between the first drive sprocket 213 and the first driven sprocket 214; Described the first drive sprocket 213, the first driven sprocket 214 and the first driving chain 215 are respectively one group of Transmission, and in the present embodiment, Transmission has comprised two groups.When the first servomotor 211 is worked, the first servomotor 211 drives the first transmission shaft 212 to rotate, and the first transmission shaft 212 drives the first drive sprocket 213 to rotate, and the first drive sprocket 213 drives the first driving chain 215 to move.
The second transmission device comprises the second servomotor 221, second driving shaft 222, the second drive sprocket 223, the second driven sprocket 224 and the second driving chain 225, the second servomotor 221 is arranged in frame 1, second driving shaft 222 is arranged in frame 1 by bearing, the second drive sprocket 223 is installed on second driving shaft 221, being located on the second driving shaft on the first transmission device of the second driven sprocket 224 activities, the second driving chain 225 is located between the second drive sprocket 223 and the second driven sprocket 224; Described the second drive sprocket 223, the second driven sprocket 224 and the second driving chain 225 are respectively one group of Transmission, and in the present embodiment, Transmission has comprised two groups.When the second servomotor 221 is worked, the second servomotor 221 drives second driving shaft 222 to rotate, and second driving shaft 222 drives the second drive sprocket 223 to rotate, and the second drive sprocket 223 drives the second driving chain 225 to move.
As shown in Figure 1 to Figure 3, one group of Transmission of the first transmission device is positioned at the outside of one group of Transmission of the second transmission device, and another group Transmission of the first transmission device is positioned at the inner side of another group Transmission of the second transmission device.
As shown in Figure 5, described coupling assembling comprises swivel base 31 and connecting rod 32, and described swivel base 31 is hinged on driving chain, and one end of connecting rod 32 is hinged on swivel base 31, and the other end of connecting rod 32 is hinged on driving chain.
As shown in Figure 1 and Figure 2 and Figure 5, on the first driving chain corresponding to two groups of Transmissions of the first transmission device, be separately installed with described coupling assembling, and because one group of transmission component is wherein positioned at outside, therefore, on the swivel base of organizing therewith coupling assembling connection, be provided with connecting arm, described connecting arm comprises the first connecting portion 331 being connected on swivel base, be connected to the U-shaped connecting portion 332 on the first connecting portion and be connected to the supporting part 333 of U-shaped connecting portion, described U-shaped connecting portion 332 has U-lag, therefore, can avoid the second transmission device and make supporting part 333 be positioned at the second transmission device inner side, be convenient to connect cramp bar.
On the second driving chain corresponding to two groups of Transmissions of the second transmission device, be separately installed with described coupling assembling, and because one group of transmission component is wherein positioned at outside, therefore, on the swivel base of organizing therewith coupling assembling connection, be provided with connecting arm, described connecting arm comprises the first connecting portion 331 being connected on swivel base, be connected to the U-shaped connecting portion 332 on the first connecting portion and be connected to the supporting part 333 of U-shaped connecting portion, described U-shaped connecting portion 332 has U-lag, therefore, can avoid the second transmission device and make supporting part 333 be positioned at the second transmission device inner side, be convenient to connect cramp bar.
As shown in Figure 1, sub-bottle claw assembly comprises cramp bar 41 and is arranged on the sub-bottle pawl 42 on supporting book, on each group transmission device, a sub-bottle claw assembly is installed.One end of cramp bar is connected with swivel base, and the other end of cramp bar is connected with supporting part.
As shown in Figure 1 and Figure 4, in frame 1, chain stretching device is installed, chain stretching device comprises backstand 51, tensioning block 52, position-limited lever 53 and spring 54.Described backstand 51 is fixed in frame 1, is provided with perforation 511 on backstand 51, is provided with and the spacing hole 512 coaxial and that communicate of boring a hole on backstand 51; On backstand 51, be provided with the first accommodating hole 513, on backstand 51, be provided with the bolt hole 514 communicating with the first accommodating hole 513; Bolt hole 514 is provided with one end and reaches the bolt 55 in the first accommodating hole, in the first accommodating hole 513, is provided with spring perch 56, and one end of bolt contacts with spring perch.Tensioning block 52 is provided with the second accommodating hole.The upper end of described position-limited lever has spacing head, bores a hole and stretch out backstand 51 in the lower end of position-limited lever; Tensioning block 52 is connected to the lower end of position-limited lever, and tensioning block 52 contacts with driving chain; The upper end of spring 54 is located in the first accommodating hole 513, and contacts with spring perch 56, and the lower end of spring 54 is located in the second accommodating hole.
As shown in Figure 5, when the first servomotor 211 and the second servomotor 212 are worked, the first driving chain and the second driving chain can independently drive respectively corresponding sub-bottle claw assembly motion.By a coupling assembling is set, the path of motion of sub-bottle pawl 42 as shown in Figure 5, this track is by the first external arc 61 of below that is positioned at driving chain, be positioned at left side second external arc 62 tangent with the first external arc on the lower side of driving chain, be arranged in the driving chain left side circular arc 63 tangent with the second external arc partially, be positioned at driving chain left side the first upwardly extending and tangent with circular arc linear portion 64 on the upper side, be positioned at driving chain top three external arc 65 tangent with the first linear portion, be positioned at messenger chain top second linear portion 66 tangent with the 3rd external arc, be positioned at the upper right side of messenger chain and all round circular arc 67 tangent with the second linear portion, be positioned at messenger chain the right and with the tangent the second circular arc 68 of circular arc all round, be positioned at messenger chain lower right and form with tangent the 3rd linear portion 69 of the second circular arc, the 3rd linear portion 69 is connected with the first external arc, this track makes the motion of sub-bottle pawl steady, smooth-going, and at the first linear portion place, sub-bottle pawl is directly inserted between two bottles, make sub-bottle action more reliable, the failure rate is low of sub-bottle.In addition, two groups of transmission device intermittent uses, like this, can make the continuous bottle of carrying be separated with the interval time of regulation according to the requirement of vanning.
In addition, tensioning block 52, under the effect of spring 54, can make tensioning block 52 give all the time driving chain one tensile force, thereby guarantees the reliability of driving chain motion.And by adjusting bolt 55, the position of adjustable springs seat 56 in the first accommodating hole, reaches the effect of regulating spring elastic force, finally takes the effect of tension adjusting to, this control method is easy, quick.
Claims (5)
1. a continuous bottle distributing mechanism for intermittently-driving, comprises frame and is located at two groups of transmission devices and the two component bottle claw assemblies in frame, transmission device comprises driving chain; Sub-bottle claw assembly comprises cramp bar and is located at the sub-bottle pawl on cramp bar; It is characterized in that: on driving chain, be provided with coupling assembling, described coupling assembling comprises swivel base and connecting rod, and described swivel base is hinged on driving chain, and one end of connecting rod is hinged on swivel base, the other end of connecting rod is hinged on driving chain, and described cramp bar is located on swivel base.
2. the continuous bottle distributing mechanism of intermittently-driving according to claim 1, it is characterized in that: described swivel base is provided with connecting arm, described connecting arm comprises the first connecting portion of being connected on swivel base, be connected to the U-shaped connecting portion on the first connecting portion and be connected to the supporting part of U-shaped connecting portion.
3. the continuous bottle distributing mechanism of intermittently-driving according to claim 1, is characterized in that: chain stretching device is installed in frame, and chain stretching device comprises backstand, tensioning block, position-limited lever and spring; Described backstand is fixed in frame, is provided with perforation on backstand, is provided with and the spacing hole coaxial and that communicate of boring a hole on backstand; The upper end of described position-limited lever has spacing head, bores a hole and stretch out backstand in the lower end of position-limited lever; Tensioning block is connected to the lower end of position-limited lever, and tensioning block contacts with driving chain; Spring is located between backstand and tensioning block.
4. according to the continuous bottle distributing mechanism of nearly intermittently-driving claimed in claim 3, it is characterized in that: on backstand, be provided with the first accommodating hole, in tensioning block, be provided with the second accommodating hole, on backstand, be provided with the bolt hole communicating with the first accommodating hole, bolt hole is provided with one end and reaches the bolt in the first accommodating hole, in the first accommodating hole, be provided with spring perch, one end of bolt contacts with spring perch, the upper end of spring is located in the first accommodating hole, and contact with spring perch, the lower end of spring is located in the second accommodating hole.
5. the continuous bottle distributing mechanism of intermittently-driving according to claim 1, it is characterized in that: described transmission device comprises servomotor, transmission shaft, drive sprocket, driven sprocket and described driving chain, servomotor is arranged in frame, transmission shaft is arranged in frame by bearing, drive sprocket is installed on transmission shaft, being located on the transmission shaft on another group transmission device of driven sprocket activity, driving chain is located between drive sprocket and driven sprocket.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201320807935.1U CN203681916U (en) | 2013-12-11 | 2013-12-11 | Intermittent driving continuous bottle separating mechanism |
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CN201320807935.1U CN203681916U (en) | 2013-12-11 | 2013-12-11 | Intermittent driving continuous bottle separating mechanism |
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CN201320807935.1U Expired - Fee Related CN203681916U (en) | 2013-12-11 | 2013-12-11 | Intermittent driving continuous bottle separating mechanism |
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Cited By (4)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104339161A (en) * | 2014-09-11 | 2015-02-11 | 河南飞龙(芜湖)汽车零部件有限公司 | Transmission device of automatic assembling machine for brake pump piston cylinder parts |
CN105329472A (en) * | 2015-12-14 | 2016-02-17 | 广州市万世德智能装备科技有限公司 | Bottle separating mechanism of film covering machine |
CN108357709A (en) * | 2018-04-25 | 2018-08-03 | 濮阳市鲁蒙玻璃制品有限公司 | Ampoule bottle packet packaging transport device and its application method |
CN110539911A (en) * | 2019-08-16 | 2019-12-06 | 佛山市瀛辉包装机械设备有限公司 | High-speed full-automatic branch makes up way machine |
-
2013
- 2013-12-11 CN CN201320807935.1U patent/CN203681916U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104339161A (en) * | 2014-09-11 | 2015-02-11 | 河南飞龙(芜湖)汽车零部件有限公司 | Transmission device of automatic assembling machine for brake pump piston cylinder parts |
CN105329472A (en) * | 2015-12-14 | 2016-02-17 | 广州市万世德智能装备科技有限公司 | Bottle separating mechanism of film covering machine |
CN108357709A (en) * | 2018-04-25 | 2018-08-03 | 濮阳市鲁蒙玻璃制品有限公司 | Ampoule bottle packet packaging transport device and its application method |
CN108357709B (en) * | 2018-04-25 | 2023-12-01 | 濮阳市鲁蒙玻璃制品有限公司 | Ampoule bottle grouping, packaging and transporting device and application method thereof |
CN110539911A (en) * | 2019-08-16 | 2019-12-06 | 佛山市瀛辉包装机械设备有限公司 | High-speed full-automatic branch makes up way machine |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20140702 Termination date: 20151211 |
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EXPY | Termination of patent right or utility model |