CN101905753B - High-speed bottle-separating machine - Google Patents
High-speed bottle-separating machine Download PDFInfo
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- CN101905753B CN101905753B CN2010102667257A CN201010266725A CN101905753B CN 101905753 B CN101905753 B CN 101905753B CN 2010102667257 A CN2010102667257 A CN 2010102667257A CN 201010266725 A CN201010266725 A CN 201010266725A CN 101905753 B CN101905753 B CN 101905753B
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Abstract
The invention discloses a high-speed bottle-separating machine which comprises a frame. The frame is internally provided with a conveyer belt, more than two fixed clapboards, a pair of guiding plates, a moving clapboard and a transversal first guide rail, wherein more than two fixed clapboards are longitudinally arranged in the frame, the guiding plates with the same conveying direction as the conveyer belts are pivoted in the frame and provided with a sliding plate sliding along the guiding plates, a swinging guiding plate is pivoted at one end of the sliding plate, the moving clapboard is arranged in the frame, the first guide rail is provided with a sliding frame which is fixedly connected with the moving clapboard and provided a longitudinal second guide rail, a sliding block is glidingly arranged on the second guide rail and fixedly connected with a swinging guide plate, a first driving mechanism driving the sliding frame to move is arranged on the frame, the sliding frame is provided with a second driving mechanism for driving the sliding block to move, and the synthetic movement speed of the sliding frame and the sliding block is the same as the movement speed of the conveyer belt. The bottle-separating machine can realize continuous convey and has high bottle-separating efficiency.
Description
Technical field
The present invention relates to branch bottle machine.
Background technology
Most of bottled thing need be packed and cased dispatching from the factory before, traditional method be through manual work with in the let-in case of bottled thing, encapsulation then, this method not only efficient is low, and needs to spend a large amount of manual works.Afterwards, along with the development of mechanization with popularize, the vanning of bottled thing was also substituted by mechanization gradually, and was especially outstanding on full automatic manufacturing line especially.When bottled thing being cased, according to the row's number and the columns that can hold bottled thing in the case, in carrying out the automatic transport process, need carry out branch row and apportion, thereby the bottle machine occur dividing bottled thing through machinery.Present branch bottle machine is by framework; On framework, be provided with load-transfer device; A side that is positioned at the load-transfer device mouth in the framework is provided with stationary barrier; Be used for the bottled thing that conveying is come is divided into needed row's number, a side that in framework, is positioned at the load-transfer device input end is provided with the clamping plate of cross motion, is used for bottled thing is transported in the dividing plate according to needed columns.Though this branch bottle machine can be realized branch row and apportion and carry, owing to dividing plate is fixed, when bottled thing is transported between the clamping plate; Front end at clamping plate need block the columns of bottled thing to confirm to carry, and after the columns of bottled thing is confirmed, is transported between the stationary barrier to confirm row's number again; Promptly; Can not realize continuous conveying, therefore, the efficient of conveying is low.
Summary of the invention
The objective of the invention is for a kind of high-speed bottle-separating machine is provided, this branch bottle machine can be realized continuous conveying, divides the efficient of bottle high.
For achieving the above object, a kind of high-speed bottle-separating machine comprises framework, is provided with load-transfer device in the framework; The mouth that is positioned at load-transfer device in the said framework is provided with the stationary barrier more than two of vertically arranging, and stationary barrier is positioned at the top of load-transfer device; Be positioned at the load-transfer device input end in the said framework and be articulated with a pair of guide plate consistent with the throughput direction of load-transfer device, said guide plate is positioned at the top of load-transfer device, and guide plate is provided with the sliding panel along guide plate slides, and an end of sliding panel is articulated with swing guide; Between swing guide and stationary barrier, be provided with the stationary barrier relative active clapboard identical in the described framework with stationary barrier quantity; The top that is positioned at framework in the described framework is provided with the first horizontal guide rail; First guide rail is provided with sliding rack, and sliding rack is captiveed joint with active clapboard, and sliding rack is provided with second guide rail longitudinally; That slides on second guide rail is provided with slide block, and described slide block is captiveed joint with swing guide; Described framework is provided with first driver train that drives the sliding rack motion, and described sliding rack is provided with second driver train of driving sliding block motion; The velocity resultant of said sliding rack and slide block movement is identical with the kinematic velocity size of load-transfer device.
The principle of work of high-speed bottle-separating machine of the present invention is: bottled thing is imported between two guide plates through load-transfer device, and along with the continuous movement of load-transfer device, bottled thing is transported between two sliding panels; And through swing guide with first row bottled thing be transported between the active clapboard, with first row bottled thing be transported between the active clapboard after, under the effect of first driver train; Active clapboard moves to throughput direction, and simultaneously, swing guide is followed active clapboard and moved together; Sliding panel slides on guide plate; And swing in a longitudinal direction at the effect lower swing guide plate of second driver train, bottled thing is transported between the second series active clapboard, above-mentioned action and the like; Till bottled thing being transported to last row's active clapboard; After bottled thing was transported to active clapboard, bottled thing was transported between the stationary barrier under the effect of load-transfer device, and bottled thing is transported to outside the high-speed bottle-separating machine.High-speed bottle-separating machine of the present invention, owing to be provided with active clapboard, and swing guide is followed active clapboard motion together on throughput direction; Simultaneously, guide plate is to be articulated on the framework, and swing guide is to be articulated on the sliding panel; Longitudinal movement takes place, and the velocity resultant of sliding rack and slide block movement is identical with the kinematic velocity size of load-transfer device under the effect of second driver train; Compared with prior art, bottled thing need not be detained on load-transfer device in course of conveying; Can realize continuous conveying, therefore, the efficient of conveying is high.
As improvement; Described framework is positioned on the inwall of load-transfer device input end one side permanent seat is installed; Permanent seat is provided with first screw rod, and first screw rod is provided with two sections screw threads that rotation direction is opposite, and first screw rod is provided with two first nuts; Be fixed with first connecting panel on first nut, guide plate is articulated on first connecting panel; Described slide block is provided with second screw rod, and second screw rod is provided with two sections screw threads that rotation direction is opposite, and second screw rod is provided with two second nuts, and second screw rod is provided with two second nuts, and swing guide is fixed on second nut.
Owing to be provided with first screw rod and second screw rod; On first screw rod and second screw rod, be provided with two sections screw threads that rotation direction is opposite; When rotation first screw rod and second screw rod; Under the effect of first nut, second nut, drive guide plate, sliding panel and swing guide in opposite directions or opposite motion, to regulate relative distance between guide plate, sliding panel and the swing guide.
As improvement, described framework is provided with organic glass door.Organic glass door is set, improves the processing safety of operating personal on the one hand, can see through the conveying situation that organic glass door is observed bottled thing in the framework on the other hand.
As improvement, the cross arrangement in vertical direction of described stationary barrier and active clapboard.The phenomenon that bottle when swing guide is transported to active clapboard and stationary barrier, can not occur down like this, when bottled thing.
As improvement, described framework is provided with first guide rod, and described stationary barrier is located on first guide rod; Described sliding rack is provided with second guide rod, on second guide rod that said active clapboard is located at.First guide rod is set, stationary barrier can be on first guide rod longitudinal movement, to regulate the distance between the stationary barrier, to be applicable to the bottled things of different sizes.Second guide plate is set, active clapboard can be on second guide rod longitudinal movement, to regulate the distance between the active clapboard, to be applicable to the bottled things of different sizes.
As improvement, be provided with lock screw between the said stationary barrier and first guide rod; Be provided with lock screw between the described active clapboard and second guide rod.Lock screw is set, after the distance between the stationary barrier and the distance adjustment between the active clapboard are good, can prevents stationary barrier longitudinal movement on first guide rod, prevent active clapboard longitudinal movement on second guide plate.
Specialize as of the present invention; Described first driver train comprises first servomotor, retarder, output shaft, first belt pulley, second belt pulley, first belt; First servomotor and retarder are installed on the framework, and the input end of retarder is connected with the output shaft of first servomotor, and the mouth of retarder is connected with output shaft; First belt pulley is located on the output shaft; Second belt pulley is located on the framework, and first belt sleeve is on first belt pulley and second belt pulley, and described sliding rack is captiveed joint with first belt.The transmission process of first driver train is: first servomotor drives the output shaft rotation through retarder; Output shaft drives the rotation of first belt pulley; First belt pulley drives first belt movement through second belt pulley; First belt drives the sliding rack straight-line motion, and this transmission device is simple in structure, and cost is low.
Specialize as of the present invention; Described second driver train comprises second servomotor, the 3rd belt pulley, the 4th belt pulley and second belt; Described second servomotor is installed on the sliding rack that is positioned at slide block one side, and the 3rd belt pulley is installed on the output shaft of second servomotor, and the 4th belt pulley is installed on the sliding rack that is positioned at the slide block opposite side; Second belt sleeve is on the 3rd belt pulley and the 4th belt pulley, and described slide block is captiveed joint with second belt.The transmission process of second transmission device is: second servomotor drives the rotation of the 3rd belt pulley, and the 3rd belt pulley drives second belt movement under the effect of the 4th belt pulley, and second belt drives the slide block longitudinal movement.This transmission device is simple in structure, and cost is low.
As improvement, described stationary barrier is L shaped; Described active clapboard is L shaped.
Description of drawings
Fig. 1 is the front view of high-speed bottle-separating machine.
Fig. 2 is the cutaway view of A-A among Fig. 1.
Fig. 3 is the cutaway view of B-B among Fig. 1.
Fig. 4 is the birds-eye view of high-speed bottle-separating machine.
Fig. 5 is the front view of framework.
Fig. 6 is the cutaway view of D-D among Fig. 5.
Fig. 7 is the cutaway view of C-C among Fig. 5.
Fig. 8 is the birds-eye view of framework.
Fig. 9 is the front view of the permanent seat and first connecting panel.
Figure 10 is the front view of the permanent seat and first connecting panel.
Figure 11 is the birds-eye view of the permanent seat and first connecting panel.
Figure 12 is the front view of guide plate and sliding panel.
Figure 13 is the birds-eye view of guide plate and sliding panel.
Figure 14 is the enlarged view of E among Figure 12.
Figure 15 is the front view of slide block and swing guide.
Figure 16 is the left view of slide block and swing guide.
Figure 17 is the birds-eye view of slide plate and swing guide.
Figure 18 is the front view of stationary barrier.
Figure 19 is the left view of stationary barrier.
Figure 20 is the birds-eye view of stationary barrier.
Figure 21 is the front view of active clapboard.
Figure 22 is the left view of active clapboard.
Figure 23 is the birds-eye view of active clapboard.
Figure 24 is the front view of first driver train.
Figure 25 is the left view of first driver train.
Figure 26 is the birds-eye view of first driver train.
The specific embodiment
Below in conjunction with the accompanying drawing and the specific embodiment the present invention is further elaborated.
To shown in Figure 4, high-speed bottle-separating machine comprises framework 1 like Fig. 1.Extremely shown in Figure 8 like Fig. 5; Framework 1 is made up of frame body 101 and feet 102; Bracing frame 102 is installed in the bottom of frame body 101; The effect of feet 102 is to be used for bearer frame body 101 on the one hand, and the balance that can regulate framework through adjustment feet 102 on the other hand makes frame body 101 be in horizontality.Described frame body 101 is welded by horizontal, vertical with vertical steel.Top at frame body 101 is connected with hanger 103 through screw, has hole 104 on the hanger 103, is convenient to lift high-speed bottle-separating machine.
As shown in Figure 1, load-transfer device 2 is installed in frame body 101, be used to carry bottled thing.In Fig. 1, bottled thing is carried from right to left.
In the present invention, system of axes as shown in Figure 1, directions X are laterally, and the Y direction is that vertically the Z direction is a vertical direction.
Like Fig. 4, Fig. 5, Fig. 8 to shown in Figure 11; Import near load-transfer device at frame body 101 on the inwall of an end permanent seat 3 is installed; First screw rod 4 longitudinally is installed on the permanent seat 3; On first screw rod 4, be provided with two sections screw threads that rotation direction is opposite, the both ends of first screw rod 4 are six square toes 41, on first screw rod 4, are positioned at two sections screw thread places and are provided with first nut 5.The above and below that on permanent seat 3, is positioned at first screw rod 4 is equipped with the 3rd guide rod 6; Be connected with first connecting panel 7 on first nut 4; First connecting panel is positioned at the top of load-transfer device; Rotate first screw rod, 4, two first connecting panels can along the 3rd guide rod 6 axial in opposite directions or reverse motions, to regulate the distance between two first connecting panels.Shown in figure 11, in the right part of first connecting panel 7 rubber block 8 is installed, the bottled thing and the first connecting panel generation rigid impact when preventing to be input on the load-transfer device because of bottled thing.
As shown in Figure 4, be articulated with guide plate 9 in the left part of first connecting panel 7.Like Figure 12 and shown in Figure 14, two guide plate medial surfaces are provided with cross slide way 901, and sliding on the cross slide way 901 is provided with sliding panel 10, and an end stretches out guide plate 9.
, be positioned at frame body 101 stationary barrier more than two 12 that first guide rod, 11, the first guide rods 11 longitudinally are provided with vertical arrangement is installed on the inwall of load-transfer device mouth to shown in Figure 20 like Fig. 1, Fig. 8; Stationary barrier 12 is positioned at the top of load-transfer device, between the stationary barrier 12 and first guide rod, is provided with lock screw 13, when needs vertically move stationary barrier; Unclamp lock screw, like this, just can regulate the distance between the stationary barrier; To adapt to the bottled thing of different sizes; After the distance adjustment between the stationary barrier was good, the locking lock screw prevented moving of stationary barrier.Show that like Figure 18 stationary barrier is made up of vertical plate and transverse plate, transverse plate has directional tagging, and vertical plate in the stationary barrier 12 and transverse plate constitute L shaped.
Like Fig. 1, Fig. 3 and shown in Figure 4, be provided with the first horizontal guide rail 14 on the top of frame body 101, that on first guide rail 14, slides is provided with sliding rack 15, on frame body 101, is provided with first driver train that drives the sliding rack cross motion.Like Fig. 4, Figure 24 to shown in Figure 26; Described first driver train comprises first servomotor 1601, retarder 1602, output shaft 1603, the first belt pulley (not shown), the second belt pulley (not shown), the first belt (not shown), coupler 1607, the first belt pulley S. A. (not shown), the second belt pulley S. A. (not shown); First servomotor 1601 is installed on the frame body 101 with retarder 1602; The input end of retarder 1602 is connected with the output shaft of first servomotor 1061; The mouth of retarder 1602 is connected with output shaft 1603; On frame body 101, first belt pulley is installed on the first belt pulley S. A. the first belt pulley S. A. through bearing installation, and described output shaft is connected with the first belt pulley S. A. through coupler 1607; The second belt pulley S. A. passes through bearing installation on frame body 101; Second belt pulley is installed on the second belt pulley S. A., and first belt sleeve is on first belt pulley and second belt pulley, and described sliding rack 15 is captiveed joint with first belt; Described first belt pulley and second belt pulley are positioned at the both sides of sliding rack 15 in a lateral direction.
The transmission process of first driver train is: first servomotor 1601 drives output shaft 1603 rotations through retarder 1602; Output shaft 1630 drives the rotation of the first belt pulley S. A. through coupler 1607; The first belt pulley S. A. drives the rotation of first belt pulley, and first belt pulley drives first belt movement through second belt pulley, and first belt drives the horizontal straight-line motion of sliding rack; During the sliding rack motion, sliding rack also drives the slide block cross motion.
To shown in Figure 17, on sliding rack 15, has the slide block 18 that second guide rail, 17, the second guide rails 17 longitudinally are provided with slip like Fig. 4, Figure 15; On sliding rack 15, be provided with second driver train of driving sliding block 18 motions; Described second driver train comprises second servomotor 19, retarder 20, the 3rd belt pulley S. A. (not shown), the 3rd belt pulley (not shown), the 4th belt pulley S. A. (not shown), the 4th belt pulley (not shown) and the second belt (not shown); Second servomotor 19 is installed on the sliding rack that is positioned at slide block one side; Retarder 20 is connected on the output shaft of second servomotor 19; On sliding rack, the 3rd belt pulley is installed on the 3rd belt pulley S. A. the 3rd belt pulley S. A. through bearing installation, and the 3rd belt pulley S. A. is connected through coupler with the mouth of retarder 20; The 4th belt pulley S. A. through bearing installation on the sliding rack that is positioned at the slide block opposite side; The 4th belt pulley is installed on the 4th belt pulley S. A., and second belt sleeve is on the 3rd belt pulley and the 4th belt pulley, and described slide block is captiveed joint with second belt.
The transmission process of second transmission device is: second servomotor 19 drives the rotation of the 3rd belt pulley S. A. through retarder 20; The 3rd belt pulley S. A. drives the rotation of the 3rd belt pulley; The 3rd belt pulley drives second belt movement under the effect of the 4th belt pulley, second belt drives the slide block longitudinal movement.
Like Fig. 1, Figure 15 to shown in Figure 17; Second screw rod 21 longitudinally is installed on the slide block 18; On second screw rod 21, be provided with two sections screw threads that rotation direction is opposite, the both ends of second screw rod 21 are six square toes 211, on second screw rod 21, are positioned at two sections screw thread places and are provided with second nut 22.The above and below that on slide block 18, is positioned at second screw rod 21 is equipped with the 4th guide rod 23; On second nut 22, be fixed with swing guide 24; Described swing guide 24 right-hand members and sliding panel are articulated, rotate first screw rod, second screw rod, 21, two swing guides can along the 4th guide rod 23 axial in opposite directions or reverse motions; First connecting panel along the 3rd guide rod shaft in opposite directions or reverse motions, to regulate the distance between two guide plates, two sliding panels and two swing guides.
To shown in Figure 23, on sliding rack 15, being provided with longitudinally, second guide rod, 25, the second guide rods 25 are provided with the corresponding active clapboard 26 of identical lengthwise position with stationary barrier quantity like Fig. 1, Figure 21; Active clapboard between stationary barrier and swing guide, is provided with lock screw 13, when needs vertically move active clapboard in a lateral direction between the active clapboard and second guide rod; Unclamp lock screw, like this, just can regulate the distance between the stationary barrier; To adapt to the bottled thing of different sizes; After the distance adjustment between the active clapboard was good, the locking lock screw prevented moving of active clapboard.Shown in figure 21, active clapboard is made up of vertical plate and transverse plate, and transverse plate has directional tagging, and vertical plate in the active clapboard and transverse plate constitute L shaped.
As shown in Figure 1, transverse plate in the stationary barrier and the cross arrangement in vertical direction of the transverse plate in the active clapboard.
The principle of work of high-speed bottle-separating machine of the present invention is: bottled thing is imported between two guide plates through first connecting panel through load-transfer device, and along with the continuous movement of load-transfer device, bottled thing is transported between two sliding panels; And through swing guide with first row bottled thing be transported between the active clapboard, with first row bottled thing be transported between the active clapboard after, under the effect of first driver train; Active clapboard moves to throughput direction, and simultaneously, swing guide is followed active clapboard and moved together; Sliding panel slides on guide plate; And swing in a longitudinal direction at the effect lower swing guide plate of second driver train, bottled thing is transported between the second series active clapboard, above-mentioned action and the like; Till bottled thing being transported to last row's active clapboard; After bottled thing was transported to active clapboard, bottled thing was transported between the stationary barrier under the effect of load-transfer device, and bottled thing is transported to outside the high-speed bottle-separating machine.High-speed bottle-separating machine of the present invention, owing to be provided with active clapboard, and swing guide is followed active clapboard motion together on throughput direction; Simultaneously, guide plate is to be articulated on the framework, and swing guide is to be articulated on the sliding panel; Longitudinal movement takes place, and the velocity resultant of sliding rack and slide block movement is identical with the kinematic velocity size of load-transfer device under the effect of second driver train; Compared with prior art, bottled thing need not be detained on load-transfer device in course of conveying; Can realize continuous conveying, therefore, the efficient of conveying is high.
Claims (9)
1. a high-speed bottle-separating machine comprises framework, is provided with load-transfer device in the framework; It is characterized in that: the mouth that is positioned at load-transfer device in the said framework is provided with the stationary barrier more than two of vertically arranging, and stationary barrier is positioned at the top of load-transfer device; Be positioned at the load-transfer device input end in the said framework and be articulated with a pair of guide plate consistent with the throughput direction of load-transfer device, said guide plate is positioned at the top of load-transfer device, and guide plate is provided with the sliding panel along guide plate slides, and an end of sliding panel is articulated with swing guide; Between swing guide and stationary barrier, be provided with the stationary barrier relative active clapboard identical in the described framework with stationary barrier quantity; The top that is positioned at framework in the described framework is provided with the first horizontal guide rail; First guide rail is provided with sliding rack, and sliding rack is captiveed joint with active clapboard, and sliding rack is provided with second guide rail longitudinally; That slides on second guide rail is provided with slide block, and described slide block is captiveed joint with swing guide; Described framework is provided with first driver train that drives the sliding rack motion, and described sliding rack is provided with second driver train of driving sliding block motion; The velocity resultant of said sliding rack and slide block movement is identical with the kinematic velocity size of load-transfer device.
2. high-speed bottle-separating machine according to claim 1; Described framework is positioned on the inwall of load-transfer device input end one side permanent seat is installed; Permanent seat is provided with first screw rod, and first screw rod is provided with two sections screw threads that rotation direction is opposite, and first screw rod is provided with two first nuts; Be fixed with first connecting panel on first nut, guide plate is articulated on first connecting panel; Described slide block is provided with second screw rod, and second screw rod is provided with two sections screw threads that rotation direction is opposite, and second screw rod is provided with two second nuts, and swing guide is fixed on second nut.
3. high-speed bottle-separating machine according to claim 1 is characterized in that: described framework is provided with organic glass door.
4. high-speed bottle-separating machine according to claim 1 is characterized in that: the cross arrangement in vertical direction of described stationary barrier and active clapboard.
5. high-speed bottle-separating machine according to claim 1 is characterized in that: described framework is provided with first guide rod, and described stationary barrier is located on first guide rod; Described sliding rack is provided with second guide rod, and said active clapboard is located on second guide rod.
6. high-speed bottle-separating machine according to claim 5 is characterized in that: be provided with lock screw between the said stationary barrier and first guide rod; Be provided with lock screw between the described active clapboard and second guide rod.
7. high-speed bottle-separating machine according to claim 1; It is characterized in that: described first driver train comprises first servomotor, retarder, output shaft, first belt pulley, second belt pulley, first belt; First servomotor and retarder are installed on the framework, and the input end of retarder is connected with the output shaft of first servomotor, and the mouth of retarder is connected with output shaft; First belt pulley is located on the output shaft; Second belt pulley is located on the framework, and first belt sleeve is on first belt pulley and second belt pulley, and described sliding rack is captiveed joint with first belt.
8. high-speed bottle-separating machine according to claim 1; It is characterized in that: described second driver train comprises second servomotor, the 3rd belt pulley, the 4th belt pulley and second belt; Described second servomotor is installed on the sliding rack that is positioned at slide block one side; The 3rd belt pulley is installed on the output shaft of second servomotor; The 4th belt pulley is installed on the sliding rack that is positioned at the slide block opposite side, and second belt sleeve is on the 3rd belt pulley and the 4th belt pulley, and described slide block is captiveed joint with second belt.
9. high-speed bottle-separating machine according to claim 1 is characterized in that: described stationary barrier is L shaped; Described active clapboard is L shaped.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010102667257A CN101905753B (en) | 2010-08-31 | 2010-08-31 | High-speed bottle-separating machine |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN2010102667257A CN101905753B (en) | 2010-08-31 | 2010-08-31 | High-speed bottle-separating machine |
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| Publication Number | Publication Date |
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| CN101905753A CN101905753A (en) | 2010-12-08 |
| CN101905753B true CN101905753B (en) | 2012-01-18 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN2010102667257A Expired - Fee Related CN101905753B (en) | 2010-08-31 | 2010-08-31 | High-speed bottle-separating machine |
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Families Citing this family (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN104118595A (en) * | 2014-07-21 | 2014-10-29 | 江苏新美星包装机械股份有限公司 | Bottle separating device on conveying platform |
| CN106742189A (en) * | 2016-12-13 | 2017-05-31 | 天津华帅科技股份有限公司 | Vanning machine equipment send bottle |
Citations (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US3872647A (en) * | 1973-03-22 | 1975-03-25 | Marinus J M Langen | Carton loader |
| EP1382532A1 (en) * | 2002-07-18 | 2004-01-21 | AETNA GROUP S.p.A. | A device for separating continuously fed products into groups |
| CN2719721Y (en) * | 2004-08-13 | 2005-08-24 | 山东瑞阳制药有限公司 | Bottle distributing mechanism of powder injection vial automatic packing machine |
| CN2931301Y (en) * | 2006-05-16 | 2007-08-08 | 江阴纳尔捷包装设备有限公司 | Bottle collecting device for bottles packing device |
| CN200985100Y (en) * | 2006-05-23 | 2007-12-05 | 广州市万世德包装机械有限公司 | Bottle dividing mechanism |
| CN201089647Y (en) * | 2007-09-30 | 2008-07-23 | 汕头市粤东机械厂有限公司 | Bottle-distributing device for filling packing machine |
| CN201512118U (en) * | 2009-10-13 | 2010-06-23 | 周飞 | Multifunctional packing bottle distribution machine |
-
2010
- 2010-08-31 CN CN2010102667257A patent/CN101905753B/en not_active Expired - Fee Related
Patent Citations (7)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US3872647A (en) * | 1973-03-22 | 1975-03-25 | Marinus J M Langen | Carton loader |
| EP1382532A1 (en) * | 2002-07-18 | 2004-01-21 | AETNA GROUP S.p.A. | A device for separating continuously fed products into groups |
| CN2719721Y (en) * | 2004-08-13 | 2005-08-24 | 山东瑞阳制药有限公司 | Bottle distributing mechanism of powder injection vial automatic packing machine |
| CN2931301Y (en) * | 2006-05-16 | 2007-08-08 | 江阴纳尔捷包装设备有限公司 | Bottle collecting device for bottles packing device |
| CN200985100Y (en) * | 2006-05-23 | 2007-12-05 | 广州市万世德包装机械有限公司 | Bottle dividing mechanism |
| CN201089647Y (en) * | 2007-09-30 | 2008-07-23 | 汕头市粤东机械厂有限公司 | Bottle-distributing device for filling packing machine |
| CN201512118U (en) * | 2009-10-13 | 2010-06-23 | 周飞 | Multifunctional packing bottle distribution machine |
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| CN101905753A (en) | 2010-12-08 |
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Address after: 510800, Huaxing Road, Huaxing Industrial Zone, Xinhua Street, Huadu District, Guangdong, Guangzhou, 3 Patentee after: GUANGZHOU VANTA INTELLIGENT EQUIPMENT TECHNOLOGY CO., LTD. Address before: 510800, Huaxing Road, Huaxing Industrial Zone, Xinhua Street, Huadu District, Guangdong, Guangzhou, 3 Patentee before: Guangzhou Wanshide Packing Machinery Co., Ltd. |
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