CN201304493Y - Feeding device for lathe - Google Patents

Feeding device for lathe Download PDF

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Publication number
CN201304493Y
CN201304493Y CNU2008201662517U CN200820166251U CN201304493Y CN 201304493 Y CN201304493 Y CN 201304493Y CN U2008201662517 U CNU2008201662517 U CN U2008201662517U CN 200820166251 U CN200820166251 U CN 200820166251U CN 201304493 Y CN201304493 Y CN 201304493Y
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CN
China
Prior art keywords
feeding
workpiece
lathe
pay
channel
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Expired - Lifetime
Application number
CNU2008201662517U
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Chinese (zh)
Inventor
陈云法
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陈云法
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Priority to CNU2008201662517U priority Critical patent/CN201304493Y/en
Application granted granted Critical
Publication of CN201304493Y publication Critical patent/CN201304493Y/en
Anticipated expiration legal-status Critical
Expired - Lifetime legal-status Critical Current

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Abstract

The utility model provides a feeding device for a lathe, which belongs to the technical field of machinery. The feeding device for the lathe solves the technical problems of complex structure and unstable transportation of the prior feeding device for the lathe. The feeding device for the lathe comprises a vibrating feeder and a feeding guide rail, wherein a helically-ascending feeding channel is arranged on the vibrating feeder, a feed port is formed in the lowest position of the feeding channel and positioned at the bottom part of the vibrating feeder, a discharge hole is formed in the highest position of the feeding channel, the discharge hole is connected with a feeding end of the feeding guide rail, a screening mechanism capable of enabling the work pieces to be arranged and conveyed out according to the preset arrangement state is arranged on the feeding channel, a discharging end of the feeding guide rail is communicated with the top part of a material placing pipe, the work pieces can fall into the material placing pipe, and material pushing equipment capable of pushing the work pieces to the next procedure is arranged on the material placing pipe. The feeding device for the lathe has the advantages of simple structure, accurate and stable transportation and transportation of more different work pieces, and the like.

Description

A kind of pay-off of lathe
Technical field
The utility model belongs to field of mechanical technique, relates to the pay-off of a kind of pay-off, particularly a kind of lathe.
Background technology
Present many lathes all adopt oscillating feeder to be used as the pay-off of workpiece, oscillating feeder is a kind of loose bulk, graininess and the granular material even a kind of device that is transported to the material feeding position continuously from vibrating bunker, has been widely used in the hauling operation of industries such as medicine, building materials, metallurgy, chemical industry, coal.Oscillating feeder roughly is divided into two types: a kind of is the motor vibration batcher, and another kind is an electro-vibrating feeder.Although the vibration generating arrangement of these two kinds of oscillating feeders is different, its principle is identical, and the vibrating bunker structure on the oscillating feeder is also the same substantially.
Chinese patent discloses a kind of spirality vibrating bunker (Granted publication CN2509129Y), comprise base and the cylinder side wall that is connected with base, spiral inclined-plane is set on the base, sidewall is provided with discharging opening, the peak on inclined-plane is positioned at this discharging opening place, and the inclined-plane surface of high part is provided with the blow tank of a straight-through discharging opening.
But this device is to be used for conveying syringe rubber plug, and this patent do not have screening plant, so this patent can't realize workpiece is transported to next operation by the placement state of setting, Gu this patent can't be as the pay-off of lathe.
Summary of the invention
The purpose of this utility model is at existing in prior technology the problems referred to above, provide a kind of simple in structure, carry stable accurately, workpiece can be transported to the lathe pay-off of next operation by the placement state of setting.
The purpose of this utility model can realize by following technical proposal: a kind of pay-off of lathe, involving vibrations hopper and feeding guide, described vibrating bunker is provided with spiralling feeding channel, the lowest part of feeding channel is charging aperture and is positioned at the vibrating bunker bottom, the highest point of feeding channel is a discharging opening, described discharging opening links to each other with the feed end of feeding guide, it is characterized in that, on feeding channel, be provided with and make workpiece arrange the sorting mechanism of output by the placement state of setting, the discharge end of above-mentioned feeding guide is connected with the top of putting the material pipe, above-mentioned workpiece can fall into to be put in the material pipe, is provided with the material-pulling device that workpiece can be shifted onto next operation putting material pipe place.
The pay-off of this lathe is to be used for workpiece being arranged workpiece by the placement state of setting to be transported to a manufacturing procedure.Workpiece is placed in the vibrating bunker, vibrating bunker workpiece under the vibration of vibrating device rises along the feeding channel spiral, when workpiece process sorting mechanism, workpiece will be arranged by the placement state of setting and be transported to feeding guide, the top that the discharge end of feeding guide and is put the material pipe is connected, workpiece arrives through feeding guide and puts the material pipe like this, shifts workpiece onto next process by the material-pulling device of putting material pipe place.
In the pay-off of above-mentioned lathe, described sorting mechanism comprises baffle plate that is arranged on the feeding channel top and the screen plate that is arranged on the feeding channel, and described screen plate is located between baffle plate and the discharging opening.
In the pay-off of above-mentioned lathe, the distance of described baffle plate and feeding channel is greater than the width of workpiece and less than the length of workpiece.The end that above mentioned workpiece is column and workpiece has opening, because the distance of baffle plate and feeding channel is greater than the width of workpiece and less than the length of workpiece, horizontal like this workpiece just can't fall back in the vibrating bunker once more by baffle plate, and vertical workpiece just can pass through smoothly.
In the pay-off of above-mentioned lathe, have the double wedge that several equidistantly distribute on the described screen plate, the bore of above-mentioned workpiece openings is greater than the distance between two double wedges.When downward opening workpiece by double wedge on the time because the opening bore of workpiece is greater than the distance of double wedge, workpiece can break away from feeding channel and get back in the vibrating bunker under the effect of double wedge; Double wedge on opening workpiece process screen plate up then can pass through smoothly, enters next process.
As another situation, described sorting mechanism is the screening guide rail of being located on the feeding channel and communicating with discharging opening, described screening guide rail comprises two slide rails that be arranged in parallel, is provided with workpiece is located in wherein and makes workpiece along gap that slide rail moves between two one slide rails.
Above mentioned workpiece is column and the one end is big end, and the other end is a small end, and the small end of workpiece is less than the gap between two one slide rails, and the big end of workpiece is greater than the gap between two one slide rails.When workpiece arrives the screening guide rail through feeding channel, and the screening guide rail comprises two slide rails that be arranged in parallel, is provided with workpiece is located in wherein and makes workpiece along gap that slide rail moves between two one slide rails.When workpiece arrives the screening guide rail with small end this state formerly, because the gap between two one slide rails is greater than the small end of workpiece, Gu the small end of workpiece will pass the gap between two one slide rails, and the gap between two one slide rails is less than the big end of workpiece, Gu the big end of workpiece can not pass the gap between two one slide rails; When workpiece arrived the screening guide rail with big end this state formerly, big end can't pass the gap between two one slide rails, and workpiece is got back in the vibrating bunker once more.So can only pass the gap between two one slide rails after workpiece is through the screening guide rail with small end, this state that big end is stuck between two one slide rails arrives next process.
In the pay-off of above-mentioned lathe, described feeding guide comprises two feeding rails that be arranged in parallel, forms tapping channel between two feeding rails, is provided with the governor motion that is used to regulate the discharging channel width between described two feeding rails.
In the pay-off of above-mentioned lathe, described governor motion comprises and is fixed on the feeding rail two parallel fixed heads and is located in bolt in the fixed head.Fixed head and feeding rail are fixed together in the mode of welding, and fixed head has corresponding screwed hole, has a bolt to pass screwed hole, utilizes bolt to regulate the discharging channel width.
In the pay-off of above-mentioned lathe, described material-pulling device comprises the charging ram of reciprocal translation in the horizontal direction, and an end of charging ram links to each other with cylinder, and the other end extends to puts the material pipe.Utilize the power of cylinder, make charging ram back and forth translation in the horizontal direction, when push rod is run into workpiece, just workpiece can be pushed away and put the material pipe, deliver to next process as charging ram.As long as what other the device that can finish the reciprocal translation of horizontal direction can be as this material-pulling device is a kind of.
Compared with prior art, the pay-off of this lathe has following advantage:
1, the pay-off of this lathe adopts the sorting mechanism on the vibrating bunker that workpiece is transported out by the placement state of setting, and simple in structure, conveying is stablized.
2, the workpiece after the pay-off of this lathe will screen by feeding guide is transported to next process, carries accurately stable.
3, the feeding guide of the pay-off of this lathe can be adjusted width, adapts to different workpiece, makes feeding guide can carry how different workpiece like this, has saved production cost.
Description of drawings
Fig. 1 is the external structure schematic diagram of the pay-off of this lathe.
Fig. 2 is the cutaway view of workpiece in feeding guide.
Among the figure, 1, vibrating bunker; 2, feeding guide; 21, feeding rail; 3, feeding channel; 4, discharging opening; 5, tapping channel; 6, put the material pipe; 7, baffle plate; 8, screen plate; 81, double wedge; 9, workpiece; 10 fixed heads; 11, bolt; 12, charging ram; 13, cylinder.
The specific embodiment
Below be specific embodiment of the utility model and in conjunction with the accompanying drawings, the technical solution of the utility model is further described, but the utility model be not limited to these embodiment.
Embodiment one:
As shown in the figure: the pay-off of this lathe, be to be used for making workpiece 9 arrange the device that is transported to a manufacturing procedure by the placement state of setting workpiece 9, involving vibrations hopper 1 and feeding guide 2, on vibrating bunker 1, be provided with spiralling feeding channel 3, the lowest part of feeding channel 3 is charging aperture and is positioned at vibrating bunker 1 bottom, the highest point of feeding channel 3 is a discharging opening 4, discharging opening 4 links to each other with the feed end of feeding guide 2, on tapping channel 5, be provided with and make workpiece 9 arrange the sorting mechanism of output by the placement state of setting, the discharge end of feeding guide 2 is connected with the top of putting material pipe 6, workpiece 9 can fall into to be put in the material pipe 6, is provided with the material-pulling device that workpiece 9 can be shifted onto next operation putting material pipe 6 places.
Sorting mechanism comprises baffle plate 7 that is arranged on feeding channel 3 tops and the screen plate 8 that is arranged on the feeding channel 3, screen plate 8 is located between baffle plate 7 and the discharging opening 4, the distance of baffle plate 7 and feeding channel 3 is greater than the width of workpiece 9 and less than the length of workpiece 9, to be the workpiece 9 that a column and an end have opening is placed in the vibrating bunker 1, vibrating bunker 1 workpiece 9 under the vibration of vibrating device rises along feeding channel 3 spirals, when workpiece 9 time through baffle plate 7, because the distance of baffle plate 7 and feeding channel 3 is greater than the width of workpiece 9 and less than the length of workpiece 9, horizontal like this workpiece 9 just can't fall back in the vibrating bunker 1 once more by baffle plate 7, and vertical workpiece 9 just can arrive screen plate 8 by baffle plate 7 smoothly, has the double wedge 81 that several equidistantly distribute on the screen plate 8, because the bore of workpiece 9 openings is greater than the distance between two double wedges 81, when downward opening like this workpiece 9 passed through on the double wedge 81, workpiece 9 can break away from feeding channel 3 and get back in the vibrating bunker 1 under the effect of double wedge 81; Double wedge 81 on opening workpiece 9 process screen plates 8 up then can pass through smoothly, and the discharging opening 4 of process vibrating bunker 1 enters into feeding guide 2.
Feeding guide 2 comprises two feeding rails 21 that be arranged in parallel, between two feeding rails 21, form tapping channel 5, between two feeding rails 21, be provided with the governor motion that is used to regulate tapping channel 5 width, governor motion comprises and is fixed on the feeding rail 21 two parallel fixed heads 10 and is located in bolt 11 in the fixed head 10, fixed head 10 and feeding rail 21 are fixed together in the mode of welding, fixed head 10 has corresponding screwed hole, there is a bolt 11 to pass screwed hole, utilizes bolt 11 to regulate tapping channel 5 width.When workpiece 9 enters feeding guide 2 by discharging opening 4, be transported to by guide rail and put material pipe 6.
Be provided with material-pulling device putting material pipe 6 places, comprise the charging ram 12 of reciprocal translation in the horizontal direction, one end of charging ram 12 links to each other with cylinder 13, the other end extends to puts material pipe 6, utilize the power of cylinder 13 as charging ram 12, make charging ram 12 back and forth translation in the horizontal direction, the workpiece in the materials device 9 is pushed away put material pipe 6, be transported to following manufacturing procedure.
Embodiment two:
The content basically identical of the content of embodiment two and embodiment one, different is that sorting mechanism is the screening guide rail of being located on the feeding channel and communicating with discharging opening, the screening guide rail comprises two slide rails that be arranged in parallel, is provided with workpiece is located in wherein and makes workpiece along gap that slide rail moves between two one slide rails.Above mentioned workpiece is column and the one end is big end, and the other end is a small end, and the small end of workpiece is less than the gap between two one slide rails, and the big end of workpiece is greater than the gap between two one slide rails.When workpiece arrives the screening guide rail through feeding channel, and the screening guide rail comprises two slide rails that be arranged in parallel, is provided with workpiece is located in wherein and makes workpiece along gap that slide rail moves between two one slide rails.When workpiece arrives the screening guide rail with small end this state formerly, because the gap between two one slide rails is greater than the small end of workpiece, Gu the small end of workpiece will pass the gap between two one slide rails, and the gap between two one slide rails is less than the big end of workpiece, Gu the big end of workpiece can not pass the gap between two one slide rails; When workpiece arrived the screening guide rail with big end this state formerly, big end can't pass the gap between two one slide rails, and workpiece is got back in the vibrating bunker once more.Gu workpiece be through can only passing gap between two one slide rails with small end after the screening guide rail, big end this state between two one slide rails of being stuck in arrives puts the material pipe.
Specific embodiment described herein only is that the utility model spirit is illustrated.The utility model person of ordinary skill in the field can make various modifications or replenishes or adopt similar mode to substitute described specific embodiment, but can't depart from spirit of the present utility model or surmount the defined scope of appended claims.
Although this paper has used 1, vibrating bunker morely; 2, feeding guide; 21, feeding rail; 3, feeding channel; 4, discharging opening; 5, tapping channel; 6, put the material pipe; 7, baffle plate; 8, screen plate; 81, double wedge; 9, workpiece; 10 fixed heads; 11, bolt; 12, charging ram; 13, term such as cylinder, but do not get rid of the possibility of using other term.Using these terms only is in order to describe and explain essence of the present utility model more easily; They are construed to any additional restriction all is contrary with the utility model spirit.

Claims (8)

1, a kind of pay-off of lathe, involving vibrations hopper (1) and feeding guide (2), described vibrating bunker (1) is provided with spiralling feeding channel (3), the lowest part of feeding channel (3) is charging aperture and is positioned at vibrating bunker (1) bottom, the highest point of feeding channel (3) is discharging opening (4), described discharging opening (4) links to each other with the feed end of feeding guide (2), it is characterized in that, on feeding channel (3), be provided with and make workpiece (9) arrange the sorting mechanism of output by the placement state of setting, the discharge end of above-mentioned feeding guide (2) is connected with the top of putting material pipe (6), above-mentioned workpiece (9) can fall into to be put in the material pipe (6), locates to be provided with the material-pulling device that workpiece (9) can be shifted onto next operation putting material pipe (6).
2, the pay-off of lathe according to claim 1, it is characterized in that, described sorting mechanism comprises the baffle plate (7) that is arranged on feeding channel (3) top and is arranged on screen plate (8) on the feeding channel (3) that described screen plate (8) is located between baffle plate (7) and the discharging opening (4).
3, the pay-off of lathe according to claim 2 is characterized in that, the distance of described baffle plate (7) and feeding channel (3) is greater than the width of workpiece (9) and less than the length of workpiece (9).
4, according to the pay-off of claim 2 or 3 described lathes, it is characterized in that having the double wedge (81) that several equidistantly distribute on the described screen plate (8), the bore of above-mentioned workpiece (9) opening is greater than the distance between two double wedges (81).
5, the pay-off of lathe according to claim 1, it is characterized in that, described sorting mechanism is for to be located on the feeding channel (3) and the screening guide rail that communicates with discharging opening (4), described screening guide rail comprises two slide rails that be arranged in parallel, is provided with to make workpiece (9) be located in wherein and make workpiece (9) along gap that slide rail moves between two one slide rails.
6, the pay-off of lathe according to claim 1 and 2, it is characterized in that, described feeding guide (2) comprises two feeding rails (21) that be arranged in parallel, between two feeding rails (21), form tapping channel (5), be provided with the governor motion that is used to regulate tapping channel (5) width between described two feeding rails (21).
7, the pay-off of lathe according to claim 6 is characterized in that, described governor motion comprises and is fixed on last two the parallel fixed heads of feeding rail (21) (10) and is located in bolt (11) in the fixed head (10).
8, the pay-off of lathe according to claim 1 and 2, it is characterized in that, described material-pulling device comprises the charging ram (12) of reciprocal translation in the horizontal direction, and an end of charging ram (12) links to each other with cylinder (13), and the other end extends to puts material pipe (6).
CNU2008201662517U 2008-10-16 2008-10-16 Feeding device for lathe Expired - Lifetime CN201304493Y (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNU2008201662517U CN201304493Y (en) 2008-10-16 2008-10-16 Feeding device for lathe

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNU2008201662517U CN201304493Y (en) 2008-10-16 2008-10-16 Feeding device for lathe

Publications (1)

Publication Number Publication Date
CN201304493Y true CN201304493Y (en) 2009-09-09

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CNU2008201662517U Expired - Lifetime CN201304493Y (en) 2008-10-16 2008-10-16 Feeding device for lathe

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Country Link
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Cited By (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102785923A (en) * 2012-08-22 2012-11-21 济南大学 Automatic feeding device
CN103659428A (en) * 2013-12-24 2014-03-26 宁波天赐兄弟水表水暖有限公司 Climbing device of feeding mechanism for manufacturing water meter copper connectors
CN103692278A (en) * 2013-12-24 2014-04-02 宁波天赐兄弟水表水暖有限公司 Sorting device of feeding mechanism for manufacturing water meter copper connector
CN103692032A (en) * 2013-12-24 2014-04-02 宁波天赐兄弟水表水暖有限公司 Feeding mechanism for manufacturing water meter copper connector

Cited By (7)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102785923A (en) * 2012-08-22 2012-11-21 济南大学 Automatic feeding device
CN103659428A (en) * 2013-12-24 2014-03-26 宁波天赐兄弟水表水暖有限公司 Climbing device of feeding mechanism for manufacturing water meter copper connectors
CN103692278A (en) * 2013-12-24 2014-04-02 宁波天赐兄弟水表水暖有限公司 Sorting device of feeding mechanism for manufacturing water meter copper connector
CN103692032A (en) * 2013-12-24 2014-04-02 宁波天赐兄弟水表水暖有限公司 Feeding mechanism for manufacturing water meter copper connector
CN103692032B (en) * 2013-12-24 2016-05-11 宁波天赐兄弟水表水暖有限公司 A kind of feed mechanism of making water meter copper sleeve
CN103659428B (en) * 2013-12-24 2016-05-11 宁波天赐兄弟水表水暖有限公司 A kind of climbing device of making water meter copper sleeve feed mechanism
CN103692278B (en) * 2013-12-24 2016-07-06 宁波天赐兄弟水表水暖有限公司 A kind of material choosing apparatus making water meter copper connector feed mechanism

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C14 Grant of patent or utility model
GR01 Patent grant
RGAV Abandon patent right to avoid regrant
AV01 Patent right actively abandoned

Granted publication date: 20090909

Effective date of abandoning: 20081016