CN206050987U - Retainer receiving mechanism - Google Patents
Retainer receiving mechanism Download PDFInfo
- Publication number
- CN206050987U CN206050987U CN201621064541.1U CN201621064541U CN206050987U CN 206050987 U CN206050987 U CN 206050987U CN 201621064541 U CN201621064541 U CN 201621064541U CN 206050987 U CN206050987 U CN 206050987U
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- CN
- China
- Prior art keywords
- supporting rack
- material supporting
- retainer
- lower carriage
- rewinding
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
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Abstract
A kind of retainer receiving mechanism that this utility model is related to, it includes material carrying mechanism and receiving mechanism;The material carrying mechanism includes two retainer cylinders to the right, retainer cylinder is articulated with left end on the outside of the lower carriage beam of lower carriage, the telescopic end of retainer cylinder is hinged with to the right material supporting rack gangbar, the left and right two ends of material supporting rack gangbar are hinged with inside material supporting rack connecting shaft by material supporting rack contiguous block, the inner of two material supporting rack connecting shafts is connected with horizontal material supporting rack, and retainer plate is provided with the top of material supporting rack;The receiving mechanism includes multiple rewinding cylinder saddles for being arranged at lower carriage beam inwall, inside rewinding cylinder is provided with rewinding cylinder saddle, the telescopic end of rewinding cylinder is connected with the rewinding plate connecting plate of lateral arrangement, is provided with rewinding plate on the inside of rewinding plate connecting plate.This utility model retainer receiving mechanism is used for the cut-to-length sub-material arranging machine of assembling and has high degree of automation, it is possible to achieve sub-material and reason material function, the advantage of good operation stability.
Description
Technical field
This utility model is related to a kind of retainer receiving mechanism.
Background technology
It is with the degree more and more higher that the progress of transformer production technology, transformer iron-core piece shearing automatization are required, existing
The technology of some country cannot be realized orienting, position transmission and automatically step stacking.Therefore seek a kind of high degree of automation,
Sub-material and reason material function can be realized, the cut-to-length sub-material arranging machine of good operation stability is particularly important.
The content of the invention
The purpose of this utility model is to overcome above-mentioned deficiency, there is provided a kind of to be used to assemble high degree of automation, Ke Yishi
Existing sub-material and reason material function, the retainer receiving mechanism of the cut-to-length sub-material arranging machine of good operation stability.
What the purpose of this utility model was realized in:
A kind of retainer receiving mechanism, it is characterised in that it includes lower carriage, material carrying mechanism is installed on the lower carriage with
And receiving mechanism;
The lower carriage includes the lower carriage beam of two lateral arrangements of before and after;
The material carrying mechanism includes two retainer cylinders to the right, and retainer cylinder is articulated with the outside of the lower carriage beam of lower carriage
Left end, the telescopic end of retainer cylinder are hinged with to the right material supporting rack gangbar, and the left and right two ends of material supporting rack gangbar pass through material supporting rack
Contiguous block is hinged with inside material supporting rack connecting shaft, and lower carriage beam of the material supporting rack connecting shaft through lower carriage, two material supporting racks connect
The inner of spindle is connected with horizontal material supporting rack, and retainer plate is provided with the top of material supporting rack;
The receiving mechanism includes multiple rewinding cylinder saddles for being arranged at lower carriage beam inwall, sets on rewinding cylinder saddle
Inside rewinding cylinder is equipped with, rewinding cylinder is located at below material supporting rack, and the telescopic end of rewinding cylinder is connected with the receipts of lateral arrangement
Flitch connecting plate, is provided with rewinding plate on the inside of rewinding plate connecting plate.
Flange obliquely is provided with the left and right two ends of retainer plate and inner side edge.
Respectively to guide post is externally connected with, guide post passes outwards through lower carriage beam at the left and right two ends of rewinding plate connecting plate.
Material supporting rack position sensor support, material supporting rack position sensor are extended with lower carriage beam above guide post outer end
Material supporting rack position sensor is provided with support.
Compared with prior art, the beneficial effects of the utility model are:
This utility model retainer receiving mechanism is used for the cut-to-length sub-material arranging machine of assembling and has high degree of automation, can be with
Realize sub-material and reason material function, the advantage of good operation stability.
Description of the drawings
Front views of the Fig. 1 for cut-to-length sub-material arranging machine.
Fig. 2 is the feeding-distribution device frame schematic diagram in Fig. 1.
Fig. 3 is material arranging apparatus front view.
Upper left view stereo figures of the Fig. 4 for Fig. 3.
Bottom right view stereo figures of the Fig. 5 for Fig. 3.
Fig. 6 is the front view that material structure is clapped in feeding.
Fig. 7 is upper left view stereo figure in Fig. 6.
Bottom right view stereo figures of the Fig. 8 for Fig. 6.
Fig. 9 is the structural representation after the upper bracket beam in removal front in Fig. 7.
Schematic diagrams of the Figure 10 for the magnet frame in Fig. 9.
Figure 11 is that the top view after material removes upper bracket beam is clapped in feeding.
A-A sectional views of the Figure 12 for Figure 11.
Front views of the Figure 13 for retainer receiving mechanism.
Top views of the Figure 14 for retainer receiving mechanism.
Side views of the Figure 15 for retainer receiving mechanism.
The upper left view stereo figure of Figure 16 Figure 13.
Figure 17 is partial enlarged drawing at the B of Figure 16.
Wherein:
Feeding-distribution device 1, feeding-distribution device frame 11, the first sub-material conveyer belt 12, the second sub-material conveyer belt 13, sub-material power source
14th, sub-material driving belt 15, the first driving wheel 16, the second driving wheel 17
Material arranging apparatus 2
Material arranging apparatus frame 21, mainframe 21.1, upper bracket 21.2, upper bracket beam 21.21, upper bracket left connection board
21.22nd, upper bracket right connection board 21.23, adjustable plate 21.24, screw mandrel fixed seat 21.25, regulation screw mandrel 21.26, lower carriage
21.3rd, lower carriage beam 21.31, lower engaging lug 21.32, lower carriage beam left axle 21.33, upper engaging lug 21.34, lower carriage beam right axle
21.35
Feed mechanism 22, feeding conveying belt 22.1, Left Drive wheel 22.2, right drive 22.3, Left Drive axle 22.4, right biography
Moving axis 22.5, magnet frame 22.6, hanger 22.61, Magnet 22.62, magnet frame connecting shaft 22.7, magnet frame drive cylinder 22.8,
Magnet frame gangbar 22.9, magnet frame contiguous block 22.10
Pai Liao mechanisms 23, bat material cylinder 23.1, bat material cylinder supports frame 23.2, bat stub bar 23.3
Material carrying mechanism 24, retainer cylinder 24.1, material supporting rack gangbar 24.2, the connection of material supporting rack contiguous block 24.3, material supporting rack
Axle 24.4, material supporting rack 24.5, retainer plate 24.6
Receiving mechanism 25, rewinding cylinder saddle 25.1, rewinding cylinder 25.2, rewinding plate connecting plate 25.3, rewinding plate 25.4,
Guide post 25.5, material supporting rack position sensor support 25.6, material supporting rack position sensor 25.7.
Specific embodiment
Referring to Fig. 1 ~ Figure 17, a kind of cut-to-length sub-material arranging machine that this utility model is related to, it includes discharging with cut-to-length
The feeding-distribution device 1 of end connection, the feeding-distribution device 1 have two discharge ends, are respectively provided with two discharge ends of feeding-distribution device
There are a material arranging apparatus 2;
The feeding-distribution device 1 includes feeding-distribution device frame 11, be provided with the feeding-distribution device frame 11 one it is horizontal
First sub-material conveyer belt 12 and an oblique top-right second sub-material conveyer belt 13, the right-hand member of the feeding-distribution device frame 11
Sub-material power source 14 is provided with, the outfan of sub-material power source 14 is connected to driving first respectively by sub-material driving belt 15
First driving wheel 16 of sub-material conveyer belt 12 and the second driving wheel 17 for driving the second sub-material conveyer belt 13.
The material arranging apparatus 2 include the material arranging apparatus frame 21 of lateral arrangement, and the left end of material arranging apparatus frame 21 is connection
End, the left end of the material arranging apparatus frame 21 of two material arranging apparatus 2 be connected to the first sub-material conveyer belt 12 of feeding-distribution device 1 with
And second sub-material conveyer belt 13 discharge end.
Feed mechanism 22, Pai Liao mechanisms 23, material carrying mechanism 24 and collecting machine are provided with the material arranging apparatus frame 21
Structure 25;
The material arranging apparatus frame 21 includes the mainframe 21.1 of outside, and 21.1 inside upper strata of mainframe is provided with for propping up
Support feed mechanism 22 and the upper bracket 21.2 of Pai Liao mechanisms 23,21.1 inside lower floor of mainframe are provided with for supporting retainer machine
The lower carriage 21.3 of structure 24 and receiving mechanism 25;
The feed mechanism 22 and Pai Liao mechanisms 23 are installed on upper bracket 21.2 and form feeding Pai Liao mechanisms;The support
Material mechanism 24 and receiving mechanism 25 are installed on formation retainer receiving mechanism on lower carriage 21.3;
The upper bracket 21.2 includes the upper bracket beam 21.21 of two lateral arrangements of before and after, two upper bracket beams 21.21
Upper bracket left connection board 21.22 is respectively arranged with the outside of left end, upper bracket left connection board 21.22 is connected with the left end of mainframe 21.1
Connect, at the top of the right-hand member of two upper bracket beams 21.21, be provided with upper bracket right connection board 21.23, upper bracket right connection board 21.23 with
The right-hand member connection of mainframe 21.1, right section of outside of two upper bracket beams 21.21 is respectively arranged with the regulation of one piece of lateral arrangement
Plate 21.24, adjustable plate 21.24 are slidably connected with upper bracket beam 21.21, on the upper bracket beam 21.21 of the left of adjustable plate 21.24
Screw mandrel fixed seat 21.25 is provided with, in screw mandrel fixed seat 21.25, has a regulation screw mandrel 21.26 to be spun on regulation from left to right
In plate 21.24, by the regulation to adjusting screw mandrel 21.26, the lateral attitude of adjustable plate 21.24 can be adjusted.
The lower carriage 21.3 includes the lower carriage beam 21.31 of two lateral arrangements of before and after, two lower carriage beams 21.31
The lower engaging lug 21.32 of left end is set in a lower carriage beam left axle 21.33 being longitudinally arranged, two lower carriage beams 21.31
The upper engaging lug 21.34 of right-hand member be set in a lower carriage beam right axle 21.35 being longitudinally arranged, lower carriage beam left axle
21.33 and lower carriage beam right axle 21.35 be connected to front bottom end and the rear end of mainframe 21.1.
The feed mechanism 22 includes former and later two feeding conveying belts 22.1, stays between former and later two feeding conveying belts 22.1
There is gap, feeding conveying belt 22.1 is set around Left Drive wheel 22.2 and the right drive that left and right is arranged on upper bracket 21.2
On 22.3,22.2 corresponding Left Drive axle 22.4 of Left Drive wheel is set up in the left end of upper bracket 21.2, used as a kind of preferred, Zuo Chuan
Moving axis 22.4 is set up in upper bracket left connection board 21.22, the connection feeding power source of Left Drive axle 22.4, right drive 22.3 pairs
The right power transmission shaft 22.5 answered is set up in the right-hand member of upper bracket 21.2, and as one kind preferably, right power transmission shaft 22.5 is set up in adjustable plate
On 21.24;The magnet frame 22.6 of lateral arrangement, the magnet frame are provided between the upper and lower of feeding conveying belt 22.1
Multiple Magnet 22.62 are transversely disposed with 22.6, multiple hangers 22.61 at the top of the magnet frame 22.6, are horizontally arranged with,
22.61 position of the hanger correspondence of the magnet frame 22.6 in former and later two feeding conveying belts 22.1, and two magnet frames 22.6
Each hanger 22.61 on be connected with forward magnet frame connecting shaft 22.7, magnet frame connecting shaft 22.7 extend out to upper bracket
In front of 21.2 upper bracket beam 21.21, the left end of upper bracket beam 21.21 is hinged with a magnet frame drive cylinder to the right
22.8, the telescopic end of magnet frame drive cylinder 22.8 is hinged with to the right magnet frame gangbar 22.9, and magnet frame gangbar 22.9 exists
Correspondence position is hinged with magnet frame contiguous block 22.10 respectively between the front end of magnet frame connecting shaft 22.7.Upper bracket 21.2
21.21 inwall of upper bracket beam or so two ends are respectively arranged with the left position sensor of feeding and the right position sensor of feeding.
The Pai Liao mechanisms 23 include multiple bat material cylinders of the gap arrangement between two feeding conveying belts 22.1
23.1, to clap material cylinder 23.1 and arrange downwards, each is clapped material cylinder 23.1 and is both secured to the bat material cylinder supports being longitudinally arranged
On frame 23.2, the lower end for clapping material cylinder 23.1 is provided with bat stub bar 23.3, claps material cylinder supports frame 23.2 and is set up in upper bracket
On 21.2 upper bracket beam 21.21, material cylinder supports frame 23.2 is clapped with the dislocation arrangement of magnet frame connecting shaft 22.7.
The material carrying mechanism 24 includes two retainer cylinders 24.1 to the right, and retainer cylinder 24.1 is articulated with lower carriage 21.3
21.31 outside left end of lower carriage beam, the telescopic end of retainer cylinder 24.1 is hinged with to the right material supporting rack gangbar 24.2, material supporting rack
The left and right two ends of gangbar 24.2 are hinged with inside material supporting rack connecting shaft 24.4 by material supporting rack contiguous block 24.3, and material supporting rack connects
Lower carriage beam 21.31 of the spindle 24.4 through lower carriage 21.3, the inners of two material supporting rack connecting shafts 24.4 is connected with horizontal
Material supporting rack 24.5, is provided with retainer plate 24.6, sets on the left and right two ends of retainer plate 24.6 and inner side edge at the top of material supporting rack 24.5
It is equipped with flange obliquely.
The receiving mechanism 25 includes the rewinding cylinder of multiple 21.31 inwalls of lower carriage beam for being arranged at lower carriage 21.3
Seat 25.1, is provided with inside rewinding cylinder 25.2, the rewinding gas on two lower carriage beams 21.31 on rewinding cylinder saddle 25.1
25.2 position of cylinder correspondence, rewinding cylinder 25.2 are located at below material supporting rack 24.5, and the telescopic end of rewinding cylinder 25.2 is connected with laterally
The rewinding plate connecting plate 25.3 of arrangement, the inner side of rewinding plate connecting plate 25.3 are provided with rewinding plate 25.4, rewinding plate connecting plate
Respectively to guide post 25.5 is externally connected with, guide post 25.5 passes outwards through lower carriage beam 21.31 at 25.3 left and right two ends.Lower carriage
The fairlead for the movement of guide post 25.5 is provided with beam 21.31, is stretched on the lower carriage beam 21.31 above 25.5 outer end of guide post
Go out to have material supporting rack position sensor support 25.6, on material supporting rack position sensor support 25.6, be provided with material supporting rack position sensor
25.7。
A kind of operational method of cut-to-length sub-material arranging machine:
Collecting board, the bottom surface laminating of the top surface and rewinding plate of collecting board are placed below step one, present material collecting device;
Step 2, the first sub-material conveyer belt of the sheet stock point to feeding-distribution device finished through cut-to-length shearing and second point
Material tape transport is subsequently into material arranging apparatus;
Step 3, sheet stock right-hand member enter material arranging apparatus when, the left position sensor of feeding detects sheet stock right-hand member in place, then
Sheet stock, due to the magnetic force of Magnet, is adsorbed the following table in feeding conveying belt by magnet frame drive cylinder action so that magnet frame declines
Face, according to the width of sheet stock, determines the need for the retainer cylinder action of material carrying mechanism, when sheet stock is wider, Magnet in advance
Magnetic force is not enough to adsorb whole sheet stock, then retainer cylinder advancement, by retainer plate be pushed into below feeding conveying belt before and after two
Side is standby;
The conveying of step 4, sheet stock through feeding conveying belt, the right position sensor of feeding detect sheet stock right-hand member in place, then
Magnet frame drive cylinder action so that magnet frame rises, Magnet is departed from sheet stock magnetic force, the bat material gas of same time Pai Liao mechanisms
Sheet stock is bounced downwards by cylinder action, the bat stub bar for clapping material cylinder, is dropped down onto on the collecting board of lower section under sheet material;If in step 3
In front and back both sides of the retainer plate below feeding conveying belt, then retainer cylinder also action while the action of magnet frame drive cylinder,
Retainer plate is received to outside prevents its impact to sheet stock whereabouts;
Step 5, rewinding cylinder action, the sheet stock dropped down onto by under on collecting board are arranged;
Step 6, the above-mentioned step three of repetition and step 4, the sheet stock of whereabouts is constantly carried out on collecting board arrangement heap
Code, treats that pile, to certain altitude, is removed the collecting board with certain stacking height, changes again new collecting board.
Claims (4)
1. a kind of retainer receiving mechanism, it is characterised in that it includes lower carriage(21.3), the lower carriage(21.3)On be provided with
Material carrying mechanism(24)And receiving mechanism(25);
The lower carriage(21.3)Including the lower carriage beam of two lateral arrangements of in front and back(21.31);
The material carrying mechanism(24)Including two retainer cylinders to the right(24.1), retainer cylinder(24.1)It is articulated with lower carriage
(21.3)Lower carriage beam(21.31)Outside left end, retainer cylinder(24.1)Telescopic end be hinged with to the right material supporting rack gangbar
(24.2), material supporting rack gangbar(24.2)Left and right two ends pass through material supporting rack contiguous block(24.3)It is hinged with inside material supporting rack to connect
Spindle(24.4), material supporting rack connecting shaft(24.4)Through lower carriage(21.3)Lower carriage beam(21.31), two material supporting rack connections
Axle(24.4)The inner be connected with horizontal material supporting rack(24.5), material supporting rack(24.5)Top is provided with retainer plate(24.6);
The receiving mechanism(25)Lower carriage beam is arranged at including multiple(21.31)The rewinding cylinder saddle of inwall(25.1), receive
Material cylinder saddle(25.1)On be provided with inside rewinding cylinder(25.2), rewinding cylinder(25.2)Positioned at material supporting rack(24.5)Under
Side, rewinding cylinder(25.2)Telescopic end be connected with the rewinding plate connecting plate of lateral arrangement(25.3), rewinding plate connecting plate
(25.3)Inner side be provided with rewinding plate(25.4).
2. a kind of retainer receiving mechanism according to claim 1, it is characterised in that retainer plate(24.6)Left and right two ends with
And on inner side edge, it is provided with flange obliquely.
3. a kind of retainer receiving mechanism according to claim 1, it is characterised in that rewinding plate connecting plate(25.3)Left and right
Two ends are respectively to being externally connected with guide post(25.5), guide post(25.5)Pass outwards through lower carriage beam(21.31).
4. a kind of retainer receiving mechanism according to claim 3, it is characterised in that guide post(25.5)Under above outer end
Rack beams(21.31)On be extended with material supporting rack position sensor support(25.6), material supporting rack position sensor support(25.6)On
It is provided with material supporting rack position sensor(25.7).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621064541.1U CN206050987U (en) | 2016-09-19 | 2016-09-19 | Retainer receiving mechanism |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201621064541.1U CN206050987U (en) | 2016-09-19 | 2016-09-19 | Retainer receiving mechanism |
Publications (1)
Publication Number | Publication Date |
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CN206050987U true CN206050987U (en) | 2017-03-29 |
Family
ID=58370751
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201621064541.1U Expired - Fee Related CN206050987U (en) | 2016-09-19 | 2016-09-19 | Retainer receiving mechanism |
Country Status (1)
Country | Link |
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CN (1) | CN206050987U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106276272B (en) * | 2016-09-19 | 2018-11-09 | 江阴宏恒机电科技有限公司 | Retainer receiving mechanism |
-
2016
- 2016-09-19 CN CN201621064541.1U patent/CN206050987U/en not_active Expired - Fee Related
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106276272B (en) * | 2016-09-19 | 2018-11-09 | 江阴宏恒机电科技有限公司 | Retainer receiving mechanism |
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20170329 Termination date: 20210919 |
|
CF01 | Termination of patent right due to non-payment of annual fee |