CN206811599U - A kind of numerical control square steel cutting machine square steel feeding device - Google Patents
A kind of numerical control square steel cutting machine square steel feeding device Download PDFInfo
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- CN206811599U CN206811599U CN201720432064.8U CN201720432064U CN206811599U CN 206811599 U CN206811599 U CN 206811599U CN 201720432064 U CN201720432064 U CN 201720432064U CN 206811599 U CN206811599 U CN 206811599U
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- square steel
- backup pad
- upper backup
- numerical control
- cutting machine
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Abstract
The utility model discloses a kind of numerical control square steel cutting machine square steel feeding device, its drip irrigation device is to include upstream extending on the slide rail of embryo material storeroom and the slide rail between transfer station and embryo material storeroom the carrier to slidably reciprocate from transfer station one end, the carrier includes sliding the lower supporting plate on slide rail, directly over lower supporting plate for supporting the upper backup pad of square steel and between upper backup pad and lower supporting plate for driving the upper backup pad in the drive component of vertical direction linear reciprocating motion, it is designed to square steel square steel is sent in transfer station from the embryo material storage point of principle transfer station using such, reduce the labor intensity of operator.
Description
Technical field
A kind of numerical control square steel cutting machine is the utility model is related to, more specifically, it relates to a kind of numerical control square steel cutting machine
Square steel feeding device.
Background technology
Numerical control cutting machine includes the multiple types such as numerical control plasma cutting machine, NC flame cutting machine according to its cutting mode
Type, it is exactly to drive machine tool motion with digital process, and with machine tool motion, the cutting tool worn at random is cut to object
Cut.In mechanical processing process, because numerical control cutting machine can effectively improve cutting efficiency, cut quality and mitigate operation
The labor intensity of person, therefore be commonly used.
In enterprise, it is often necessary to use numerical control cutting machine and square steel is cut, as shown in figure 8, it generally comprises one
Surface is equidistantly supported by the transfer station 1 of support roller 11, the carriage 3 positioned at the side of transfer station 1 and positioned at transfer station 1
On cutter device 2, by the way that square steel is carried on into transfer station 1, then drive carriage 3 is downstream slided along transfer station 1 so that
Driving square steel slides in support roller 11 to be finally entered cutter device 2 and is cut.
But in the square steel cutting of reality, the region distance transfer station of general square steel embryo material storage has a certain distance,
Staff, which needs to lift square steel, to be transported in transfer station, then carries out transmission, the cutting of square steel, such artificial loading
Mode to square steel, it is necessary to be carried and need to raise square steel, the labor intensity of operator is larger.
Utility model content
In view of the deficienciess of the prior art, the purpose of this utility model is to provide a kind of numerical control square steel cutting machine square steel
Feeding device, its have the advantage that square steel can be sent in transfer station from ground it is strong so as to reduce the work of operator
Degree.
To achieve the above object, the utility model provides following technical scheme:
A kind of numerical control square steel cutting machine square steel feeding device, including upstream extend to embryo material storeroom from transfer station one end
Slide rail and slide rail between transfer station and embryo material storeroom on the carrier that slidably reciprocates, the carrier includes sliding
Lower supporting plate on slide rail, directly over lower supporting plate for supporting the upper backup pad of square steel and positioned at upper support
For driving the upper backup pad in the drive component of vertical direction linear reciprocating motion between plate and lower supporting plate.
By using above-mentioned technical proposal, because transfer station apart from the region that square steel embryo material is deposited has a segment distance and side
Steel heavier-weight, operating personnel, which raise square steel, to be carried on the transfer roller on transfer station surface, and labor intensity is larger, passes through setting
Slide rail and carrier square steel can be transported at transfer station from embryo material storeroom, realize the horizontal displacement of square steel;In addition
Upper backup pad is set to rise to square steel in transfer station so as to realize the vertical of square steel from ground in the presence of drive component
Displacement, using such design, it is only necessary to which lifting in relatively low position square steel on upper backup pad can be to complete the biography of square steel
Work is sent, significantly reduces the labor intensity of operator, improves the transmission efficiency of square steel.
Preferably, be equidistantly provided with multiple transfer rollers on the upper backup pad, when the upper backup pad moves to and institute
State the table top of transfer station etc. it is high when, the transfer roller flushes with the top surface of the support roller.
By using above-mentioned technical proposal, when carrying out square steel transmission, upper backup pad moves to same with the table top of transfer station
Sample height, at this moment, the top surface of the transfer roller on upper backup pad flushes with the top surface of the support roller on the table top of transfer station, protects
Having demonstrate,proved square steel can stably be sent in transfer station from carrier.
Have perpendicular to lower supporting plate preferably, the corner of the lower supporting plate is vertical and be highly higher than the spacing of transfer station table top
Post, the limited post run through the upper backup pad.
By using above-mentioned technical proposal, upper backup pad can be transported under the driving of drive component under in the vertical direction
It is dynamic, by the limited post of setting, the stable up and down motion of upper backup pad can be ensured so that the square steel energy on upper backup pad
Enough stable transmission.
Preferably, the drive component includes being fixedly connected on the oil cylinder on lower supporting plate and being vertically arranged and fixed company
The support plate of the piston end of oil cylinder is connected to, support plate is fixedly connected on the lower surface of the upper backup pad.
By using above-mentioned technical proposal, the up and down motion driving upper backup pad in the vertical direction of cylinder piston rod is reciprocal
Square steel is risen to the position contour with transfer station from relatively low position by motion so as to realize, the support plate of piston end can
Increase the contact area of piston end and upper backup pad so that the support upper backup pad that piston end can be stablized.
Preferably, the side of the upper backup pad is provided with is connected and is driven multiple transmission with the roller end of a transfer roller
The drive device of roller synchronous axial system.
By using above-mentioned technical proposal, when the upper backup pad of carrier rises as transfer station equally height, carry
Car moves to the initiating terminal of transfer station, at this moment by drive device transfer roller can be driven to rotate so as to by transfer roller
Square steel is sent in the support roller in transfer station, and that completes square steel moves transmission, is moved, is reduced compared to Manual-pushing square steel
The labor intensity of operator.
Preferably, the drive device include be sheathed on multiple transfer roller homonymies roller end gear, be engaged in it is more
The rotary electric machine that the rack and the driving transfer roller of individual gear rotate in same direction.
By using above-mentioned technical proposal, by the cooperation of wheel and rack, multiple transfer roller synchronous axial systems are enabled to,
Rotary electric machine driving transfer roller is rotated, and square steel is sent into transfer station from carrier by the frictional force of transfer roller and square steel
On.
Preferably, the rotary electric machine is Worm reduction motor.
By using above-mentioned technical proposal, the rotating shaft of the output shaft and transfer roller of motor is connected, and at this moment, motor body is placed in
Vacant state is in outside upper backup pad, the radial load that motor output shaft is subject to is larger, slows down by using worm and gear electric
Machine, axial direction can be changed, reduce the radial load that motor output shaft is subject to.
Preferably, the Surface coating of the transfer roller has wear-resistant pad.
By using above-mentioned technical proposal, by the wear-resistant pad of setting, on the one hand can reduce between square steel and transfer roller
Abrasion caused by due to colliding, rubbing;Another aspect wear-resistant pad can increase the contact friction force between square steel and transfer roller, keep away
Exempt to produce larger relative slip between transfer roller and square steel so that what transfer roller can be stablized transmits square steel.
Preferably, both sides rotational support limited location roller of the upper backup pad perpendicular to slide rail length direction.
By using above-mentioned technical proposal, square steel can be entered perpendicular to square steel direction of transfer by the limiting roll of setting
Row is spacing, avoids, when carrier moves to transfer station, causing square steel skew by a relatively large margin, even drop carrier.
Preferably, spaced set has more crossbearers between the slide rail, it is spacing to offer first on the upper backup pad
Hole, second spacing hole concentric with first spacing hole is offered on crossbearer of the transfer station with embryo material storeroom,
First spacing hole is used to the carrier being positioned at slide rail length side with being plugged with limit stick in second spacing hole
To both ends.
By using above-mentioned technical proposal, when carrying out square steel carrying, operator needs square steel bringing up to carrying carrier
Car, at this moment, carrier easy movement influence square steel and laid;When carrier, which carries square steel, is sent to transfer station original position, pass
Sending roller to rotate causes square steel to be transmitted to the downstream of transfer station, because caused frictional force is mutual between the roll surface and square steel of transfer roller
Effect, can cause carrier to move backward;, can be when carrying square steel and from removing by the spacing hole and limit stick of setting
Fortune car causes carrier to keep stable state when transmitting square steel to transfer station so that the transmission that square steel can be stablized.
In summary, the utility model has the advantages that:
1st, by the slide rail and carrier of setting, longer-distance square steel can be sent at transfer station, alleviated
The labor intensity of operation;
2nd, by the upper backup pad and oil cylinder of setting, square steel can be risen to from relatively low position it is contour with transfer station,
Realize the vertical displacement of square steel;
3rd, using the transmission of transfer roller gear synchronous square steel is carried out certainly in the case of without using manpower to square steel
Dynamic transmission, reduce the labor intensity of operator.
Brief description of the drawings
Fig. 1 is a kind of overall structure diagram of numerical control square steel cutting machine;
Fig. 2 is a kind of overall structure diagram of numerical control square steel cutting machine square steel feeding device;
Fig. 3 is the structural representation of drive component;
Fig. 4 is square steel in embryo material storeroom feeding view;
Fig. 5 is the elevated view of carrier after square steel feeding;
Fig. 6 is the view that carrier transmits from embryo material storeroom to transfer station;
Fig. 7 is the view that square steel is sent to from carrier in transfer station;
Fig. 8 is the structural representation of numerical control square steel cutting machine in the prior art.
Reference:1st, transfer station;11st, support roller;2nd, cutter device;3rd, carriage;4th, square steel feeding device;41、
Embryo material storeroom;5th, slide rail;51st, crossbearer;6th, carrier;61st, upper backup pad;62nd, lower supporting plate;621st, pulley;63rd, driving group
Part;631st, oil cylinder;632nd, support plate;7th, limited post;8th, transfer roller;81st, support base;82nd, rotating shaft;83rd, limiting roll;84th, install
Seat;9th, drive device;91st, gear;92nd, rack;93rd, Worm reduction motor;10th, the first spacing hole;101st, second is spacing
Hole;102nd, limit stick;103rd, wear-resistant pad.
Embodiment
Embodiment of the present utility model is described further referring to the drawings.
A kind of numerical control square steel cutting machine square steel feeding device, as shown in figure 1, being provided with including surface multiple can rotate
The transfer station 1 of support roller 11, the cutter device 2 positioned at the middle part of transfer station 1 and it will be located at support positioned at the original position of transfer station 1
The carriage 3 at square steel push-in cutter device 2 on roller 11, the rear of transfer station 1 and is at same straight line with transfer station 1
It is provided with embryo material storeroom 41 to be used to accumulate square steel embryo material to be cut, is set between transfer station 1 and embryo material storeroom 41
Have the square steel feeding device 4 for the square steel of embryo material storeroom 41 being transported in transfer station 1.
As shown in Figures 1 and 2, a kind of numerical control square steel cutting machine square steel feeding device, including be installed on ground and from biography
Send the twice slide rail 5 and deposited on slide rail 5 in transfer station 1 and embryo material that the original position of platform 1 extends to embryo material storeroom 41
The carrier 6 moved back and forth between place 41.
Carrier 6 includes upper backup pad 61, lower supporting plate 62 and is arranged between upper backup pad 61 and lower supporting plate 62
Drive component 63.Upper backup pad 61 and the profile of lower supporting plate 62 are rectangular, and cunning is provided with the four corners below of lower supporting plate 62
621 are taken turns, four limited posts 7, height and the transfer station 1 of limited post 7 are vertically fixedly connected with the top corner of lower supporting plate 62
Vertical height it is contour or vertical height higher than transfer station 1, upper backup pad 61 are horizontally placed on directly over lower supporting plate 62
And run through limited post 7.
As shown in Figure 2 and Figure 3, drive component 63 includes oil cylinder 631 and support plate 632, and oil cylinder 631 is vertically arranged, its
Lower end is fixedly connected on the upper surface of lower supporting plate 62 and is in center, and piston end and the support plate 632 of oil cylinder 631 are fixed
Connection, the upper surface of support plate 632 is fixed on the lower surface of upper backup pad 61, passes through the elongation and shortening of the piston rod of oil cylinder 631
Driving upper backup pad 61 is moved reciprocatingly in vertical direction to realize that square steel rises to and transfer station 1 from lower position(Such as Fig. 1 institutes
Show)Table top isometry position.
As shown in Figures 1 and 2, length direction spaced set of the top of upper backup pad 61 along slide rail 5 has more transmission
Roller 8, the both ends of transfer roller 8 are rotatably supported on the support base 81 of the both sides of upper backup pad 61, its rotation direction and carrier 6
The direction of motion is in the same direction;During when the vertical motion of upper backup pad 61 to the table top grade height with transfer station 1, the top of the roll surface of transfer roller 8
Flushed with the top of support roller 11.
In order to be sent to the square steel on transfer roller 8 in the support roller 11 in transfer station 1, positioned at upper backup pad
61 side is provided with the support that drive device 9 rotates and then driven square steel to move in transfer station 1 for driving transfer roller 8
On roller 11.
Drive device 9 includes the gear 91 being arranged in the rotating shaft 82 of each transfer roller 8, the rack engaged with each gear 91
92 and the rotary electric machine that is connected with the rotating shaft 82 of one of transfer roller 8.Each gear 91 is in the homonymy of transfer roller 8,
Rotary electric machine can use Worm reduction motor 93, and Worm reduction motor 93 drives connected 8 turns of transfer roller
The dynamic cooperation by gear 91 and rack 92, each transfer roller 8 realize synchronous axial system.
In order to carried out perpendicular to the direction that carrier 6 moves to square steel spacing, set the both sides of transfer roller 8 are relative
Limiting roll 83 is equipped with, mounting seat 84 is fixedly connected with support base 81, limiting roll 83 is vertically arranged, and its both ends is rotatably supported in peace
Fill on seat 84.
In order to reduce the colliding with to abrasion caused by each of square steel and transfer roller 8 and limiting roll 83 in the handling process,
Be coated with one layer of wear-resistant pad 103 on the roll surface of transfer roller 8 and limiting roll 83, wear-resistant pad 103 can use rubber or
Other high-abrasive materials are made.
The first spacing hole 10, middle part of slide rail 5 etc. are offered at both ends of the lower supporting plate 62 along the direction of motion of carrier 6
Spacing is provided with crossbearer 51, and slide rail 5 offers and the first limit close to transfer station 1 and on the crossbearer 51 of embryo material storeroom 41
The second concentric spacing hole 101 of position hole 10, limit stick 102 is plugged with the first spacing hole 10 and the second spacing hole 101, passes through limit
Position rod 102 is fixed on carrier 6 is spacing on slide rail 5 when carrier 6 is moved at embryo material storeroom 41 and transfer station 1.
It should be noted that the length of upper backup pad 61 and lower supporting plate 62 can be according to the length of the square steel actually cut
Selection, it may be not necessarily limited to the ratio of square steel and upper backup pad 61 and lower supporting plate 62 in accompanying drawing.
When being cut, as shown in Figure 3 and Figure 4, carrier 6 is promoted then to exist respectively to embryo material storeroom 41 first
Lower supporting plate 62 rear and front end insertion limit stick 102 carry out it is spacing, oil cylinder 631 drive upper backup pad 61 move downwardly to it is low
Point, afterwards operating personnel square steel is positioned on carrier 6.
Then, as shown in Fig. 3 and Fig. 5, oil cylinder 631 drives upper backup pad 61 to move upwards, when upper backup pad 61 moves to
During with the table top grade height of transfer station 1, oil cylinder 631 stops, at this moment, transfer roller 8(As shown in Figure 2)It is neat with the top surface of support roller 11
It is flat.
Afterwards, as shown in fig. 6, pulling up limit stick 102, carrier 6 is promoted to be slided to transfer station 1 until upper backup pad 61 supports
When being connected on the side of transfer station 1, the stop motion of carrier 6, carrier 6 is carried out under limit stick 102 is inserted therewith spacing.
Finally, as shown in Fig. 2 and Fig. 7, operating personnel open Worm reduction motor 93, Worm reduction motor 93
Transfer roller 8 is driven to rotate so that by square steel by being sent on carrier 6 in transfer station 1.
When square steel is transferred completely into transfer station 1, Worm reduction motor 93 is closed, limit stick 102 is pulled up and incites somebody to action
Carrier 6 is pushed to embryo material storeroom 41, afterwards the step of repeat the above steps to complete the transmission of next square steel.
This specific embodiment is only that it is not to limitation of the present utility model, ability to explanation of the present utility model
Field technique personnel can make the modification of no creative contribution to the present embodiment as needed after this specification is read, but
As long as all protected in right of the present utility model by Patent Law.
Claims (10)
1. a kind of numerical control square steel cutting machine square steel feeding device, it is characterized in that, including from transfer station(1)One end upstream extends to
Embryo material storeroom(41)Slide rail(5)And in transfer station(1)With embryo material storeroom(41)Between slide rail(5)On slidably reciprocate
Carrier(6), the carrier(6)Including sliding in slide rail(5)On lower supporting plate(62), positioned at lower supporting plate(62)Just
The upper backup pad for support square steel of top(61)And positioned at upper backup pad(61)With lower supporting plate(62)Between with
In the driving upper backup pad(61)In the drive component of vertical direction linear reciprocating motion(63).
2. numerical control square steel cutting machine square steel feeding device according to claim 1, it is characterized in that, the upper backup pad(61)
On be equidistantly provided with multiple transfer rollers(8), when the upper backup pad(61)Move to and transfer station(1)Table top etc. it is high when,
The transfer roller(8)With the support roller(11)Top surface flush.
3. numerical control square steel cutting machine square steel feeding device according to claim 1 or 2, it is characterized in that, the lower supporting plate
(62)Corner vertical have perpendicular to lower supporting plate(62)And height is higher than transfer station(1)The limited post of table top(7), the limited post
(7)Through the upper backup pad(61).
4. numerical control square steel cutting machine square steel feeding device according to claim 3, it is characterized in that, the drive component(63)
Including being fixedly connected on lower supporting plate(62)Oil cylinder that is upper and being vertically arranged(631)And it is fixedly connected on oil cylinder(631)Work
Fill in the support plate at end(632), support plate(632)It is fixedly connected on the upper backup pad(61)Lower surface on.
5. numerical control square steel cutting machine square steel feeding device according to claim 1, it is characterized in that, the upper backup pad(61)
Side be provided with and a transfer roller(8)Rotating shaft(82)End connects and is driven multiple transfer rollers(8)The driving of synchronous axial system
Device(9).
6. numerical control square steel cutting machine square steel feeding device according to claim 5, it is characterized in that, the drive device(9)
Including being sheathed on multiple transfer rollers(8)The rotating shaft of homonymy(82)The gear of end(91), be engaged in multiple gears(91)Rack
(92)And the driving transfer roller(8)The rotary electric machine rotate in same direction.
7. numerical control square steel cutting machine square steel feeding device according to claim 6, it is characterized in that, the rotary electric machine is snail
Worm and gear reducing motor(93).
8. numerical control square steel cutting machine square steel feeding device according to claim 5, it is characterized in that, the transfer roller(8)'s
Surface coating has wear-resistant pad(103).
9. the numerical control square steel cutting machine square steel feeding device according to claim 2 or 4 or 7, it is characterized in that, the upper support
Plate(61)Perpendicular to slide rail(5)The both sides rotational support limited location roller of length direction(83).
10. numerical control square steel cutting machine square steel feeding device according to claim 1, it is characterized in that, the slide rail(5)Between
Spaced set has more crossbearers(51), the upper backup pad(61)On offer the first spacing hole(10), close to the transmission
Platform(1)With embryo material storeroom(41)Crossbearer(51)On offer and first spacing hole(10)The second concentric spacing hole
(101), first spacing hole(10)With second spacing hole(101)Inside it is plugged with limit stick(102)For being removed described
Transport car(6)It is positioned at slide rail(5)The both ends of length direction.
Priority Applications (1)
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CN201720432064.8U CN206811599U (en) | 2017-04-22 | 2017-04-22 | A kind of numerical control square steel cutting machine square steel feeding device |
Applications Claiming Priority (1)
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CN201720432064.8U CN206811599U (en) | 2017-04-22 | 2017-04-22 | A kind of numerical control square steel cutting machine square steel feeding device |
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CN201720432064.8U Expired - Fee Related CN206811599U (en) | 2017-04-22 | 2017-04-22 | A kind of numerical control square steel cutting machine square steel feeding device |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109048621A (en) * | 2018-09-27 | 2018-12-21 | 浙江柏仕顿装饰科技有限公司 | A kind of feeding rack for section steel cutting |
CN109607187A (en) * | 2018-12-30 | 2019-04-12 | 佛山市尊聚自动化设备有限公司 | A kind of automatic feed mechanism |
CN113146163A (en) * | 2021-04-29 | 2021-07-23 | 李丹丹 | Production and processing technology of high-strength deformed steel bar |
-
2017
- 2017-04-22 CN CN201720432064.8U patent/CN206811599U/en not_active Expired - Fee Related
Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN109048621A (en) * | 2018-09-27 | 2018-12-21 | 浙江柏仕顿装饰科技有限公司 | A kind of feeding rack for section steel cutting |
CN109607187A (en) * | 2018-12-30 | 2019-04-12 | 佛山市尊聚自动化设备有限公司 | A kind of automatic feed mechanism |
CN113146163A (en) * | 2021-04-29 | 2021-07-23 | 李丹丹 | Production and processing technology of high-strength deformed steel bar |
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Legal Events
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GR01 | Patent grant | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20171229 Termination date: 20210422 |