CN203495083U - Numerical control rebar conveying and straightening device - Google Patents

Abstract

The utility model discloses a numerical control rebar conveying and straightening device which comprises a numerical control conveying frame, as well as a numerical control wire holding mechanism and a straightening mechanism which are arranged on the numerical control conveying frame; the numerical control wire holding mechanism comprises a mounting seat, wire holding wheels, an air cylinder, a servo motor and a speed reducer, and the wire holding wheels are arranged in pairs up and down on the mounting seat; the wire holding wheels are connected with the servo motor and the speed reducer; the wire holding wheels at the top are connected with the air cylinder, and a first passage is formed between the upper row of the wire holding wheels and the lower row of the wire holding wheels; the straightening mechanism comprises a mounting plate vertically arranged, and straightening wheels arranged in upper and lower rows on the mounting plate, and a second passage is formed between the upper row of the straightening wheels and the lower row of the straightening wheels; one end of the first passage is connected with a wire inlet threading pipe, the other end of the first passage is opposite to one end of the second passage, and the other end of the second passage is connected with a wire outlet threading pipe. The numerical control rebar conveying and straightening device provided by the utility model can pull a rebar to move forward for a fixed length, so as to control the conveying length of the rebar precisely and ensure the smooth welding of a reinforcing mesh.

Description

Reinforcing steel bar numerical control is carried coalignment

Technical field

The utility model relates to a kind of numerical control aligning device, relates in particular to the device that a kind of reinforcing bar aligning length of being controlled by Numeric Control Technology is carried.Belong to bar-mat reinforcement welding technology field.

Background technology

Bar-mat reinforcement needs with the reinforcing bar through alignment as raw material in welding production process.The alignment of general reinforcing bar need to complete on special straightening equipment, reinforcing bar after alignment can not be transported to the feed arrangement of welding equipment High-Speed Automaticly, and need to be by manually the good reinforcing bar of alignment being positioned in the feed arrangement of welding equipment, this mode workman's labour intensity is large, utilization rate of equipment and installations is low, cause welding equipment work discontinuous, reinforcing bar production efficiency is low, and then has increased production cost.

In addition, consistent in order to guarantee the aperture of bar-mat reinforcement out of welding, need to control the delivered length of reinforcing bar.In prior art, by manually pulling the mode of reinforcing bar can not accurately control the delivered length of reinforcing bar, cause easily occurring the inconsistent situation in aperture of bar-mat reinforcement.

Utility model content

In view of the above-mentioned problems in the prior art, technical problem to be solved in the utility model is to provide a kind of length that can accurately control conveying steel, and can reduces labour, improves the reinforcing steel bar numerical control of bar-mat reinforcement production efficiency and carries coalignment.

In order to solve the problems of the technologies described above, the utility model has adopted following technical scheme: reinforcing steel bar numerical control is carried coalignment, comprises numerical control carriage, is arranged at numerical control Diao Si mechanism and aligning mechanism on described numerical control carriage;

Described numerical control Diao Si mechanism comprises mount pad, holds a wheel, cylinder, servomotor and reductor in the month, described in hold silk wheel in the month and be arranged in pairs in up and down on described mount pad, be positioned at top described in to hold a wheel shape in the month in a row, be positioned at below described in hold silk wheel in the month and form another row; Described in each, hold described servomotor of wheel connection and reductor in the month and hold the rotation of silk wheel in the month described in driving; The reductor of holding in the month described in top on silk wheel connects respectively a cylinder, described in above described cylinder drives, holding a wheel, reductor and servomotor in the month moves up and down, be positioned at top described in when holding silk wheel in the month and moving downward to lower end, hold in the month described in upper and lower two rows and between silk wheel, be formed for the first passage that pulls and make reinforcing bar to pass through;

Described aligning mechanism comprises that the installing plate of vertical setting and minute upper and lower two rows are arranged on the straightening-wheel on described installing plate, is formed for the second channel of reinforcing bar described in alignment between upper and lower two row's straightening-wheels;

Described first passage and described second channel are located along the same line, and one end of described first passage connects inlet wire penetration pipe, and the other end of described first passage is relative with one end of second channel, and the other end of described second channel connects outlet penetration pipe.

As preferably, lower row's straightening-wheel of described aligning mechanism is fixedly mounted on described installing plate by the first bearing pin; The described straightening-wheel of upper row is assemblied in respectively on second bearing pin, on described installing plate, offer with described upper row's straightening-wheel one to one and connect the keyway longitudinally of installing plate thickness, one end of described the second bearing pin is positioned at described keyway, and the length of described keyway is greater than the external diameter of described the second bearing pin.

As preferably, thereby be provided with one end on described installing plate, stretch in described keyway to support the jackscrew of described the second bearing pin restriction displacement that above the described straightening-wheel of row makes progress.

As preferably, the described straightening-wheel of upper row and the described straightening-wheel of lower row are crisscross arranged, and described straightening-wheel is the straightening-wheel that carries bearing.

As preferably, on the installing plate of one end that described second channel is relative with described first passage, be provided with pedestal, in described pedestal, be provided with the steel eye passing for being convenient to reinforcing bar.

As preferably, described aligning mechanism is two, and two described aligning mechanisms are 90 degree settings, and the second channel of two described aligning mechanisms is located along the same line.

As preferably, hold silk wheel in the month described in the upper row of described numerical control Diao Si mechanism and be arranged on respectively on one slide-plate, on described mount pad, be provided with the slideway that the two ends, left and right of described slide plate are slided up and down along it.

As preferably, described outlet penetration pipe comprises conduit and is arranged on the threading nut at described conduit two ends, in described threading nut, is provided with steel eye.

As preferably, described numerical control carriage comprises mounting bracket and protective stent, described numerical control Diao Si mechanism and aligning mechanism are all fixedly installed on described mounting bracket, described protective stent is around in the surrounding of described numerical control Diao Si mechanism and aligning mechanism and is positioned on described mounting bracket, on described protective stent, be provided with protective door, on described mounting bracket, be provided with protective plate, on described protective door, offer observation window.

Compared with prior art, reinforcing steel bar numerical control of the present utility model carries the beneficial effect of coalignment to be:

1, reinforcing steel bar numerical control of the present utility model carries coalignment under the drive of servomotor and reductor, pulls reinforcing bar fixed length motion forward, thereby accurately controls the delivered length of reinforcing bar, guarantees carrying out smoothly of bar-mat reinforcement welding.

2, reinforcing steel bar numerical control of the present utility model carries coalignment to have alleviated workman's labour intensity to the High-Speed Automatic conveying of reinforcing bar, has improved operating efficiency.

Accompanying drawing explanation

Fig. 1 is the perspective view that reinforcing steel bar numerical control of the present utility model is carried coalignment;

Fig. 2 is the perspective view that reinforcing steel bar numerical control of the present utility model is carried the numerical control carriage of coalignment;

Fig. 3 is the perspective view that reinforcing steel bar numerical control of the present utility model is carried the numerical control Diao Si mechanism of coalignment;

Fig. 4 is the side view that reinforcing steel bar numerical control of the present utility model is carried the numerical control Diao Si mechanism of coalignment;

Fig. 5 is the front view that reinforcing steel bar numerical control of the present utility model is carried the numerical control Diao Si mechanism of coalignment;

Fig. 6 is that the A-A of Fig. 5 is to cutaway view;

Fig. 7 is that the B-B of Fig. 5 is to cutaway view;

Fig. 8 is the perspective view that reinforcing steel bar numerical control of the present utility model is carried the aligning mechanism of coalignment;

Fig. 9 is the front view that reinforcing steel bar numerical control of the present utility model is carried the aligning mechanism of coalignment;

Figure 10 is that the C-C of Fig. 9 is to cutaway view;

Figure 11 is the partial sectional view that reinforcing steel bar numerical control of the present utility model is carried the outlet penetration pipe of coalignment.

Description of reference numerals

1401-numerical control carriage 1402-numerical control Diao Si mechanism

1403-aligning mechanism 1404-mount pad

1405-holds silk wheel 1406-cylinder in the month

1407-servomotor 1408-reductor

1409-slide plate 1410-slideway

1411-installing plate 1412-straightening-wheel

1413-keyway 1414-the first bearing pin

1415-the second bearing pin 1416-jackscrew

1417-annular race 1418-inlet wire penetration pipe

1419-outlet penetration pipe 1420-pedestal

1421-conduit 1422-threading nut

1423-steel eye 1424-mounting bracket

1425-protective stent 1426-protective door

1427-protective plate 1428-observation window

The specific embodiment

Below in conjunction with the drawings and specific embodiments, the utility model is described in further detail, but not as to restriction of the present utility model.

As shown in Figure 1, the disclosed a kind of reinforcing steel bar numerical control of embodiment of the present utility model is carried coalignment, comprise numerical control carriage 1401, be arranged at numerical control Diao Si mechanism 1402 and aligning mechanism 1403 on numerical control carriage 1401, numerical control Diao Si mechanism 1402 is for providing power to reinforcing bar, it is fed forward, aligning mechanism 1403 makes reinforcing bar alignment, smooth to guarantee the bar-mat reinforcement of follow-up welding sequence formation.

As shown in Fig. 3 to Fig. 7, numerical control Diao Si mechanism 1402 comprises mount pad 1404, holds silk wheel 1405, cylinder 1406, servomotor 1407 and reductor 1408 in the month, holding silk wheel 1405 in the month is arranged in pairs on mount pad 1404 up and down, be positioned at top to hold silk wheel 1405 shapes in the month in a row, the silk wheel 1405 of holding in the month that is positioned at below forms another row, the object arranging is like this that every pair of gap of holding formation between silk wheel 1405 in the month is located along the same line, and is convenient to reinforcing bar to carry; The silk wheel 1405 of holding in the month in the present embodiment is provided with four, above two two below.In order to make the paired silk wheel 1405 of holding in the month rotate and push that reinforcing bar is carried power is provided, each is held silk wheel 1405 in the month and connects a servomotor 1407 and reductor 1408; And a reductor 1408 of holding in the month on silk wheel 1405 for top connects respectively a cylinder 1406, cylinder 1406 drives hold in the month silk wheel 1405, reductor 1408 and the servomotor 1407 of top to do together with as a whole to move up and down.When be positioned at top hold in the month silk wheel 1405 under the drive of cylinder 1406, move downward near below hold silk wheel 1405 in the month time, upper and lower two rows hold in the month and between silk wheel 1405, are formed for the first passage (not indicating in figure) that pulls and make reinforcing bar to pass through, and the 1405 pairs of reinforcing bars of silk wheel of holding in the month above keep pressure to realize the conveying of reinforcing bar.

That is to say, the pressure that upper row holds 1405 pairs of reinforcing bars of silk wheel in the month is provided by cylinder 1406, and servomotor 1407 provides power by holding the mutual extruding rotation of silk wheel 1405 in the month, to realize the conveying of reinforcing bar, during work, the piston rod of cylinder 1406 stretches out, the row of making holds a wheel 1405 declines in the month and takes turns 1405 extruding reinforcing bars with lower row's the silk of holding in the month, row's the silk wheel 1405 of holding in the month all rotates under the drive of servomotor 1407 up and down, hold silk wheel 1405 in the month and pull reinforcing bar fixed length motion forward, because servomotor 1407 is mainly located by pulse, servomotor 1407 receives a pulse will rotate an angle that pulse is corresponding, thereby realize displacement, because servomotor 1407 itself possesses the function of the pulse of sending, so angle of the every rotation of servomotor 1407, corresponding pulse is sent in capital, echo with the pulse shaping of servomotor 1407 acceptance like this, or be closed loop, thus, system will be known and sent how many pulses to servomotor 1407, received again how many pulses returns simultaneously, so just can control very accurately the rotation of servomotor 1407, thereby realize accurately location, can reach 0.001mm, therefore can guarantee reinforcing bar fixed length motion forward.Holding reinforcing bar when a wheel face of wheel 1405 is surperficial to be guaranteed to push with a lot of sulculus (not shown) in the month can not advance because of slip.In addition, can filtering pressure reducing valve be set for cylinder 1406, thereby make gas circuit more stable, guarantee the pressure of extruding.

In order to realize, to hold silk wheel 1405 in the month and move up and down stably under the drive of cylinder 1406, as shown in Figure 3 and Figure 5, the upper row of numerical control Diao Si mechanism 1402 holds silk wheel 1405 in the month and is arranged on respectively on one slide-plate 1409, is provided with the slideway 1410 that the two ends, left and right of slide plate 1409 are slided up and down along it on mount pad 1404.When cylinder 1406 drives when holding silk wheel 1405 in the month and moving up and down, slide plate 1409 will move up and down along slideway 1410, guarantee to hold in the month a movement locus for silk wheel 1405.

As shown in Fig. 8 to Figure 10, aligning mechanism 1403 comprises that the installing plate 1411 of vertical setting and minute upper and lower two rows are arranged on the straightening-wheel 1412 on installing plate 1411, the lower end of the wheel rim of upper row's straightening-wheel 1412 is located along the same line, the upper end of the wheel rim of lower row's straightening-wheel 1412 is located along the same line, that is to say that straightening-wheel 1412 as upper and lower two rows is when identical, the wheel shaft of upper row's straightening-wheel 1412 is located along the same line, and the wheel shaft of lower row's straightening-wheel 1412 is located along the same line.On the wheel face of straightening-wheel 1412, there is annular race 1417, between upper and lower two row's straightening-wheels 1412, be formed for the second channel (not shown) of alignment reinforcing bar.The reinforcing bar passing through in described second channel is fluctuateed by the actings in conjunction of upper and lower two row's straightening-wheels 1412 to produce plastic deformation and by alignment up and down.For make reinforcing bar when carrying coalignment through reinforcing steel bar numerical control of the present utility model on orthogonal both direction simultaneously by alignment, as shown in Figure 1, two aligning mechanisms 1403 can be set, the structure of two aligning mechanisms 1403 is identical, just setting party is to difference, and two aligning mechanisms 1403 are mutually 90 degree.Installing plate 1411 and the straightening-wheel 1412 of the aligning mechanism 1403 of horizontal positioned are also the level of state.The alignment better effects if of 1403 pairs of reinforcing bars of two aligning mechanisms, guarantees that the bar-mat reinforcement that welds is out smooth firmly.Two aligning mechanisms 1403 shown in Fig. 1 are positioned at the same side of numerical control Diao Si mechanism 1402, and such alignment effect is relatively good, two aligning mechanisms 1403 can certainly be divided into the both sides of numerical control Diao Si mechanism 1402.

In order to guarantee the smooth delivery of power of numerical control Diao Si mechanism 1402 and aligning mechanism 1403 interior reinforcing bars, should guarantee that first passage and second channel are located along the same line.

Continuation is in conjunction with Fig. 8 to Figure 10, and in order to reach the object of the reinforcing bar of the different string diameters of alignment, upper row's straightening-wheel 1412 can be configured to movable up and down structure.As shown in figure 10, in correspondence, arrange on the installing plate 1411 of position of each straightening-wheel 1412 and offer the keyway longitudinally 1413 that connects installing plate 1411 thickness.Each straightening-wheel 1412 that is positioned at row is assemblied in respectively on second bearing pin 1415, one end of the second bearing pin 1415 is positioned at keyway 1413, as shown in figure 10, for the second bearing pin 1415 can be moved up and down in keyway 1413, the longitudinal length of keyway 1413 is greater than the external diameter of the second bearing pin 1415.Upper row's straightening-wheel 1412 will slide up and down along keyway 1413.For the maximum height that regulates upper row's straightening-wheel 1412 to rise, to reach the object of the reinforcing bar of the different string diameters of alignment, the upper end of installing plate 1411 as shown in figure 10 arranges row's jackscrew 1416, jackscrew 1416 is corresponding one by one with keyway 1413, one end of jackscrew 1416 is stretched in keyway 1413, by regulating jackscrew 1416 to stretch into the length in keyway 1413, to regulate the second bearing pin 1415 at the height of keyway 1413 interior risings, when longer in jackscrew 1416 stretches into keyway 1413, be suitable for the reinforcing bar that alignment string diameter is less, in jackscrew 1416 stretches into keyway 1413 more in short-term, be suitable for the reinforcing bar that alignment string diameter is larger.Lower row's straightening-wheel 1412 of aligning mechanism 1403 is fixedly mounted on installing plate 1411 by the first bearing pin 1414, and namely, lower row's straightening-wheel 1412 is fixed.

In order to reach good alignment effect, upper row's straightening-wheel 1412 and lower row's straightening-wheel 1412 are crisscross arranged by mode as shown in figure 10.And for compared with friction, to reduce the power of the motor in transmission mechanism, cost-saving, the straightening-wheel 1412 of the present embodiment is for carrying the straightening-wheel of bearing.

In order to guarantee that reinforcing bar enters the reinforcing steel bar numerical control conveying coalignment of the present embodiment output smoothly after this equipment smoothly, as shown in Figure 1, a side at numerical control carriage 1401 is provided with the inlet wire penetration pipe 1418 being connected with one end of first passage, and the other end of first passage is relative with one end of second channel; Opposite side at numerical control carriage 1401 is provided with the outlet penetration pipe 1419 being connected with the other end of second channel.The reinforcing steel bar numerical control that reinforcing bar enters the present embodiment by inlet wire penetration pipe 1418 is carried coalignment, and by 1419 outputs of outlet penetration pipe.

As shown in Figure 1, in order to guarantee the conveying of reinforcing bar, on installing plate 1411 and mount pad 1404, be provided for respectively pedestal 1420 that reinforcing bar is led, in pedestal 1420, be provided with the steel eye (not shown) of passing for being convenient to reinforcing bar.The pedestal 1420 being positioned on installing plate 1411 is positioned on the installing plate 1411 of one end that described second channel is relative with first passage.Inlet wire penetration pipe 1418, outlet penetration pipe 1419 and pedestal 1420 the transport path that has guaranteed reinforcing bar is set, and be conducive to keep alignment effect.

As shown in figure 10, outlet penetration pipe 1419 comprises conduit 1421 and is arranged on the threading nut 1422 at conduit 1421 two ends, is provided with steel eye 1423 in threading nut 1422.The two ends of conduit 1421 are made by screwed seamless steel pipe, and threading nut 1422 wraps by steel eye 1423 part being screwed on conduit 1421 exactly, and steel eye 1423 is through Overheating Treatment wear resistant parts.Reinforcing bar passes in conduit 1421, main and conduit 1421 two ends rub, the steel eye 1423 of installing can guarantee that conduit 1421 has very long service life, after using steel eye 1423, need not heat-treat conduit 1421, after serious wear, change steel eye 1423 more more economical than changing the heat treated conduit 1421 of whole process.The structure of inlet wire penetration pipe 1418 is identical with the structure of outlet penetration pipe 1419.

Steel eye 1423 and the steel eye in pedestal 1420 in inlet wire penetration pipe 1418 and outlet penetration pipe 1419 are all coaxial, to guarantee that horizontal line passes through smoothly.

As depicted in figs. 1 and 2, numerical control carriage 1401 comprises mounting bracket 1424 and protective stent 1425, protective stent 1425 is arranged on mounting bracket 1424, both are frame form, numerical control Diao Si mechanism 1402 and aligning mechanism 1403 are all fixedly installed on the top of mounting bracket 1414, protective stent 1425 is around in the surrounding of numerical control Diao Si mechanism 1402 and aligning mechanism 1403, is provided with protective door 1426 on protective stent 1425, offers observation window 1428 on protective door 1426; On mounting bracket 1424, be provided with protective plate 1427.The setting of protective door 1426 and protective plate 1427 make operating personnel can not contact device in the parts of motion, thereby improved security and the aesthetic property of whole device.The ruuning situation of facilities for observation is in process of production convenient in the setting of observation window 1428, to shut down and overhaul in time when there is situation.

Above embodiment is only exemplary embodiment of the present utility model, is not used in restriction the utility model, and protection domain of the present utility model is defined by the claims.Those skilled in the art can make various modifications or be equal to replacement the utility model in essence of the present utility model and protection domain, this modification or be equal to replacement and also should be considered as dropping in protection domain of the present utility model.

Claims (9)

1. reinforcing steel bar numerical control is carried coalignment, it is characterized in that, comprises numerical control carriage, is arranged at numerical control Diao Si mechanism and aligning mechanism on described numerical control carriage;

Described numerical control Diao Si mechanism comprises mount pad, holds a wheel, cylinder, servomotor and reductor in the month, described in hold silk wheel in the month and be arranged in pairs in up and down on described mount pad, be positioned at top described in to hold a wheel shape in the month in a row, be positioned at below described in hold silk wheel in the month and form another row; Described in each, hold described servomotor of wheel connection and reductor in the month and hold the rotation of silk wheel in the month described in driving; The reductor of holding in the month described in top on silk wheel connects respectively a cylinder, described in above described cylinder drives, holding a wheel, reductor and servomotor in the month moves up and down, be positioned at top described in when holding silk wheel in the month and moving downward to lower end, hold in the month described in upper and lower two rows and between silk wheel, be formed for the first passage that pulls and make reinforcing bar to pass through;

Described aligning mechanism comprises that the installing plate of vertical setting and minute upper and lower two rows are arranged on the straightening-wheel on described installing plate, is formed for the second channel of reinforcing bar described in alignment between upper and lower two row's straightening-wheels;

Described first passage and described second channel are located along the same line, and one end of described first passage connects inlet wire penetration pipe, and the other end of described first passage is relative with one end of second channel, and the other end of described second channel connects outlet penetration pipe.

2. reinforcing steel bar numerical control according to claim 1 is carried coalignment, it is characterized in that, lower row's straightening-wheel of described aligning mechanism is fixedly mounted on described installing plate by the first bearing pin; The described straightening-wheel of upper row is assemblied in respectively on second bearing pin, on described installing plate, offer with described upper row's straightening-wheel one to one and connect the keyway longitudinally of installing plate thickness, one end of described the second bearing pin is positioned at described keyway, and the length of described keyway is greater than the external diameter of described the second bearing pin.

3. reinforcing steel bar numerical control according to claim 2 is carried coalignment, it is characterized in that, thereby be provided with one end on described installing plate, stretches in described keyway to support the jackscrew of described the second bearing pin restriction displacement that above the described straightening-wheel of row makes progress.

4. reinforcing steel bar numerical control according to claim 1 is carried coalignment, it is characterized in that, the described straightening-wheel of upper row and the described straightening-wheel of lower row are crisscross arranged, and described straightening-wheel is the straightening-wheel that carries bearing.

5. reinforcing steel bar numerical control according to claim 1 is carried coalignment, it is characterized in that, on the installing plate of one end that described second channel is relative with described first passage, is provided with pedestal, is provided with the steel eye passing for being convenient to reinforcing bar in described pedestal.

6. reinforcing steel bar numerical control according to claim 1 is carried coalignment, it is characterized in that, described aligning mechanism is two, and two described aligning mechanisms are 90 degree settings, and the second channel of two described aligning mechanisms is located along the same line.

7. reinforcing steel bar numerical control according to claim 1 is carried coalignment, it is characterized in that, described in the upper row of described numerical control Diao Si mechanism, hold silk wheel in the month and be arranged on respectively on one slide-plate, on described mount pad, be provided with the slideway that the two ends, left and right of described slide plate are slided up and down along it.

8. reinforcing steel bar numerical control according to claim 1 is carried coalignment, it is characterized in that, described outlet penetration pipe comprises conduit and is arranged on the threading nut at described conduit two ends, in described threading nut, is provided with steel eye.

9. reinforcing steel bar numerical control according to claim 1 is carried coalignment, it is characterized in that, described numerical control carriage comprises mounting bracket and protective stent, described numerical control Diao Si mechanism and aligning mechanism are all fixedly installed on described mounting bracket, described protective stent is around in the surrounding of described numerical control Diao Si mechanism and aligning mechanism and is positioned on described mounting bracket, on described protective stent, be provided with protective door, on described mounting bracket, be provided with protective plate, on described protective door, offer observation window.

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