The utility model content
In view of above-mentioned the deficiencies in the prior art, the purpose of this utility model is to provide a kind of control apparatus of guide groove width, the width of energy automatically regulating guide groove.
In order to achieve the above object, the utility model has been taked following technical scheme:
A kind of control apparatus of guide groove width, it comprises first guide groove, second guide groove, base, at least one first pillar stiffener and at least one second pillar stiffener; Be equiped with at least one line slideway on the described base, one end of described first pillar stiffener is installed on the described line slideway, the other end is connected with first guide groove, one end of described second pillar stiffener is installed on the described line slideway, the other end is connected with second guide groove, wherein, also comprise at least one imput shaft, at least one driven shaft and be installed in actuating device on the described base; One end of described imput shaft is with synchronously by first and is connected with actuating device, and the other end is connected with described driven shaft by the second synchronous band; Described first pillar stiffener is provided with first tight lock part, the upside and the described second synchronous band of band are connected this first tight lock part synchronously described second, described second pillar stiffener is provided with second tight lock part, and the downside and the described second synchronous band of band are connected this second tight lock part synchronously second.
The control apparatus of described guide groove width, wherein, described first pillar stiffener, second pillar stiffener, line slideway and driven shaft are respectively two, are separately positioned on the two side ends of described base.
The control apparatus of described guide groove width, wherein, described first synchronously band and second synchronously band be provided with the first saw shape tooth, described actuating device, imput shaft and driven shaft are provided with and the described first saw shape tooth ingear second is sawed the shape tooth.
The control apparatus of described guide groove width, wherein, described base is provided with sensor, and described second pillar stiffener is provided with flagpole.
The control apparatus of described guide groove width, wherein, described imput shaft is two, connects by coupler between two imput shaft.
The control apparatus of described guide groove width, wherein, described actuating device is a stepping motor.
The control apparatus of described guide groove width, wherein, described actuating device is an operating handle.
The control apparatus of described guide groove width, wherein, described actuating device comprises stepping motor and operating handle.
The control apparatus of the guide groove width that the utility model provides has compared with prior art been realized following beneficial effect:
1, owing to adopted imput shaft, driven shaft, actuating device, connecting first of imput shaft and actuating device is with synchronously, reaching second of connection imput shaft and driven shaft is with synchronously, and first pillar stiffener is fixed on the first half of the second synchronous band, second pillar stiffener is fixed on second the latter half of being with synchronously, drive the second synchronous strap drive by actuating device, the width that the automatically regulating guide groove is realized in pilled-in selvedge when utilizing the second band rotation synchronously and slack list.And band does not need to lubricate when work synchronously, the equipment dismounting is safeguarded made conveniently.
2, since first synchronously band and second synchronously band be provided with the first saw shape tooth, actuating device, imput shaft and driven shaft are provided with the second saw shape tooth, and actuating device increased the adjusting operating handle, have improved the degree of regulation of guide groove width.
3, owing to adopted two imput shaft, make the control apparatus easy accessibility, simultaneously the control apparatus of guide groove width of the present utility model also have simple in structure, characteristics such as cost is low.
The specific embodiment
The utility model provides a kind of control apparatus of guide groove width, and is clearer, clear and definite for making the purpose of this utility model, technical scheme and effect, below with reference to accompanying drawing and give an actual example the utility model is further described.Should be appreciated that specific embodiment described herein only in order to explanation the utility model, and be not used in qualification the utility model.
See also Fig. 1 and Fig. 2, the control apparatus of guide groove width of the present utility model comprises first guide groove 110, second guide groove 120, base 130, at least one first pillar stiffener 140, at least one second pillar stiffener 150, actuating device 160, at least one imput shaft 170, at least one driven shaft 180.
Wherein, all offer draw-in groove 111 on described first guide groove 110 and second guide groove 120, the thin plate material can be installed in the described draw-in groove 111.In the present embodiment, this draw-in groove 111 is mainly used in installs SMD (Surface Mounted Devices, surface mount device) support 190.
Be equiped with at least one line slideway 131 on the described base 130, an end of described first pillar stiffener 140 is installed on the described line slideway 131, and the other end is connected with first guide groove 110, is used for fixing this first guide groove 110.One end of described second pillar stiffener 150 is installed on the described line slideway 131, the other end is connected with second guide groove 120, be used for fixing this second guide groove 120, and described first pillar stiffener 140 and second pillar stiffener 150 can slide on described line slideway 131, thereby regulate the distance between first guide groove 110 and second guide groove 120.
Wherein, an end of described imput shaft 170 is with 210 to be connected with actuating device 160 by first synchronously, and the other end is with 220 to be connected with described driven shaft 180 by second synchronously.See also Fig. 3 and Fig. 4, described first pillar stiffener 140 is provided with first tight lock part 141, this first tight lock part is with 220 lockings with 220 upside and this second synchronously synchronously second, described second pillar stiffener 150 is provided with second tight lock part 151, and this second tight lock part is with 220 downsides and this second to be with 220 lockings synchronously described second synchronously.
In the present embodiment, described first tight lock part 141 and second tight lock part 151 are formed (not marking among the figure) by two plate parts, and second is with 220 to be sandwiched in the middle of these two plate parts synchronously, and locks described plate part by bolt.
When second is with 220 to rotate synchronously, can drives first pillar stiffener 140 and second pillar stiffener 150 and on described line slideway 131, slide like this, thereby regulate width between first guide groove 110 and second guide groove 120.
Because the length of first guide groove 110 and second guide groove 120 is longer, described first pillar stiffener 140, second pillar stiffener 150, driven shaft 180 and line slideway 131 are respectively two, and these first pillar stiffeners 140, second pillar stiffener 150, driven shaft 180 and line slideway 131 are separately positioned on the two side ends of base 130, as Fig. 1, shown in Figure 2.Therefore, present embodiment also need adopt two second and be with 220 synchronously, and make two second to be with 220 equidirectional rotations simultaneously synchronously by actuating device 160, thereby when regulating first guide groove 110 and second guide groove 120, guarantee guide groove balance, stable moving.
Please continue to consult Fig. 1 and Fig. 2, in order to make synchronous band and actuating device 160, can well cooperate between imput shaft 170 and the driven shaft 180, be provided with a plurality of first saw shape teeth 211 with 220 inboard synchronously with 210 and second synchronously first, actuating device 160, imput shaft 170 and driven shaft 180 are provided with and the described first saw shape tooth, 211 ingears, the second saw shape tooth 212, the angle that can rotate by the driving device controls imput shaft accurately controls second synchronously with the distance of 220 each transmissions.
In the present embodiment, on first tight lock part 141 and second tight lock part 151, also be provided with the second saw shape tooth, make first tight lock part 141 and second tight lock part 151 and second be with 220 lockings synchronously, and this second saw shape tooth and second band engagement synchronously, can not make the second band distortion synchronously yet, prolong for second service life of being with synchronously.
In order accurately to control the distance between first guide groove 110 and second guide groove 120, described actuating device 160 adopts stepping motor 161, this stepping motor is fixed on the base 130, can accurately control first synchronously with the 210 each direction and number of turns of rotating, thereby control second synchronously with 220 direction and the number of turns of rotating.
Certainly, in other embodiments, described actuating device 160 can also adopt operating handle 162, this operating handle is with 210 to be connected with imput shaft 170 by first synchronously, by this operating handle 162 of manual regulation first pillar stiffener 140 and second pillar stiffener 150 are transferred to needed position, get final product by connecting element (not marking among the figure) pinning then, can reduce by a stepping motor like this, thereby reduce the cost of equipment.
Preferably, described actuating device comprises stepping motor 161 and operating handle 162, and dismounting for convenience, and described imput shaft 170 adopts two, connects by coupler 171 between two imput shaft 170.Described stepping motor 161 and operating handle 162 are with 210 to be connected with imput shaft 170 by one first respectively synchronously, and imput shaft 170 is with 220 to be connected with driven shaft 180 by second more synchronously.When equipment work,, do not work or during maintenance maintenance, handle 162 can easily be controlled two guide groove foldings at equipment by the relative folding of stepping motor 161 control two guide grooves.
In a further embodiment, described base is provided with a sensor 230, the second pillar stiffeners 150 and is provided with flagpole 240.Whether this sensor 230 is a correlation type sensor, be mainly used in the detection guide groove and reset.
The concrete control process of the control apparatus of guide groove width of the present utility model is as follows: please continue to consult Fig. 2, Fig. 3 and Fig. 4, described first pillar stiffener 140 is installed in second synchronously with 220 right side, at first driving imput shaft 170 by step motor drive 161 rotates counterclockwise, thereby make second to be with 220 anticlockwise motions synchronously, because first pillar stiffener 140 is fixed on second synchronously with 220 upside, second pillar stiffener 150 is fixed on second and is with 220 downsides synchronously, so first pillar stiffener 140 can be moved to the left (as the direction of arrow shown in the B among A place and Fig. 3 among Fig. 2) with the first half of 220 synchronously with second, and second pillar stiffener 150 can be with second synchronously with the latter half of 220 move right (as the direction of arrow shown in the D among C place and Fig. 3 among Fig. 2), thereby first guide groove 110 and second guide groove 120 move to the direction of arrow shown in Figure 1, make the narrowed width between two guide grooves.
Similarly, when the width between first guide groove 110 and second guide groove 120 being transferred when wide, driving imput shaft by stepping motor 161 clockwise rotates, thereby first pillar stiffener 140 is moved right (among Fig. 4 shown in the E direction of arrow), and second pillar stiffener 150 is moved to the left (among Fig. 4 shown in the F direction of arrow).
Correspondingly, when first pillar stiffener 140 is arranged on second synchronously with 220 left side, second pillar stiffener 150 is arranged on second during synchronously with 220 right side, and actuating device then drives imput shaft 170 by opposite direction and rotates.
In sum, the control apparatus of the guide groove width that the utility model provides is owing to adopted imput shaft, driven shaft, actuating device, connecting first of imput shaft and actuating device is with synchronously, reaching second of connection imput shaft and driven shaft is with synchronously, and first pillar stiffener is fixed on the first half of the second synchronous band, second pillar stiffener is fixed on second the latter half of being with synchronously, drive the second band rotation synchronously by actuating device, the width that the automatically regulating guide groove is realized in pilled-in selvedge when utilizing the second synchronous band to rotate and slack list.And band does not need to lubricate when work synchronously, the equipment dismounting is safeguarded made conveniently.
Since first synchronously band and second synchronously band be provided with the first saw shape tooth, actuating device, imput shaft and driven shaft are provided with second and saw the shape tooth, and actuating device increased the adjusting operating handle, have improved the degree of regulation of guide groove width.
Owing to adopted two imput shaft, make the control apparatus easy accessibility, simultaneously the control apparatus of guide groove width of the present utility model also have simple in structure, characteristics such as cost is low.
More than the utility model is described in detail, for those of ordinary skills, can be improved according to the above description or conversion, and all these improve and conversion all should belong to the protection domain of the utility model claims.