CN201376766Y - Conveying device - Google Patents

Abstract

The utility model provides a conveying device, which comprises a framework, a control unit, a motor, a first conveying unit, a second conveying unit and a transmission unit, wherein the motor is connected with the control unit and is connected with the first conveying unit and the second conveying unit via the transmission unit. The conveying device has the advantages that the conveying device is simple in structure and reliable and stable in transmission after utilizing gear transmission, utilizes two pairs of conveying units to feed, increases conveying power and then can be used for conveying materials with large diameter.

Description

Feedway

[technical field]

The utility model relates to feedway, especially for the feedway of charging.

[background technology]

The feedway of prior art comprises pair of rolls wheels, motor, gear, roller set comprises upper roll wheel, lower roll wheel, lower roll wheel and motor are fixed on the base, upper roll wheel, lower roll wheel adopt same driven by motor, realize chargings by two vertical direction gears in mesh transmissions, the adjustment lifting position that upper roll wheel can be among a small circle.But there is following defective: when the material footpath of material conveying is big, the transmitting power deficiency of pair of rolls wheels, equipment is not steady, poor reliability.

[summary of the invention]

In order to solve prior art when the material of material conveying footpath is big, the problem of pair of rolls wheels transmitting power deficiency, the utility model provides a kind of feedway of new construction.

The technical scheme that the existing technical matters that solves the utility model adopts is: a kind of feedway is provided, comprise frame, control unit, motor, first supply unit, described motor links to each other with described control unit, also be provided with second supply unit and gear unit, described motor links to each other with described first supply unit, described second supply unit by described gear unit.

The utility model further improves, and described first supply unit comprises conveying member on first, first time conveying member; Described second supply unit comprises conveying member on second, second time conveying member; Conveying member, second time conveying member all are installed on the described frame on conveying member on first, the first time conveying member, second.

The utility model further improves, also be provided with first lifting mechanism and second lifting mechanism, described first lifting unit comprises first slide block, first cylinder that links to each other with described control unit, and the two ends of described first slide block link to each other with conveying member on described first with described first cylinder respectively; Described second lifting unit comprises second slide block, second cylinder that links to each other with described control unit, and the two ends of described second slide block link to each other with conveying member on described second with described second cylinder respectively.

The utility model further improves, also be provided with the optics material detecting unit that links to each other with described control unit, the light that described optics material detecting unit produces through transport earlier material conveying described first on gap between conveying member and the described first time conveying member.

The utility model further improves, and described optics material detecting unit is a photoelectric switch.

The utility model further improves, described gear unit is the carrier gear group, described carrier gear group comprises first carrier gear, second carrier gear that is meshed with the described first carrier gear vertical direction, the first gap bridge axle, the second gap bridge axle, described first carrier gear is installed on the described first gap bridge axle, and described second carrier gear is installed on the described second gap bridge axle.

The utility model further improves, described first supply unit comprises first conveying axis, second conveying axis, first gear, second gear, described first time conveying member and described first gear are installed on described first conveying axis, and conveying member and described second gear are installed on described second conveying axis on described first; Described second supply unit comprises the 3rd conveying axis, the 4th conveying axis, the 3rd gear, the 4th gear, described second time conveying member and described the 3rd gear are installed on described the 3rd conveying axis, and conveying member and described the 4th gear are installed on described the 4th conveying axis on described second; Described first gear is meshed with described first carrier gear, and described second gear is meshed with described second carrier gear, and described the 3rd gear is meshed with described first carrier gear, and described the 4th gear is meshed with described second carrier gear.

The utility model further improves, and also is provided with first radius arm and second radius arm, and the two ends of described first radius arm link to each other with the described second gap bridge axle, described second conveying axis respectively; The two ends of described second radius arm link to each other with the described second gap bridge axle, described the 4th conveying axis respectively.

The utility model further improves, described first conveying axis, described second conveying axis, described the 3rd conveying axis, described the 4th conveying axis, described first pass a bridge axle, described second pass a bridge axle all by bearing fixing on frame.

The utility model further improves, and described first supply unit is first roller set, and conveying member is first upper roll wheel on described first, and described first time conveying member is first lower roll wheel; Described second supply unit is second roller set, and conveying member is second upper roll wheel on described second, and described second time conveying member is second lower roll wheel.

Compared to prior art, the beneficial effects of the utility model are: this apparatus structure is succinct, and by gear transmission, transmission is reliable and stable; By two pairs of supply unit chargings, transmitting power increases, and can be used for the bigger feedway in material conveying material footpath.

[description of drawings]

Fig. 1 is the structural representation of the utility model feedway;

Fig. 2 is the left view of feedway shown in Figure 1;

Fig. 3 is the cutaway view along A-A line among Fig. 1;

Fig. 4 is the cutaway view along B-B line among Fig. 1.

[specific embodiment]

Below in conjunction with the description of drawings and the specific embodiment the utility model is further specified.

Among Fig. 1 to Fig. 4: motor 10, first conveying axis 20, first gear 21, first time conveying member 22, second conveying axis 23, second gear 24, conveying member 25 on first, the 3rd conveying axis 26, the 3rd gear 27, second time conveying member 28, the 4th conveying axis 29, the 4th gear 30, conveying member 31 on second, the first gap bridge axle 32, first carrier gear 33, the second gap bridge axle 34, second carrier gear 35, first cylinder 40, first slide block 41, second cylinder 42, second slide block 43, first radius arm 50, second radius arm 51, frame 60, bearing 61.

As Fig. 1, Fig. 2, Fig. 3, shown in Figure 4, a kind of feedway, comprise frame 60, control unit, motor 10, first supply unit, described motor 10 links to each other with described control unit, also be provided with second supply unit and gear unit, described motor 10 links to each other with described first supply unit, described second supply unit by described gear unit, thereby described motor 10 drives described first supply unit and described second supply unit rotates together.First supply unit and the charging together of second supply unit, transmitting power increases, and can be used for the bigger feedway in material conveying material footpath.

The workflow of feedway is: described control unit makes described motor 10 drive described first supply unit and described second supply unit rotates together, when workpiece enters, first supply unit is the work-holding that will carry and drive workpiece and move forward into second supply unit, and second supply unit is equally the work-holding that will carry and drive workpiece and move forward into next working cell; After workpiece enters next working cell, adjust the spacing that makes between first supply unit and become big, simultaneously the spacing between second supply unit is also become greatly, wait for charging next time.

As Fig. 1, Fig. 2, Fig. 3, shown in Figure 4, described first supply unit comprises on first conveying member 25, first time conveying member 22; Described second supply unit comprises on second conveying member 31, second time conveying member 28; Conveying member 31, second time conveying member 28 all are installed on the described frame 60 on the conveying member 25 on first, first time conveying member 22, second.

As shown in Figure 1 and Figure 2, frame 60 comprises that 61, the first times conveying members of bearing 22, second time conveying member 28 and motor 10 are fixed on the bearing 61, do not move up and down; On first on the conveying member 25, second conveying member 31 all can regulate lifting position a little.

As shown in Figure 1 and Figure 2, also be provided with first lifting mechanism and second lifting mechanism, described first lifting unit comprises first slide block 41, first cylinder 40 that links to each other with described control unit, and the two ends of described first slide block 41 link to each other with conveying member 25 on described first with described first cylinder 40 respectively; Described second lifting unit comprises second slide block 43, second cylinder 42 that links to each other with described control unit, the two ends of described second slide block 43 link to each other with conveying member 31 on described second with described second cylinder 42 respectively, first cylinder 40 and second cylinder 42 are driven by described control unit, guarantee synchronism, first cylinder 40 drives first slide block 41 and slides on guide rail, thereby make link to each other with first slide block 41 first on conveying member 25 move a distance, second cylinder 42 drives second slide block 43 and slides on guide rail, thereby make link to each other with second slide block 43 second on conveying member 31 is equidirectional moves same distances, this helps improving the reliability of device; And on first on the conveying member 25, second conveying member 31 drive the position of regulating lifting by separately lifting mechanism, make the device response more sensitive, operate more steady.

Also be provided with the optics material detecting unit that links to each other with described control unit, the light that described optics material detecting unit produces through transport earlier material conveying described first on gap between conveying member 25 and the described first time conveying member 22.

Described optics material detecting unit is a photoelectric switch, when the light of photoelectric switch generation is obstructed, illustrated that workpiece enters, control unit drives first cylinder 40 according to feedback signal, 42 motions of second cylinder, make that conveying member 25 moves downward workpiece pressing on first, conveying member 25 and first time conveying member 22 rotate in the same direction on first, the workpiece that clamps in the middle of driving enters second supply unit, conveying member 31 also moves downward same distance on this moment second, makes that conveying member 31 and second time conveying member 28 rotate in the same direction on second, the workpiece that clamps in the middle of driving enters next working cell; When the light of photoelectric switch was smooth and easy, illustrating did not have workpiece to enter, and control unit drives first cylinder 40, second cylinder 42 makes conveying member 31 risings on the conveying member 25 and second on first, waits for charging next time.

As Fig. 1, Fig. 3, shown in Figure 4, described gear unit is the carrier gear group, the transmission of carrier gear group is reliable and stable, described carrier gear group comprises first carrier gear 33, second carrier gear 35, the first gap bridge axle, 32, the second gap bridge axle 34 that are meshed with described first carrier gear, 33 vertical direction, described first carrier gear 33 is installed on the described first gap bridge axle 32, and described second carrier gear 35 is installed on the described second gap bridge axle 34.

As Fig. 1, Fig. 3, shown in Figure 4, described first supply unit comprises first conveying axis 20, second conveying axis 23, first gear 21, second gear 24, described first time conveying member 22 and described first gear 21 are installed on described first conveying axis 20, and conveying member 25 and described second gear 24 are installed on described second conveying axis 23 on described first; Described second supply unit comprises the 3rd conveying axis 26, the 4th conveying axis 29, the 3rd gear 27, the 4th gear 30, described second time conveying member 28 and described the 3rd gear 27 are installed on described the 3rd conveying axis 26, and conveying member 31 and described the 4th gear 30 are installed on described the 4th conveying axis 29 on described second; Described first gear 21 is meshed with described first carrier gear 33, described second gear 24 is meshed with described second carrier gear 35, described the 3rd gear 27 is meshed with described first carrier gear 33, and described the 4th gear 30 is meshed with described second carrier gear 35.

Motor 10 at first drives first conveying axis 20 and rotates, first gear 21 on first conveying axis 20 also then rotates, then driving first carrier gear 33 that is meshed rotates, then drive the 3rd gear 27 and 35 rotations of second carrier gear, then drive second gear 24 and 30 rotations of the 4th gear, rotate thereby drive second conveying axis 23, the 3rd conveying axis 26, the 4th conveying axis 29, first axle 32, second axle 34 of passing a bridge of passing a bridge, drive on first on the conveying member 25, first time conveying member 22, second conveying member 31 again, second time conveying member 28 rotates.

As shown in Figure 4, also be provided with first radius arm 50 and second radius arm 51, the two ends of described first radius arm 50 link to each other with described second the pass a bridge axle 34, described second conveying axis 23 respectively, first radius arm 50 make when rotating with second pass a bridge axle 34 axis be the center when rotating second the pass a bridge distance of 34 and second conveying axis 23 constant; The two ends of described second radius arm 51 link to each other with described second the pass a bridge axle 34, described the 4th conveying axis 29 respectively, second radius arm 51 make when rotating with second pass a bridge axle 34 axis be the center when rotating second the pass a bridge distance of the 34 and the 4th conveying axis 29 constant.

As shown in Figure 4, first radius arm 50 has 2, and second radius arm 51 has 2, makes the device running more steady.Radius arm specifically can be swing arm.

As shown in Figure 3, Figure 4, described first conveying axis 20, described second conveying axis 23, described the 3rd conveying axis 26, described the 4th conveying axis 29, described first pass a bridge axle 32, described second pass a bridge axle 34 all by bearing fixing on frame 60.

Described first supply unit is first roller set, and conveying member 25 is first upper roll wheel on described first, and described first time conveying member 22 is first lower roll wheel; Described second supply unit is second roller set, and conveying member 31 is second upper roll wheel on described second, and described second time conveying member 28 is second lower roll wheel.

This device can be applied between the stokehold charging of electromagnetic induction heating device and stove in the charging.

This apparatus structure is succinct, and by gear transmission, transmission is reliable and stable; By two pairs of supply unit chargings, transmitting power increases, and can be used for the bigger feedway in material conveying material footpath.

Above content be in conjunction with concrete preferred implementation to further describing that the utility model is done, can not assert that concrete enforcement of the present utility model is confined to these explanations.For the utility model person of an ordinary skill in the technical field, under the prerequisite that does not break away from the utility model design, can also make some simple deduction or replace, all should be considered as belonging to protection domain of the present utility model.

Claims (10)

1. feedway, comprise frame, control unit, motor, first supply unit, described motor links to each other with described control unit, it is characterized in that: also be provided with second supply unit and gear unit, described motor links to each other with described first supply unit, described second supply unit by described gear unit.

2. feedway according to claim 1 is characterized in that: described first supply unit comprises conveying member on first, first time conveying member; Described second supply unit comprises conveying member on second, second time conveying member; Conveying member, second time conveying member all are installed on the described frame on conveying member on first, the first time conveying member, second.

3. feedway according to claim 2, it is characterized in that: also be provided with first lifting mechanism and second lifting mechanism, described first lifting unit comprises first slide block, first cylinder that links to each other with described control unit, and the two ends of described first slide block link to each other with conveying member on described first with described first cylinder respectively; Described second lifting unit comprises second slide block, second cylinder that links to each other with described control unit, and the two ends of described second slide block link to each other with conveying member on described second with described second cylinder respectively.

4. feedway according to claim 1, it is characterized in that: also be provided with the optics material detecting unit that links to each other with described control unit, the light that described optics material detecting unit produces through transport earlier material conveying described first on gap between conveying member and the described first time conveying member.

5. feedway according to claim 4 is characterized in that: described optics material detecting unit is a photoelectric switch.

6. according to the described feedway of arbitrary claim in the claim 1 to 5, it is characterized in that: described gear unit is the carrier gear group, described carrier gear group comprises first carrier gear, second carrier gear that is meshed with the described first carrier gear vertical direction, the first gap bridge axle, the second gap bridge axle, described first carrier gear is installed on the described first gap bridge axle, and described second carrier gear is installed on the described second gap bridge axle.

7. feedway according to claim 6, it is characterized in that: described first supply unit comprises first conveying axis, second conveying axis, first gear, second gear, described first time conveying member and described first gear are installed on described first conveying axis, and conveying member and described second gear are installed on described second conveying axis on described first; Described second supply unit comprises the 3rd conveying axis, the 4th conveying axis, the 3rd gear, the 4th gear, described second time conveying member and described the 3rd gear are installed on described the 3rd conveying axis, and conveying member and described the 4th gear are installed on described the 4th conveying axis on described second; Described first gear is meshed with described first carrier gear, and described second gear is meshed with described second carrier gear, and described the 3rd gear is meshed with described first carrier gear, and described the 4th gear is meshed with described second carrier gear.

8. feedway according to claim 7 is characterized in that: also be provided with first radius arm and second radius arm, the two ends of described first radius arm link to each other with the described second gap bridge axle, described second conveying axis respectively; The two ends of described second radius arm link to each other with the described second gap bridge axle, described the 4th conveying axis respectively.

9. feedway according to claim 7 is characterized in that: described first conveying axis, described second conveying axis, described the 3rd conveying axis, described the 4th conveying axis, described first pass a bridge axle, described second pass a bridge axle all by bearing fixing on frame.

10. according to the described feedway of arbitrary claim in the claim 2 to 5, it is characterized in that: described first supply unit is first roller set, and conveying member is first upper roll wheel on described first, and described first time conveying member is first lower roll wheel; Described second supply unit is second roller set, and conveying member is second upper roll wheel on described second, and described second time conveying member is second lower roll wheel.

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