CN205064706U - Horizontal transmission system of variable spacing - Google Patents

Abstract

The utility model provides a horizontal transmission system of variable spacing, it includes main transfer machinery, it includes that at least one final drive shaft, the adjacent master gear with a plurality of messenger of a plurality of master gear (1) separate the interval position sleeve of preset space length, master gear and interval location ways are located final drive shaft is last, the interval position sleeve is located between the master gear, by main transfer machinery drives driven vice drive mechanism, its include counter drive shaft and set firmly in the pinion of counter drive shaft tip, the pinion with the master gear meshes mutually. The utility model discloses a horizontal transmission system of variable spacing in the region of difference, can change the interval of gyro wheel as required, is needing stable transmission's period number, reduces the interval of gyro wheel, reduces the period number that the pair of rollers silicon chip shields at needs, and the interval of increase gyro wheel can satisfy the requirement of transmission silicon chip and processing procedure to the quantity of reduction gyro wheel, reduce cost.

Description

A kind of variable spacing horizontal conveyor system

Technical field

The utility model relates to chemical processing fields, particularly relates to a kind of variable spacing horizontal conveyor system.

Background technique

At present, in solar cell slice wet-treating process, need to carry out multiple tracks treating process to silicon chip, the roller that a series of level is laid drives silicon chip to move forward, thus completes the treating process to silicon chip.But, different transfer modes, different with pressure effect to the resistance of silicon chip, and then the transmission stability of silicon chip can be affected, for ensureing the stable drive of silicon chip, the current kind of drive is arranged to identical by the interval of all rollers, the processing mode that demand fulfillment is all, generally so just requires that the interval of roller is less, in total transmission apart under constant condition, just need more roller, cost is higher.

Therefore be necessary to do further improvement to prior art.

Model utility content

The defect that the purpose of this utility model is to overcome above-mentioned prior art provides a kind of variable spacing horizontal conveyor system, it can change the spacing of roller according to the needs of transmission object, thus meet the requirement of transmission object and processing procedure, and reduce the consumption of roller, reduce cost.

For reaching aforementioned object, a kind of variable spacing horizontal conveyor of the utility model system, it comprises

Main drive gear, it comprises at least one main drive shaft (4), multiple master gear (1) and multiple space positioning casing (11) making adjacent main gear (1) predetermined spaced, described master gear (1) and space positioning casing (11) are sheathed on described main drive shaft (4), and described space positioning casing (11) is positioned between adjacent described master gear (1);

Driven the auxiliary drive gear of transmission by described main drive gear, it comprises counter drive shaft and is fixedly arranged on the pinion of described counter drive shaft end, and described pinion is meshed with described master gear.

As the utility model one preferred embodiment, the length of the space positioning casing between master gear adjacent is between two equal.

As the utility model one preferred embodiment, the spacing in adjacent between two counter drive shaft axle center is that the length of space positioning casing and master gear are along the thickness sum on main drive shaft length direction.

As the utility model one preferred embodiment, the spacing between adjacent between two counter drive shaft axle center is 40-70mm.

As the utility model one preferred embodiment, the cross section of described main drive shaft is wait Hexagon, and these hexagonal opposite side distance are from being 14-19mm.

As the utility model one preferred embodiment, described master gear and the perpendicular setting of pinion, the velocity ratio of described master gear and pinion is 1.2-2:1.

As the utility model one preferred embodiment, the length of the space positioning casing between master gear adjacent is between two unequal, described space positioning casing comprises the first space positioning casing and the second space positioning casing, and the length of described first space positioning casing is greater than the length of described second space positioning casing.

As the utility model one preferred embodiment, described main drive gear also comprises:

Retaining ring, it is sheathed on the two ends of described main drive shaft, and described retaining ring is connected with described master gear, and described master gear is fixed on described main drive shaft by described retaining ring;

Sliding shaft sleeve, it is sheathed on described main drive shaft, and described sliding shaft sleeve is between described second space positioning casing and master gear, and the length sum of described sliding shaft sleeve and described second space positioning casing equals the length of described first space positioning casing;

Main drive shaft supporting base, it is positioned at the periphery of described sliding shaft sleeve, is fixed on described main drive shaft supporting base by fixing bolt by described sliding shaft sleeve,

Described auxiliary drive gear also comprises the roller for transmission object, and described roller fixed cover is located on described counter drive shaft.

As the utility model one preferred embodiment, the quantity of described main drive shaft is greater than one, and each main drive shaft is fixedly connected with by connecting sleeve.

As the utility model one preferred embodiment, it also comprises the sprocket wheel for driving described main drive shaft to rotate, and described sprocket wheel fixed cover is located on described main drive shaft.

The beneficial effects of the utility model: compared with prior art, variable spacing horizontal conveyor system of the present utility model, in different regions, the spacing of roller can be changed as required, need the section of steady transmission, reduce the spacing of roller, at the section needing minimizing pair of rollers silicon chip to cover, increase the spacing of roller, the requirement of transmission silicon chip and processing procedure can be met, and reduce the consumption of roller, reduce costs.

Accompanying drawing explanation

In order to be illustrated more clearly in the technological scheme of the utility model embodiment, below the accompanying drawing used required in describing embodiment is briefly described, apparently, accompanying drawing in the following describes is only embodiments more of the present utility model, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to these accompanying drawings.Wherein:

Fig. 1 is the structural representation of the utility model variable spacing horizontal conveyor system;

Fig. 2 is the structural representation that in Fig. 1, master gear and pinion are meshed;

Fig. 3 a-3b is the structural representation of space positioning casing in Fig. 2, and wherein 3a is schematic front view, and 3b is that schematic diagram is looked on a left side of 3a;

Fig. 4 a-4b is the structural representation of master gear in Fig. 2, and wherein 4a is schematic front view, and 4b is that schematic diagram is looked on a left side of 4a;

Fig. 5 is the structural representation of auxiliary drive gear.

Wherein, 1-master gear.2-pinion, 3-counter drive shaft, 4-main drive shaft, 5-retaining ring, 6-main drive shaft supporting base, 7-fixing bolt, 8-sprocket wheel, 9-sliding shaft sleeve, 10-connecting sleeve, 11-space positioning casing, 12-first space positioning casing, 13-second space positioning casing, 31-roller, 32-silicon chip.

Embodiment

For enabling above-mentioned purpose of the present utility model, feature and advantage become apparent more, are described in further detail the utility model below in conjunction with the drawings and specific embodiments.

Alleged herein " embodiment " or " embodiment " refers to special characteristic, structure or the characteristic that can be contained at least one implementation of the utility model.Different local in this manual " in one embodiment " occurred not all refers to same embodiment, neither be independent or optionally mutually exclusive with other embodiments embodiment.

Refer to Fig. 1 and Fig. 2, Fig. 1 is the structural representation of the utility model variable spacing horizontal conveyor system.Fig. 2 is the structural representation that in Fig. 1, master gear and pinion are meshed.As depicted in figs. 1 and 2, described variable spacing horizontal conveyor system, it comprises main drive shaft 4, master gear 1, space positioning casing, counter drive shaft 3, retaining ring 5, sliding shaft sleeve 9, main drive shaft supporting base 6 and sprocket wheel 8.

Described main drive gear, it comprises at least one main drive shaft 4, multiple master gear 1 and multiple space positioning casing making adjacent main gear 1 predetermined spaced, described master gear 1 and space positioning casing are sheathed on described main drive shaft 4, and described space positioning casing is between described master gear 1.In the present invention, space positioning casing is by predetermined spaced between adjacent main gear 1, this predetermined spacing be according to the determined adjacent main gear of needs of production between spacing, realize spacing predetermined between adjacent master gear 1 by changing the space positioning casing of different length.

Described auxiliary drive gear, it drives transmission by described main drive gear.Described auxiliary drive gear comprises counter drive shaft 3 and is fixedly arranged on the pinion 2 of described counter drive shaft 3 end, and described pinion 2 is meshed with described master gear 1.Described main drive shaft 4 drives the transmission of described master gear 1, and described master gear 1 drives the transmission of described pinion 2, and described pinion 2 drives counter drive shaft 3 to rotate.

Refer to Fig. 3 and Fig. 4, Fig. 3 is the structural representation of space positioning casing in Fig. 2, and wherein Fig. 3 a is schematic front view, and Fig. 3 b is that schematic diagram is looked on a left side of Fig. 3 a; Fig. 4 is the structural representation of master gear in Fig. 2, and Fig. 4 a is schematic front view, and Fig. 4 b is that schematic diagram is looked on a left side of Fig. 4 a.As shown in Figures 3 and 4, in this embodiment, the length of the space positioning casing 11 between adjacent between two master gear 1 is equal.The spacing of master gear 1 adjacent is between two equal, and the spacing between master gear 1 adjacent between two equals the spacing L in counter drive shaft 3 axle center adjacent between two.In a preferred embodiment, the spacing L in adjacent between two counter drive shaft 3 axle center is 40-70mm.The spacing L in counter drive shaft axle center adjacent is between two that the length L1 of space positioning casing 11 and master gear 1 are along the thickness L2 sum on main drive shaft 4 length direction.In other embodiments, the spacing of adjacent between two master gear 1 can also be set as unequal as required.

In one embodiment, the cross section of described main drive shaft 4 is wait Hexagon, and these hexagonal opposite side distance are from being 14-19mm.Described master gear 1, space positioning casing 11 are endoporus is relative to being sheathed on described main drive shaft 4 with the shape in the hexagonal axle center of described main drive shaft 4.

Described master gear 1 and the perpendicular setting of pinion 2, described master gear 1 and pinion 2 are bevel gear drive, and described master gear 1 is 1.2-2:1 with the velocity ratio of pinion 2.

Please continue to refer to Fig. 1, in other embodiments, when being provided with other component as retaining ring and sliding shaft sleeve etc. between described master gear, because other component occupy certain distance between master gear, so, can adopt shorter space positioning casing, the spacing of counter drive shaft described in principal security is the size needed.Now, the length of the space positioning casing between master gear 1 adjacent is between two unequal, described space positioning casing comprises the first space positioning casing 12 and the second space positioning casing 13, and the length of described first space positioning casing 12 is greater than the length of described second space positioning casing 13.Described retaining ring 5, it is sheathed on the two ends of described main drive shaft 4, and described retaining ring 5 is connected with described master gear 1, and described master gear 1 is fixed on described main drive shaft 4 by described retaining ring 5.In this embodiment, on main drive shaft 4, every a segment distance retaining ring 5, main tooth 1 is taken turns the relative position be fixed on main drive shaft 4 to fix, such main drive shaft 4 is locked with the position of master gear 1, and described main drive shaft 4 and master gear 1 can only rotate along its center line.Described sliding axle 9 overlaps, it is sheathed on described main drive shaft 4, described sliding shaft sleeve 9 is between described second space positioning casing 13 and master gear 1, and described sliding shaft sleeve 0 and the length sum of described second space positioning casing 13 equal the length of described first space positioning casing 12.In this embodiment, main drive shaft 5 is inserted in sliding shaft sleeve 9 every a segment distance.Described main drive shaft supporting base 6, it is positioned at the periphery of described sliding shaft sleeve 9, is fixed on described main drive shaft supporting base 6 by described sliding shaft sleeve 9 by fixing bolt 7.

In one embodiment, the quantity of described main drive shaft 4 is greater than one, and each main drive shaft 4 is fixedly connected with by connecting sleeve 10.

Described sprocket wheel 8 fixed cover is located on described main drive shaft 4, rotates for driving described main drive shaft 4.

Refer to Fig. 5, Fig. 5 is the structural representation of auxiliary drive gear.As shown in Figure 1 and Figure 5, on described counter drive shaft 3, fixed cover is provided with roller 31.External impetus is by chain (not shown) band movable sprocket 8, described sprocket wheel 8 drives main drive shaft 4 to rotate, described main drive shaft 4 drives master gear 1 to rotate, master gear 1 drives pinion 2 to rotate, pinion 2 and then drive counter drive shaft 3 rotate, and then drive the silicon chip transmission be positioned on described roller.By changing the length of the space positioning casing 11 between master gear 1, the spacing of master gear 1 can be changed, thus change the spacing of counter drive shaft 3.And on an equipment, different spacing can be adopted in different positions.The utility model can also adopt different spacing in different positions on an equipment.

Variable spacing horizontal conveyor system of the present utility model, in different regions, the spacing of roller can be changed as required, needing the section of steady transmission, reducing the spacing of roller, at the section needing minimizing pair of rollers silicon chip to cover, increase the spacing of roller, the requirement of transmission silicon chip and processing procedure can be met, and reduce the consumption of roller, reduce costs.

Above-mentioned explanation fully discloses embodiment of the present utility model.It is pointed out that the scope be familiar with person skilled in art and any change that embodiment of the present utility model is done all do not departed to claims of the present utility model.Correspondingly, the scope of claim of the present utility model is also not limited only to previous embodiment.

Claims (10)

1. a variable spacing horizontal conveyor system, is characterized in that: it comprises

Main drive gear, it comprises at least one main drive shaft (4), multiple master gear (1) and multiple space positioning casing (11) making adjacent main gear (1) predetermined spaced, described master gear (1) and space positioning casing (11) are sheathed on described main drive shaft (4), and described space positioning casing (11) is positioned between adjacent described master gear (1);

The auxiliary drive gear of transmission is driven by described main drive gear, it pinion (2) comprising counter drive shaft (3) and be fixedly arranged on described counter drive shaft (3) end, described pinion (2) is meshed with described master gear (1).

2. variable spacing horizontal conveyor system according to claim 1, is characterized in that: the length of the space positioning casing (11) between master gear (1) adjacent is between two equal.

3. variable spacing horizontal conveyor system according to claim 2, is characterized in that: the spacing in counter drive shaft (3) axle center adjacent is between two that the length of space positioning casing (11) and master gear (1) are along the thickness sum on main drive shaft (4) length direction.

4. variable spacing horizontal conveyor system according to claim 3, is characterized in that: the spacing between counter drive shaft (2) axle center adjacent is between two 40-70mm.

5. variable spacing horizontal conveyor system according to claim 1, is characterized in that: the cross section of described main drive shaft (4) is wait Hexagon, and these hexagonal opposite side distance are from being 14-19mm.

6. variable spacing horizontal conveyor system according to claim 1, it is characterized in that: described master gear (1) and pinion (2) perpendicular setting, described master gear (1) is 1.2-2:1 with the velocity ratio of pinion (2).

7. variable spacing horizontal conveyor system according to claim 1, it is characterized in that: the length of the space positioning casing between master gear (1) adjacent is between two unequal, described space positioning casing comprises the first space positioning casing (12) and the second space positioning casing (13), and the length of described first space positioning casing (12) is greater than the length of described second space positioning casing (13).

8. variable spacing horizontal conveyor system according to claim 7, is characterized in that:

Described main drive gear also comprises:

Retaining ring (5), it is sheathed on the two ends of described main drive shaft (4), described retaining ring (5) is connected with described master gear (1), and described master gear (1) is fixed on described main drive shaft (4) by described retaining ring (5);

Sliding shaft sleeve (9), it is sheathed on described main drive shaft (4), described sliding shaft sleeve (9) is positioned between described second space positioning casing (13) and master gear (1), and described sliding shaft sleeve (9) equals the length of described first space positioning casing (12) with the length sum of described second space positioning casing (13);

Main drive shaft supporting base (6), it is positioned at the periphery of described sliding shaft sleeve (9), is fixed on described main drive shaft supporting base (6) by fixing bolt (7) by described sliding shaft sleeve (9),

Described auxiliary drive gear also comprises the roller (31) for transmission object, and described roller (31) fixed cover is located on described counter drive shaft (3).

9. variable spacing horizontal conveyor system according to claim 1, is characterized in that: the quantity of described main drive shaft (4) is greater than one, and each main drive shaft is fixedly connected with by connecting sleeve (10).

10. variable spacing horizontal conveyor system according to claim 3, it is characterized in that: it also comprises the sprocket wheel (8) for driving described main drive shaft to rotate, and described sprocket wheel (8) fixed cover is located on described main drive shaft (4).