CN216661464U - Photovoltaic trade silicon chip material dispatching machine - Google Patents

Abstract

The utility model provides a silicon wafer distributing machine in the photovoltaic industry, which comprises a rack and a conveying device, wherein the conveying device comprises a first conveying device and a second conveying device; the conveying directions of the first conveying device and the second conveying device are opposite; the first conveying device and the second conveying device are arranged on the rack through the height adjusting device, and the first conveying device and the second conveying device with opposite conveying directions are arranged; thus, the flower basket can be conveyed bidirectionally; the fixed seat is arranged on the transverse support, and the first conveying device and the second conveying device are arranged on the fixed seat through the moving piece; changing the horizontal height of the moving member by rotating the adjusting member; further adjusting the horizontal heights of the first conveying device and the second conveying device; through adjusting conveyor level for adjacent conveyor's level can keep unanimous, and then when the basket of flowers removed between different conveyors, can realize the steady removal.

Description

Photovoltaic trade silicon chip material dispatching machine

Technical Field

The utility model relates to the technical field of silicon wafer transportation, in particular to a silicon wafer distributing machine in the photovoltaic industry.

Background

The existing flower basket conveying process is completed by a single-layer conveying belt device driven by a motor, and when a flower basket filled with silicon wafers needs to be conveyed into an inspection chamber, the conveying belt rotates forwards; when the silicon wafer is taken out by the inspector, the empty baskets are put back on the conveyor belt device, and the conveyor belt is reversed so as to convey the empty baskets back to the original station. However, although the conveyor belt device can meet basic use requirements, the conveyor belt device only depends on the positive and negative rotation of the motor to realize bidirectional transmission, the transmission efficiency is low, when the production load is large and the silicon wafer is frequently checked, the phenomenon of accumulation caused by the fact that the flower basket cannot be returned in time is easy to occur, and the whole capacity of a product production line is severely limited.

In the production line, the flower basket is conveyed to different stations through different conveyor belt devices, but certain precision difference exists among the conveyor belt devices; the horizontal heights of different conveyor belt devices are not necessarily on the same horizontal line; the flower basket is used for loading silicon wafers, and the silicon wafers are fragile products; the horizontal height of the existing conveyor belt device cannot be adjusted; when the baskets move between adjacent conveyor belts with different horizontal heights, the baskets are easily impacted, and then the silicon wafers are damaged.

Disclosure of Invention

The utility model provides a silicon wafer distributing machine in the photovoltaic industry, which is provided with double-layer conveying devices, wherein the conveying directions of the different conveying devices are different, the conveying efficiency is high, and the height of the conveying devices can be adjusted.

In order to achieve the purpose, the technical scheme of the utility model is as follows: a silicon wafer distributing machine in the photovoltaic industry comprises a rack and a conveying device, wherein the conveying device comprises a first conveying device and a second conveying device; the conveying directions of the first conveying device and the second conveying device are opposite; the frame comprises an upper layer bracket and a lower layer bracket; the first conveying device is installed on the upper layer support through the height adjusting assembly, and the second conveying device is installed on the lower layer support through the height adjusting assembly.

More than two transverse brackets are arranged on the upper layer bracket and the lower layer bracket, and more than two groups of height adjusting components are arranged; the first conveying device is arranged on the transverse bracket of the upper bracket through the height adjusting assembly; the second conveying device is installed on the transverse support of the lower-layer support through the height adjusting assembly.

The height adjusting assembly comprises a fixed seat and an adjusting device, the fixed seat is mounted on the transverse bracket, and the adjusting device is movably arranged on the fixed seat; the adjusting device comprises a moving piece, a connecting piece and an adjusting piece; the connecting piece is used for connecting the first conveying device and the moving piece, and the second conveying device and the moving piece; the moving part is movably arranged on the fixed seat; the moving member includes an adjustment aperture; the adjusting piece is in threaded connection with the adjusting hole and is used for penetrating through the adjusting hole to be in contact with the transverse bracket; rotating the adjusting member changes the height position of the moving member on the adjusting member.

The first conveying device and the second conveying device with opposite conveying directions are arranged; thus, the flower basket can be conveyed bidirectionally; the fixed seat is arranged on the transverse support, and the first conveying device and the second conveying device are arranged on the fixed seat through the moving piece; changing the horizontal height of the moving member by rotating the adjusting member; further adjusting the horizontal heights of the first conveying device and the second conveying device; through adjusting conveyor level for adjacent conveyor's level can keep unanimous, and then when the basket of flowers removed between different conveyor, can realize the steady removal, when avoiding the basket of flowers to remove between the conveyor of level difference, receives the impact and leads to the silicon chip to damage. Meanwhile, the height adjusting components are arranged at two ends of the conveying device; by adjusting the moving member.

Furthermore, the fixed seat also comprises a positioning waist hole; the adjusting device comprises a positioning device; the moving piece also comprises a moving positioning hole; the positioning device is connected with the movable positioning hole and the positioning waist hole; the positioning device fixes the moving part on the fixed seat.

According to the arrangement, the moving piece is fixed through the matching of the positioning waist hole and the moving positioning hole; when the moving piece is adjusted to a proper height, the positioning device fixes the moving piece, and the horizontal height of the first conveying device or the second conveying device is prevented from changing when the flower basket is conveyed.

Further, the positioning device comprises a positioning bolt and a positioning nut; the positioning bolt penetrates through the movable positioning hole and the positioning waist hole to be connected with the positioning nut. The moving piece is fixed through the positioning bolt and the positioning nut, and the structure is simple.

Further, the first conveying device comprises a first conveying support, a first conveying driving motor, a first conveying driving wheel, a first conveying driven wheel and a first conveying synchronizing device; the first conveying driving motor is arranged on the first conveying support and is connected with the first conveying driving wheel; the first conveying synchronizing devices are symmetrically arranged on the left side and the right side of the first conveying support, and a first conveying synchronizing shaft is connected between the two first conveying synchronizing devices; the first conveying driven wheel is arranged on the first conveying synchronous shaft; a first conveying belt is sleeved between the first conveying driven wheel and the first conveying driving wheel; the moving member is connected with the first conveying support.

The flower basket conveying device is characterized in that the conveying synchronizing shaft is driven to rotate through a first conveying driven wheel, and the conveying synchronizing shaft is used for conveying a flower basket.

Further, the second conveying device comprises a second conveying support, a second conveying driving motor, a second conveying driving wheel, a second conveying driven wheel and a second conveying synchronizing device; the second conveying driving motor is arranged on the second conveying support and is connected with the second conveying driving wheel; the second conveying synchronizing devices are symmetrically arranged on the left side and the right side of the second conveying support, and a second conveying synchronizing shaft is connected between the two second conveying synchronizing devices; the second conveying driven wheel is arranged on the second conveying synchronous shaft; a second conveying belt is sleeved between the second conveying driven wheel and the second conveying driving wheel; the moving member is connected with the second conveying support.

The arrangement is that the driven wheel is conveyed through the second to drive the second to convey the flower basket synchronously, and the second conveying synchronous device is conveyed through the second conveying synchronous shaft to convey the flower basket.

Further, the first conveying device also comprises a first limiting device; the first limiting device is arranged on the first conveying supporting piece, and the first conveying supporting piece is connected with the first conveying support; the second conveying device also comprises a second limiting device; the second limiting device is arranged on the second conveying support part, and the second conveying support part is connected with the second conveying support.

The arrangement is that the flower basket is limited by the first limiting device and the second limiting device,

the first limiting device and the second limiting device are arranged; the matching effect of the flower basket and different stations is good; meanwhile, the first limiting device is arranged on the first conveying support piece; the second limiting device is arranged on the second conveying support piece; therefore, the first conveying device and the second conveying device can limit the flower basket in a normal working state; the first conveying device and the second conveying device do not need to be stopped; thus, the working efficiency is high.

Furthermore, conveying guide parts are arranged on two sides of the first conveying device and two sides of the second conveying device; the conveying guide has a level higher than that of the first and second conveying belts.

According to the arrangement, the conveying guide piece is used for guiding the flower basket, so that the flower basket moves along the conveying direction of the first conveying device or the second conveying device; and can avoid the flower basket from separating from the first conveying device or the second conveying device when moving.

Furthermore, the first conveying synchronizer comprises a third first synchronizing support, a first groove is formed in the inner side of the third first synchronizing support in an inwards concave mode, the second conveying synchronizer comprises a third second synchronizing support, a second groove is formed in the inner side of the third second synchronizing support in an inwards concave mode, and the connecting piece is provided with a protruding portion protruding outwards; the protruding part extends into the first groove and the second groove.

Drawings

Fig. 1 is a perspective view of the present invention.

Fig. 2 is a schematic view of the first and second conveying devices in cooperation with the frame.

Fig. 3 is a perspective view of the first conveyor along with the height adjustment assembly and the lateral support.

Fig. 4 is an exploded view of the first conveyor.

Fig. 5 is a perspective view of the second conveyor along with the height adjustment assembly and the lateral bracket.

Fig. 6 is an exploded view of the second delivery device.

Fig. 7 is a schematic view of the height adjustment assembly coupled to the first synchronizing bracket iii.

Figure 8 is a perspective view of the height adjustment assembly mounted on the lateral support.

FIG. 9 is a schematic view of the height adjustment assembly and the lateral bracket after disassembly.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments.

As shown in fig. 1-9; a silicon wafer distributing machine in the photovoltaic industry comprises a machine frame 1 and a conveying device, wherein the conveying device comprises a first conveying device 21 and a second conveying device 22; the conveying directions of the first conveying device 21 and the second conveying device 22 are opposite; referring to fig. 2, the first conveying device 21 conveys the flower basket in the direction a; the second conveyor 22 conveys the flower basket in the direction B.

The frame 1 comprises an upper layer bracket 11 and a lower layer bracket 12; the first conveyor 21 is mounted on the upper bracket 11 via the height adjustment assembly 3, and the second conveyor 22 is mounted on the lower bracket 12 via the height adjustment assembly 3. More than two transverse brackets 13 are arranged on the upper layer bracket 11 and the lower layer bracket 12, and more than two groups of height adjusting components 3 are arranged; the first conveying device 21 is arranged on the transverse bracket 13 of the upper bracket 11 through the height adjusting assembly 3; the second conveying device 22 is arranged on the transverse bracket 13 of the lower bracket 12 through the height adjusting assembly 3; in the present embodiment, the first conveyor 21 and the second conveyor 22 are connected to the lateral support 13 by three sets of height adjustment assemblies 3, respectively.

The group of height adjusting assemblies 3 comprises a fixed seat 31 and an adjusting device, the fixed seat 31 is installed on the transverse bracket 13, and the adjusting device is movably arranged on the fixed seat 31; the adjusting device comprises a moving member 32, a connecting member 33 and an adjusting member; in this embodiment, the height adjusting assemblies 3 are provided with two connecting members 33, one end of the moving member 32 is connected to one connecting member 33, and the other end of the moving member 32 is connected to the other connecting member 33. The connecting piece 33 is used for connecting the first conveying device 21 and the moving piece 32, and connecting the second conveying device 22 and the moving piece 32; the moving part 32 is movably arranged on the fixed seat 31; the fixed seat 31 comprises an adjusting hole 321; in this embodiment, the adjusting member is a bolt, and the adjusting hole 321 is a threaded hole. The adjusting piece is in threaded connection with the adjusting hole 321, and the adjusting piece is used for penetrating through the adjusting hole 321 to be in contact with the transverse bracket 13; rotating the adjustment member changes the height position of the moving member 32 on the adjustment member.

A first conveying device 21 and a second conveying device 22 with opposite conveying directions are arranged; thus, the flower basket can be conveyed bidirectionally; the fixed seat 31 is arranged on the transverse bracket 13, and the first conveying device 21 and the second conveying device 22 are both arranged on the fixed seat 31 through the moving piece 32; changing the level of the moving member 32 by rotating the adjusting member; further adjusting the horizontal heights of the first conveyor 21 and the second conveyor 22; through adjusting conveyor level for adjacent conveyor's level can keep unanimous, and then when the basket of flowers removed between different conveyor, can realize the steady removal, when avoiding the basket of flowers to remove between the conveyor of level difference, receives the impact and leads to the silicon chip to damage. Meanwhile, the height adjusting components 3 are arranged at two ends of the conveying device; by adjusting the displacement member 32.

A positioning groove 322 is recessed from one side of the moving member 32 close to the fixed seat 31 to one side far away from the fixed seat 31; the fixed seat 31 is arranged in the positioning groove 322, and the top of the moving piece 32 is provided with a positioning part 323 in an upward protruding way; the fixed seat 31 is jointed with the positioning part 323 and the positioning groove 322; the fixed seat 31 further comprises a positioning waist hole 311; the adjustment means comprise positioning means (not shown in the figures); the moving member 32 further includes a moving positioning hole 324; the positioning waist hole 311 is arranged on the side surface of the fixed seat 31; the movement positioning hole 324 is provided at a side surface of the positioning portion 323; the positioning device is connected with the movable positioning hole 324 and the positioning waist hole 311; the positioning device fixes the moving member 32 on the fixed base 31. The positioning device comprises a positioning bolt (not shown in the figure); and a positioning nut (not shown in the figures); the positioning bolt passes through the movable positioning hole 324 and the positioning waist hole 311 to be connected with the positioning nut. The moving piece 322 is fixed through the positioning bolt and the positioning nut, and the structure is simple.

The fixing base 31 is disposed in the positioning groove 322, and the fixing base 31 is attached to the positioning portion 323 and the positioning groove 322, so as to increase the contact area between the fixing base 31 and the moving member 32 and improve the connection strength between the fixing base 31 and the moving member 32. The moving piece 32 is fixed by matching the positioning waist hole 311 and the moving positioning hole 324; when the moving member 32 is adjusted to a proper height, the positioning device fixes the moving member 32, so as to avoid the change of the horizontal height of the first conveying device 21 or the second conveying device 22 when the flower basket is conveyed.

The first conveying device 21 includes a first conveying support 211, a first conveying drive motor 212, a first conveying drive wheel 213, a first conveying driven wheel 214, and a first conveying synchronizing device 215; the first conveying driving motor 212 is arranged on the first conveying bracket 211, and the first conveying driving motor 212 is connected with the first conveying driving wheel 213; the first conveying synchronizing devices 215 are symmetrically arranged on the left side and the right side of the first conveying bracket 211, a first conveying synchronizing shaft 216 is connected between the two first conveying synchronizing devices 215, and a first conveying driven wheel 214 is mounted on the first conveying synchronizing shaft 216; a first conveying belt 217 is sleeved between the first conveying driven wheel 214 and the first conveying driving wheel 213.

A first transfer synchronizer 215 includes a first synchronizing bracket one 2151, a first synchronizing bracket two 2152, a first synchronizing wheel one 2153, a first synchronizing wheel two 2154, and a first synchronizing bracket three 2155; in the present embodiment, there are two first conveyance synchronizing shafts 216; wherein a first conveying synchronizing shaft 216 passes through a first synchronizing wheel one 2153 and is connected with a first synchronizing bracket one 2151; another first conveying synchronous shaft 216 passes through a second first synchronous wheel 2154 and is connected with a second first synchronous bracket 2152; a first synchronous belt 2156 is sleeved between the first synchronous wheel II 2154 and the first synchronous wheel I2153; a first synchronizing bracket three 2155 is provided between the first synchronizing wheel two 2154 and the first synchronizing wheel one 2153. The supporting effect of the first synchronous belt 2156 is improved by arranging a first synchronous support III 2155; by arranging the first synchronizing bracket one 2151 and the first synchronizing bracket two 2152, the first conveying synchronizing shaft can be fixed. The connecting element 33 is connected to a first synchronizing carrier three 2155. The first conveying driven wheel 214 is driven to rotate by the first conveying driving motor 212, the first conveying driven wheel 214 drives the first conveying synchronizing shaft 216 to rotate, and conveying of the flower basket by the first conveying synchronizing device 215 is achieved through the first conveying synchronizing shaft 216.

The second conveying device 22 comprises a second conveying bracket 221, a second conveying driving motor 222, a second conveying driving wheel 223, a second conveying driven wheel 224 and a second conveying synchronous device 225; the second conveyance driving motor 222 is provided on the second conveyance holder 221; the second conveying driving motor 222 is connected with the second conveying driving wheel 223; the second conveying synchronization devices 225 are symmetrically arranged on the left side and the right side of the second conveying bracket 221, and a second conveying synchronization shaft 226 is connected between the two second conveying synchronization devices 225; the second conveying driven wheel 224 is mounted on a second conveying synchronizing shaft 226; a second conveying belt 227 is sleeved between the second conveying driven wheel 224 and the second conveying driving wheel 223.

Second conveyance synchronization device 225 includes a second synchronization support first 2251, a second synchronization support second 2252, a second synchronization wheel first 2253, a second synchronization wheel second 2254, and a second synchronization support third 2255; in the present embodiment, two second conveyance synchronizing shafts 226 are provided; a second conveying synchronization shaft 226 is connected with a first synchronization bracket 2251 through a first synchronization wheel 2253; another second conveying synchronizing shaft 226 passes through a second synchronizing wheel 2254 and is connected with a second synchronizing bracket 2252; a second synchronous belt 2256 is sleeved between the second synchronous wheel two 2254 and the second synchronous wheel one 2253; a second synchronization support three 2255 is provided between second synchronization wheel two 2254 and second synchronization wheel one 2253. The supporting effect on the second synchronous belt 2256 is improved by arranging a third second synchronous bracket 2255; by providing the second synchronization support one 2251 and the second synchronization support two 2252, the second transport synchronization shaft can be fixed. The connection 33 is connected to a second synchronization carrier three 2255. The second conveying driven wheel 224 is driven to rotate by the second conveying driving motor 222, the second conveying driven wheel 224 drives the second conveying synchronous shaft 226 to rotate, and conveying of the flower basket by the second conveying synchronous device 215 is achieved through the second conveying synchronous shaft 226.

The connecting piece 33 is connected with the side surface of the first synchronous bracket III 2155; the connection 33 is connected to the side of the second synchronization carrier three 2255. In this embodiment, the first synchronization bracket three 2155 has a first groove 218 on the side; a second groove (not shown in the figure) is formed in the side surface of the third synchronous support 2255; the structure of the second groove is the same as that of the first groove. The connecting piece 3333 is provided with a convex part 331 protruding outwards; the projection 331 extends into the first and second grooves 213, 214. The connecting piece 3333 is connected with the side surfaces of the third first synchronous bracket and the third second synchronous bracket, and does not influence the conveying of the flower basket.

The first conveyor 21 further comprises a first stop device 2191; a first stop device 21911 is arranged on the first transport support 2192; the first transport support 2192 is connected to the first transport bracket 211; the second delivery device 22 further comprises second limiting means 2291; the second stop means are mounted on the second delivery support 2292; the second delivery support 2292 is connected to the second delivery stent 221. The flower basket is limited by the first limiting device and the second limiting device, and the first limiting device and the second limiting device are arranged; the matching effect of the flower basket and different stations is good; meanwhile, the first limiting device is arranged on the first conveying support member 2151; the second limiting device is arranged on the second conveying support piece; therefore, the first conveying device 21 and the second conveying device 22 can limit the flower basket in a normal working state; the first conveying device 21 and the second conveying device 22 do not need to be stopped; thus, the working efficiency is high.

The conveying device also comprises a conveying guide 4; more than one supporting plate (not shown in the figure) is arranged on both sides of the first synchronous bracket three 2155 and both sides of the second synchronous bracket three 2255; the conveying guide 4 is mounted on the support plate; the level of the conveying guide is higher than the levels of the first and second conveyor belts 2156 and 2256. Guiding the flower basket by a conveying guide member so that the flower basket moves along the conveying direction of the first conveying device 21 or the second conveying device 22; and can avoid the flower basket from separating from the first conveying device 21 or the second conveying device 22 when moving.

Claims (8)

1. The utility model provides a photovoltaic trade silicon chip material sender which characterized in that: the device comprises a rack and a conveying device, wherein the conveying device comprises a first conveying device and a second conveying device; the conveying directions of the first conveying device and the second conveying device are opposite; the frame comprises an upper layer bracket and a lower layer bracket; the first conveying device is arranged on the upper layer bracket through the height adjusting device, and the second conveying device is arranged on the lower layer bracket through the height adjusting device;

more than two transverse brackets are arranged on the upper layer bracket and the lower layer bracket, and more than two groups of height adjusting components are arranged; the first conveying device is arranged on the transverse bracket of the upper bracket through the height adjusting assembly; the second conveying device is arranged on the transverse bracket of the lower bracket through the height adjusting assembly;

the height adjusting assembly comprises a fixed seat and an adjusting device, the fixed seat is mounted on the transverse bracket, and the adjusting device is movably arranged on the fixed seat; the adjusting device comprises a moving piece, a connecting piece and an adjusting piece; the connecting piece is used for connecting the first conveying device and the moving piece, and connecting the second conveying device and the moving piece; the moving part is movably arranged on the fixed seat; the moving member includes an adjustment aperture; the adjusting piece is in threaded connection with the adjusting hole and is used for penetrating through the adjusting hole to be in contact with the transverse bracket; rotating the adjusting member changes the height position of the moving member on the adjusting member.

2. The photovoltaic industry silicon wafer distributing machine of claim 1, characterized in that: the fixed seat also comprises a positioning waist hole; the adjusting device comprises a positioning device; the moving piece also comprises a moving positioning hole; the positioning device is connected with the movable positioning hole and the positioning waist hole; the positioning device fixes the moving part on the fixed seat.

3. The photovoltaic industry silicon wafer distributing machine of claim 2, characterized in that: the positioning device comprises a positioning bolt and a positioning nut; the positioning bolt penetrates through the movable positioning hole and the positioning waist hole to be connected with the positioning nut.

4. The photovoltaic industry silicon wafer distributing machine of claim 1, characterized in that: the first conveying device comprises a first conveying support, a first conveying driving motor, a first conveying driving wheel, a first conveying driven wheel and a first conveying synchronous device; the first conveying driving motor is arranged on the first conveying support and is connected with the first conveying driving wheel; the first conveying synchronizing devices are symmetrically arranged on the left side and the right side of the first conveying support, and a first conveying synchronizing shaft is connected between the two first conveying synchronizing devices; the first conveying driven wheel is arranged on the first conveying synchronous shaft; a first conveying belt is sleeved between the first conveying driven wheel and the first conveying driving wheel; the moving member is connected with the first conveying support.

5. The photovoltaic industry silicon wafer distributing machine of claim 4, wherein: the second conveying device comprises a second conveying support, a second conveying driving motor, a second conveying driving wheel, a second conveying driven wheel and a second conveying synchronous device; the second conveying driving motor is arranged on the second conveying support and is connected with the second conveying driving wheel; the second conveying synchronizing devices are symmetrically arranged on the left side and the right side of the second conveying support, and a second conveying synchronizing shaft is connected between the two second conveying synchronizing devices; the second conveying driven wheel is arranged on the second conveying synchronous shaft; a second conveying belt is sleeved between the second conveying driven wheel and the second conveying driving wheel; the moving member is connected with the second conveying support.

6. The photovoltaic industry silicon wafer distributing machine of claim 5, wherein: the first conveying device also comprises a first limiting device; the first limiting device is arranged on the first conveying supporting piece, and the first conveying supporting piece is connected with the first conveying support; the second conveying device also comprises a second limiting device; the second limiting device is arranged on the second conveying supporting piece, and the second conveying supporting piece is connected with the second conveying support.

7. The photovoltaic industry silicon wafer distributing machine of claim 6, wherein: conveying guide parts are further arranged on the two sides of the first conveying device and the two sides of the second conveying device; the conveying guide has a level higher than that of the first and second conveying belts.

8. The photovoltaic industry silicon wafer distributing machine of claim 5, wherein: the first conveying synchronizer comprises a first synchronous support III, a first groove is inwards recessed in the inner side of the first synchronous support III, the second conveying synchronizer comprises a second synchronous support III, a second groove is inwards recessed in the inner side of the second synchronous support III, and a protruding part is outwards convexly arranged on the connecting piece; the protruding part extends into the first groove and the second groove.

Images