CN203746810U - Rotating mechanism for steering silicon chip basket - Google Patents

Abstract

The utility model relates to the field of silicon chip production, in particular to a rotating mechanism for steering a silicon chip basket. The rotating mechanism comprises a rotating unit and a conveying unit, wherein the rotating unit is supported by a support, the conveying unit is supported and connected through a connecting plate via the rotating unit, and the rotating unit is a rotating cylinder. According to the utility model, the rotating cylinder rotates to drive the conveying unit and the silicon chip basket located above the conveying unit to rotate, so that steering of the silicon chip basket is realized, reversing of the silicon chip basket between different processes is effectively realized, the fragment rate of silicon chips in the conveying process is lowered, and the production efficiency is improved; besides, the rotating cylinder enables the silicon chip basket to be steered more steadily and accurately.

Description

A kind of rotating mechanism for silicon chip flower basket is turned to

Technical field

The utility model relates to silicon chip production field, relates in particular to a kind of rotating mechanism for silicon chip flower basket is turned to.

Background technology

Along with global greenhouse effect is day by day serious, the exhaustion day by day of oil, natural gas, coal, environmental protection and energy saving have become the theme of world development.Solar energy, as clean, safe regenerative resource, is the developing direction of global new forms of energy.Under the guidance of national novel energy and regenerative resource industrial policy and under the drive of American-European solar energy market solid demand, recent year photovoltaic industry obtains develop rapidly.At present, China has become solar cell and has manufactured big country, has the maximum manufacture of solar cells producer in the whole world and production capacity over half.Along with the explosive growth of global solar photovoltaic industry, suitable with conventional power generation usage cost for field of solar energy unit's cost of electricity-generating is reduced to, solar battery sheet manufacturer more and more an urgent demand is used high integrated, supermatic production line.

At present, the chip transmission between each technique unit of crystal silicon solar batteries slice assembly line is loaded silicon chip with stacking type or two kinds of modes of card slot type, then adopts dolly a dead lift.This mode efficiency is low, is unfavorable for large-scale production.In order to realize full-automatic large-scale production, the chip transmission between each technique unit must adopt automatic transmission system to realize.Especially, in order to meet processing request, in automated production process, work piece will commutate in transmitting procedure, especially, requires commutation accurately, steadily to frangible workpiece.But the stationarity of existing rotating mechanism commutation process, accuracy cannot meet the processing of silicon chip.For this reason, be badly in need of a kind of rotating mechanism for silicon chip flower basket is turned to.

Utility model content

(1) technical problem that will solve

The technical problems to be solved in the utility model is to provide a kind of rotating mechanism for silicon chip flower basket is turned to, to overcome balance and the poor defect of accuracy in rotating mechanism steering procedure of the prior art.

(2) technical scheme

In order to solve the problems of the technologies described above, the utility model provides a kind of rotating mechanism for silicon chip flower basket is turned to, comprise by the rotary unit of stent support and by described rotary unit and pass through the transmission unit of connecting plate support and connection, wherein, described rotary unit is rotary cylinder.

Wherein, described transmission unit comprises two transmission unit supporting brackets, end face disk, a pair of driving wheel, the two pairs of driven pulleys, two conveyer belts and servomotor, described transmission unit supporting bracket symmetry is arranged on the both sides of described connecting plate, and described end face disc level is arranged on the top of described transmission unit supporting bracket; Described driving wheel and driven pulley are rotatably mounted in two described transmission unit supporting brackets with symmetric mode; Described driven pulley level is arranged on the position of described transmission unit supporting bracket near described end face disk, and the top edge of described driven pulley is higher than the upper disk surface of described end face disk; Described two conveyer belts are wrapped in respectively on the driving wheel and driven pulley being positioned in same transmission unit supporting bracket; Described servomotor is connected with described driving wheel by rotation axis, to drive driving wheel to rotate.

Wherein, described transmission unit also comprises decelerator, and described servomotor is connected with described rotation axis by decelerator.

Wherein, the upper disk surface of described end face disk is provided with two gib blocks, and described two gib blocks lay respectively at the outside of corresponding conveyer belt, and the distance between described two gib blocks is greater than the width of silicon chip flower basket.

Wherein, the two ends of described gib block are horn opening.

Wherein, also comprise tensioning adjusting part, described tensioning adjusting part comprises regulating wheel, the quiet plate of the tensioning being parallel to each other and tensioning moving plate, inner screw and draws screw outward, and the quiet plate of described tensioning is across being fixed in transmission unit supporting bracket; The moving plate of described tensioning is across being slidably connected in transmission unit supporting bracket; Described regulating wheel is rotatably mounted on the two ends of the moving plate of tensioning; The quiet plate of described tensioning is provided with through hole and screwed hole; Described inner screw is arranged on the screwed hole of the quiet plate of tensioning, and the end of inner screw withstands on the moving plate of tensioning; Described outer drawing on screw is equipped with adjusting nut, draws screw to pass the through hole of the quiet plate of tensioning outward, and its end is fixed on the moving plate of tensioning.

Wherein, described rotating mechanism also comprise control system and the charging transducer that is connected with described control system, to level sensor and discharging transducer; Described control system is connected with described rotary unit and transmission unit respectively; Described charging installation of sensors is in the position of charging aperture; Described discharging installation of sensors is in the position of discharging opening; The described installation of sensors that puts in place is on described end face disk.

Wherein, described rotating mechanism also comprises guard shield, and described guard shield comprises the upper shield covering on described transmission unit and is arranged on the lower shield of described support surrounding.

Wherein, between two described transmission unit supporting brackets, be provided with end face supporting bracket, end face supporting bracket, across in two described transmission unit supporting brackets, is positioned at the below of described end face disk.

Wherein, the angle of described rotating mechanism rotation is 90 degree.

(3) beneficial effect

The rotating mechanism that technique scheme provides, consists of the transmission unit of connecting plate support and connection by the rotary unit of stent support with by rotary unit.Wherein, rotary unit is rotary cylinder.By transmission unit, silicon chip flower basket is sent to the position that silicon chip flower basket need to turn to, then drives transmission unit by the rotation of rotary cylinder and be positioned at the silicon chip flower basket rotation of transmission unit top, to realize turning to of silicon chip flower basket.This mechanism, by adopting rotary cylinder, has realized the commutation of the gaily decorated basket at different inter processes effectively, has reduced the fragment rate of silicon chip in transmitting procedure, has improved production efficiency, and rotary cylinder makes turning to of the gaily decorated basket more steady, accurate.In addition, this mechanism structure is simple, easy to use.

Brief description of the drawings

Fig. 1 is the front view of rotating mechanism;

Fig. 2 is the vertical view of rotating mechanism;

Fig. 3 is the schematic perspective view of the internal structure of rotating mechanism;

Fig. 4 is the enlarged drawing of I part in Fig. 4;

Fig. 5 is the structural representation of the transmission unit of rotating mechanism;

Fig. 6 is the cutaway view of Fig. 5 along B-B part;

Fig. 7 is the upward view of the transmission unit of rotating mechanism.

Wherein: 1-upper shield; 2-lower shield; 3-support; 4-backplate; 5-is to level sensor; 6-end face disk; 7-rotary unit supporting bracket; 8-rotary cylinder; 9-two-position five-way double electric control electromagnetically operated valve; 10-choke valve; 11-connecting plate; 12-servomotor; 13-transmission unit supporting bracket; 14-rotation axis; 15-driving wheel; 16-driven pulley; 17-regulating wheel; 18-belt; Plate is moved in 19-tensioning; The quiet plate of 20-tensioning; Screw in 21-; 22-draws screw outward; 23-adjusting nut; 24-end face supporting bracket; 25-charging transducer; 26-discharging transducer; 27-gib block.

Embodiment

Below in conjunction with drawings and Examples, embodiment of the present utility model is further described.Following examples are used for illustrating the utility model, but are not used for limiting scope of the present utility model.

Fig. 1 to Fig. 7 illustrates the preferred embodiment of the utility model for the rotating mechanism that makes silicon chip flower basket and turn to.According to this embodiment, rotating mechanism of the present utility model comprises the rotary unit being supported by support 3 and passes through the transmission unit of connecting plate 11 support and connection by rotary unit, wherein, rotary unit is used for making transmission unit rotation, thereby drives the silicon chip flower basket that is positioned at transmission unit top to turn to; And transmission unit is used for the silicon chip flower basket entering from gaily decorated basket transport sector rotating mechanism to be sent to the position that need to turn to, and after turning to, silicon chip flower basket silicon chip flower basket is transported on another gaily decorated basket transport sector.This rotary unit comprises rotary unit supporting bracket 7 and is positioned at the rotary cylinder 8 in rotary unit supporting bracket 7.This rotary cylinder 8 comprises two-position five-way double electric control electromagnetically operated valve 9 and choke valve 10, by rotary cylinder 8 being rotated to the control of two-position five-way double electric control electromagnetically operated valve 9, the silicon chip flower basket that rotarily drives transmission unit and be positioned on transmission unit of rotary cylinder 8 is rotated, the concrete anglec of rotation is determined by the anglec of rotation of selected rotary cylinder 8, in the preferred embodiment, the anglec of rotation is 90 °.Certainly, those skilled in the art also it is contemplated that other the anglec of rotation, for example 180 ° and 270 °.

Particularly, transmission unit comprises two transmission unit supporting brackets 13, end face disk 6 and drive unit, and wherein, two transmission unit supporting bracket 13 symmetries are arranged on the both sides of connecting plate 11, and end face disk 6 levels are arranged on the top of transmission unit supporting bracket 13.Drive unit comprises a pair of driving wheel 15, the two pairs of driven pulleys 16, two conveyer belts 18 and servomotors 12.Driving wheel 15 and driven pulley 16 are rotatably mounted in two transmission unit supporting brackets 13 with symmetric mode respectively; Two pairs of driven pulley 16 levels are arranged on the position of transmission unit supporting bracket 13 near end face disk 6, and the top edge of driven pulley 16 is higher than the about 0.5mm of upper disk surface of end face disk 6; Article two, conveyer belt 6 is wrapped in respectively on the driving wheel 19 and driven pulley 20 being positioned in same transmission unit supporting bracket 12.Servomotor 12 is connected with driving wheel 15 by rotation axis 14, be used for driving driving wheel 15 to rotate, thereby drive conveyer belt 18 to move, make silicon chip flower basket above end face disk 6, under the drive across the part conveyer belt 18 on two horizontal driven pulleys 16, move reposefully.

When rotating mechanism work, when silicon chip flower basket enters end face disk 6 across on two conveyer belts 18 time, the servomotor 12 in transmission unit drives rotation axis 14 to rotate, and driving wheel 15 and driven pulley 16 are rotated, thereby drive conveyer belt 6 to move, to transmit silicon chip flower basket.In the time that silicon chip flower basket moves to the steering position of setting, transmission unit quits work.Then, start rotary unit, the rotary cylinder 8 that makes to be arranged in rotary unit supporting bracket 7 rotates, and to drive the transmission unit being supported by rotary unit to rotate, thereby silicon chip flower basket is rotated.In this embodiment, in the time that silicon chip flower basket rotates 90 °, rotary unit quits work.Then, transmission unit continues the silicon chip flower basket after transmission turns to, until silicon chip flower basket leaves end face disk 6, now transmission unit quits work, and rotary unit resets, to turn to work next time.

Further, transmission unit also comprises decelerator (not shown), and servomotor 12 is connected with rotation axis 14 by decelerator.By servomotor 12 and coordinating of decelerator driving transmission unit mobile silicon chip flower basket reposefully.

Further, the upper disk surface of end face disk 6 is provided with 27, two gib blocks 27 of two gib blocks and lays respectively at the outside of corresponding conveyer belt 18, and the distance between two gib blocks 27 should be greater than the width of silicon chip flower basket.By this gib block 27, make silicon chip flower basket enter smoothly end face disk 6, in the time that end face disk 6 rotates along with rotary unit, silicon chip flower basket also can be followed exactly end face disk 6 and is rotated, and has ensured like this accuracy turning to simultaneously.Preferably, for silicon chip flower basket being entered smoothly and leaving end face disk 6, be provided with horn opening at the two ends of two gib blocks 27.

Further, as shown in Figure 7, in order to prevent that conveyer belt 18 from cannot transmit silicon chip flower basket because long-time use fluffs, this transmission unit also comprises tensioning adjusting part, tensioning moving plate 19 and the quiet plate 20 of tensioning, the inner screw 21 that this tensioning adjusting part comprises regulating wheel 17, be parallel to each other and draw screw 22 outward.The moving plate 19 of tensioning is across being slidably connected in transmission unit supporting bracket 13; The quiet plate 20 of tensioning is across being fixed in transmission unit supporting bracket 13; Regulating wheel 17 is rotatably mounted on the two ends of the moving plate 19 of tensioning, and conveyer belt 6 is wrapped on driving wheel 15, driven pulley 16 and regulating wheel 17 successively.The quiet plate 20 of tensioning is provided with through hole and screwed hole, and inner screw 21 is arranged in the screwed hole of the quiet plate 20 of tensioning, and the end of inner screw 21 withstands on the moving plate 19 of tensioning; Draw outward on screw 22 adjusting nut 23 is housed, draw the through hole of screw 22 through the quiet plate 20 of tensioning outward, its end is fixed on the moving plate 19 of tensioning.The position of adjusting nut 23 between head of screw and the quiet plate 20 of tensioning, in the time regulating regulating wheel 17, first inner screw 21 is unscrewed, then turn adjusting nut 23, by regulating tightly moving plate 19 of outer adjusting nut 22 tension, make conveyer belt 18 tensionings, finally inner screw 21 is tightened, complete the adjusting of regulating wheel 31.

Further, this rotating mechanism also comprises control system and the charging transducer 25 being connected with control system respectively, arrives level sensor 5 and discharging transducer 26; Charging transducer 25 is arranged on charging aperture position, whether enters into rotating mechanism for detection of silicon chip flower basket; Discharging transducer 26 is arranged on discharging opening position, whether leaves rotating mechanism for detection of silicon chip flower basket; Be arranged on end face disk 6 to level sensor 5, whether arrive predefined steering position for detection of silicon chip flower basket.In addition, control system is connected with transmission unit and rotary unit respectively, for controlling the startup of transmission unit and rotary unit and stopping.

In the time that charging transducer 25 detects that silicon chip flower basket enters the signal of end face disk 6, send a signal to control system, then worked by control system control transmission unit, mobile silicon chip flower basket; In the time detecting that to level sensor 5 silicon chip flower basket arrives the steering position of setting, send a signal to control system, then quit work by control system control transmission unit, and control rotary unit and be rotated, turn to the silicon chip flower basket that drives transmission unit and be positioned at above transmission unit, after turning to end, control system is again controlled transmission unit and is carried out work, mobile silicon chip flower basket; In the time that discharging transducer 26 detects that silicon chip flower basket leaves end face disk 6, control system control transmission unit quits work, and controls rotary unit reset, to work next time.

Further, this rotating mechanism also comprises guard shield, and guard shield comprises the upper shield 1 that covers on transmission unit and the lower shield 2 that is arranged on support 3 surroundings.Guard shield separates the inner member of rotating mechanism and space outerpace, to prevent the inner member deposition dust of rotating mechanism, thereby ensures the normal work of rotating mechanism.In addition, mechanism being arranged in the process of workbench, lower shield 2 also plays the effect of support.In addition,, in order to prevent that silicon chip flower basket from skidding off from rotating mechanism, be provided with backplate 4 in the both sides of rotating mechanism.

Further, for the bulk strength and the stability that make transmission unit are improved, be provided with an end face supporting bracket 24 between two transmission unit supporting brackets 13, end face supporting bracket 24, across in two transmission unit supporting brackets 13, is positioned at the below of end face disk 6.

Above execution mode is only for the utility model is described, and is not limitation of the utility model, and the those of ordinary skill in relevant technologies field, in the situation that not departing from spirit and scope of the present utility model, can also make a variety of changes and modification.Therefore all technical schemes that are equal to also belong to protection category of the present utility model.

Claims (10)

1. the rotating mechanism for silicon chip flower basket is turned to, comprises by the rotary unit of stent support and by described rotary unit and passes through the transmission unit of connecting plate support and connection, it is characterized in that, described rotary unit is rotary cylinder.

2. rotating mechanism according to claim 1, it is characterized in that, described transmission unit comprises two transmission unit supporting brackets, end face disk, a pair of driving wheel, the two pairs of driven pulleys, two conveyer belts and servomotor, described transmission unit supporting bracket symmetry is arranged on the both sides of described connecting plate, and described end face disc level is arranged on the top of described transmission unit supporting bracket; Described driving wheel and driven pulley are rotatably mounted in two described transmission unit supporting brackets with symmetric mode; Described driven pulley level is arranged on the position of described transmission unit supporting bracket near described end face disk, and the top edge of described driven pulley is higher than the upper disk surface of described end face disk; Described two conveyer belts are wrapped in respectively on the driving wheel and driven pulley being positioned in same transmission unit supporting bracket; Described servomotor is connected with described driving wheel by rotation axis, to drive driving wheel to rotate.

3. rotating mechanism according to claim 2, is characterized in that, described transmission unit also comprises decelerator, and described servomotor is connected with described rotation axis by decelerator.

4. rotating mechanism according to claim 2, it is characterized in that, the upper disk surface of described end face disk is provided with two gib blocks, and described two gib blocks lay respectively at the outside of corresponding conveyer belt, and the distance between described two gib blocks is greater than the width of silicon chip flower basket.

5. rotating mechanism according to claim 4, is characterized in that, the two ends of described gib block are horn opening.

6. rotating mechanism according to claim 2, it is characterized in that, also comprise tensioning adjusting part, described tensioning adjusting part comprises regulating wheel, the quiet plate of the tensioning being parallel to each other and tensioning moving plate, inner screw and draws screw outward, and the quiet plate of described tensioning is across being fixed in transmission unit supporting bracket; The moving plate of described tensioning is across being slidably connected in transmission unit supporting bracket; Described regulating wheel is rotatably mounted on the two ends of the moving plate of tensioning; The quiet plate of described tensioning is provided with through hole and screwed hole; Described inner screw is arranged on the screwed hole of the quiet plate of tensioning, and the end of inner screw withstands on the moving plate of tensioning; Described outer drawing on screw is equipped with adjusting nut, draws screw to pass the through hole of the quiet plate of tensioning outward, and its end is fixed on the moving plate of tensioning.

7. according to the rotating mechanism described in any one in claim 2 to 6, it is characterized in that, described rotating mechanism also comprises control system and the charging transducer that is connected with described control system, to level sensor and discharging transducer; Described control system is connected with described rotary unit and transmission unit respectively; Described charging installation of sensors is in the position of charging aperture; Described discharging installation of sensors is in the position of discharging opening; The described installation of sensors that puts in place is on described end face disk.

8. rotating mechanism according to claim 7, is characterized in that, described rotating mechanism also comprises guard shield, and described guard shield comprises the upper shield covering on described transmission unit and is arranged on the lower shield of described support surrounding.

9. rotating mechanism according to claim 7, is characterized in that, between two described transmission unit supporting brackets, is provided with end face supporting bracket, and end face supporting bracket, across in two described transmission unit supporting brackets, is positioned at the below of described end face disk.

10. rotating mechanism according to claim 7, is characterized in that, the angle of described rotating mechanism rotation is 90 degree.