CN206766923U - A kind of silicon ingot transmission equipment - Google Patents

Abstract

It the utility model is related to material transmission field, disclose a kind of silicon ingot transmission equipment, the silicon ingot transmission equipment includes conveying arrangement and the silicon ingot positioner being arranged on conveying arrangement, silicon ingot positioner includes being stacked and being fixedly connected with two flaggies, wherein, the flaggy away from the conveying arrangement is the first flaggy in the silicon ingot positioner, and the first flaggy is provided with multiple first through hole arranged in arrays, and has the interval of setting between adjacent two first through hole；Flaggy in the silicon ingot positioner close to the conveying arrangement is the second flaggy, for each first through hole, second flaggy is provided with the second through hole connected with the first through hole, and the area of each first through hole is more than the area of the second through hole connected with the first through hole, and the step surface for supporting silicon ingot is formed between each first through hole and the second through hole connected with the first through hole.

Description

A kind of silicon ingot transmission equipment

Technical field

It the utility model is related to material transferring field, more particularly to a kind of silicon ingot transmission equipment.

Background technology

Polycrystal silicon ingot is after the completion of evolution, material is cleaned before the sub- ingot detection of progress, resistance test etc., for side Just clean and test sub- ingot, sub- ingot is put on transport vehicle or other transmitting devices will stablize and can not tilt, and leave it is certain between Gap, it is convenient that sub- ingot is carried out to handle while be also convenient for the sub- ingot of robot carrying.

At present, most of put prevents sub- ingot from mutually colliding with per being separated between straton ingot with millboard for the stacking of bundle ingot, Move sub- ingot, wiping one by one before detection, stacking again after detection, cause the duplication of labour, and worker is when carrying sub- ingot Easily produce to collide with and cause damage, automated production machine people also can not directly capture sub- ingot.

Utility model content

The utility model provides a kind of silicon ingot transmission equipment, is answered to solve the cleaning test job of prior art neutron ingot It is miscellaneous, and easily cause the problem of sub- ingot collides with.

The utility model provides a kind of silicon ingot transmission equipment, and the silicon ingot transmission equipment includes conveying arrangement and is arranged on Silicon ingot positioner on the conveying arrangement, the silicon ingot positioner include two plates for being stacked and being fixedly connected Layer, wherein,

The flaggy away from the conveying arrangement is the first flaggy in the silicon ingot positioner, and first flaggy is provided with Multiple first through hole arranged in arrays, and there is the interval of setting between adjacent two first through hole；

Close to the flaggy of the conveying arrangement it is the second flaggy in the silicon ingot positioner, for each first through hole, Second flaggy is provided with the second through hole connected with the first through hole, and the area of each first through hole is more than and this The area of second through hole of first through hole connection, between each first through hole and the second through hole connected with the first through hole Form the step surface for supporting silicon ingot.

In above-described embodiment, by the way that silicon ingot is placed on the step surface of first through hole and the formation of the second through hole so that silicon Ingot is arranged in arrays, on the one hand plays positioning action to silicon ingot, is easy to the carrying of silicon ingot, prevents from producing in transportation and knocks Touch, while avoid the process that stacking is repeated in detection process, improve operating efficiency；On the other hand, it is easy to manipulator to capture The cleaning of silicon ingot and silicon ingot.

During specific setting, first flaggy and second flaggy are structure as a whole, i.e., being set on sheet material has platform The through hole of stage structure, silicon ingot is placed on step surface in through-holes, be so advantageous to improve the stabilization of the silicon ingot positioner Property, avoid the first flaggy and the second flaggy relative position from influenceing the placement effect of silicon ingot when changing.

In a specific embodiment, second flaggy is the flaggy that elastomeric material is made.Elastomeric material system The second flaggy made has the function that certain relax is impacted, and prevents that the edge of silicon ingot is knocked with the second flaggy when piling up silicon ingot Touch and damaged.

Preferably, the silicon ingot positioner also includes the 3rd flaggy, and the 3rd flaggy deviates from second flaggy The one side of first flaggy is fixedly connected, and is provided with and second through hole for each second through hole, the 3rd flaggy The third through-hole of connection.3rd flaggy is played a supporting role to the second flaggy, improves the stability of the silicon ingot positioner.

Preferably, connection, second flaggy and institute are detachably fixed between first flaggy and second flaggy State and be detachably fixed connection between the 3rd flaggy.

Preferably, the 3rd flaggy is steel plate, and steel plate has certain intensity, is advantageous to improve the silicon ingot positioner Stability.

When specifically setting first through hole, each first through hole is square hole.First through hole is arranged to pros Shape hole, be advantageous to the angles of each silicon ingot of specification, i.e., make the side wall of silicon ingot parallel with the side wall of first through hole when putting, It is easy to do mechanization operation, prevents from making manipulator cause to damage to the edge of silicon ingot in crawl because silicon ingot angles are improper.

Preferably, each angle between the side wall of first through hole and the side wall of first flaggy is 45 °.First Through hole space-consuming arranged in arrays for being advantageous to save the silicon ingot positioner in a manner of tilting 45° angle.

Preferably, the axis of each first through hole and the second through hole connected with the first through hole overlaps, described every The axis of individual second through hole and the third through-hole connected with second through hole overlaps, and is so provided with what is placed beneficial to raising silicon ingot Stationarity.

In above-mentioned embodiment, the conveying arrangement is conveyer belt or transmission vehicle.Conveyer belt or transmission vehicle position silicon ingot Device is transported to the job site specified to complete the tasks such as the detection of silicon ingot, cleaning.

Brief description of the drawings

Fig. 1 is the partial top view for the silicon ingot positioner that the utility model embodiment provides；

Fig. 2 is the A-A views of silicon ingot positioner in Fig. 1.

10- the first flaggy 11- first through hole 20- the second flaggy the second through holes of 21-

The flaggy 31- third through-holes of 30- the 3rd

Embodiment

In order that the purpose of this utility model, technical scheme and advantage are clearer, it is new to this practicality below in conjunction with the accompanying drawings Type is described in further detail, it is clear that and described embodiment is only the utility model part of the embodiment, rather than entirely The embodiment in portion.Based on the embodiment in the utility model, those of ordinary skill in the art are not before creative work is made The every other embodiment obtained is put, belongs to the scope of the utility model protection.

The utility model embodiment provides a kind of silicon ingot transmission equipment, silicon ingot transmission set including conveying arrangement and The silicon ingot positioner being arranged on conveying arrangement, wherein, conveying arrangement is conveyer belt or transmission vehicle etc., silicon ingot positioner Structure as shown in figure 1, the silicon ingot positioner includes two flaggies being stacked and be fixedly connected, wherein, away from transport dress The flaggy put is the first flaggy 10, and the flaggy close to conveying arrangement is the second flaggy 20, and it is in square that the first flaggy 10, which is provided with multiple, The first through hole 11 of battle array arrangement, and there is the interval of setting between adjacent two first through hole 11, first through hole 11 plays fixed Position effect, silicon ingot, which passes through, to be placed on after first through hole 11 on second flaggy 20 and arranged in arrays, avoids in detection process weight The process of multiple stacking, is easy to the carrying of silicon ingot, and adjacent two silicon ingots are spaced apart, and are prevented from producing in transportation and are knocked Touch, also capturing silicon ingot for manipulator provides convenience.

During specific setting, the first flaggy 10 is nylon sheet or plastic plate, and first through hole 11 is square hole, by first through hole 11 are arranged to square hole, are advantageous to carry out specification to the angles of each silicon ingot, that is, pass through the silicon ingot of excavation machine well cutting When being placed on silicon ingot positioner, it can be reference with first through hole 11, make the angles of each silicon ingot consistent, specifically , make the side wall of silicon ingot parallel with the side wall of first through hole 11, so can by adjusting the crawl angle of manipulator so that Manipulator can clamp two relative side walls of each silicon ingot when capturing silicon ingot, avoid because silicon ingot angles are improper Manipulator is set to cause to damage to the edge of silicon ingot in crawl.First through hole 11 is arranged in arrays on the first flaggy 10, specifically , the angle between the side wall of the side wall of each first through hole 11 and the first flaggy 10 is 45 °, and first through hole 11 is with 45 ° of inclination Mode on the first flaggy 10 space-consuming arranged in arrays for being advantageous to save the silicon ingot positioner.It is specific at one In embodiment, the length and width of silicon ingot are equal, and the length of side is between 157~158mm, a height of 300mm, for carrying the silicon ingot of the silicon ingot Positioner is as shown in figure 1, wherein, first through hole 11 is square hole of the length of side between 160~162mm, and along parallel In the direction of the side wall of the first flaggy 10, the distance between the axis of adjacent two first through hole 11 between 250~255mm it Between, when placing silicon ingot, silicon ingot is stood and piled up in first through hole 11, though silicon ingot is high parallel to first through hole 11, and The side wall of silicon ingot and the side wall keeping parallelism of first through hole 11, in mechanical manual task, adjust the crawl angle of manipulator, make machine Tool hand can successfully clamp two side walls of silicon ingot.

For the ease of the cleaning of silicon ingot, for each first through hole 11, the second flaggy 20 is provided with and the first through hole 11 Second through hole 21 of connection, and the aperture area of each first through hole 11 is more than the second through hole 21 connected with the first through hole 11 Aperture area, formed between each first through hole 11 and the second through hole 21 connected with the first through hole 11 for supporting silicon ingot Step surface.Specifically, multiple correspond and connect with first through hole 11 as shown in Fig. 2 setting on the second flaggy 20 Second through hole 21, and step surface is formed between the interconnected through hole 21 of first through hole 11 and second, silicon ingot passes through first through hole It is placed on after 11 on step surface, so sets to allow and discharged for cleaning the liquid of silicon ingot by the second through hole 21.

Specific when setting, the second flaggy 20 is the flaggy that elastomeric material is made, the second flaggy that elastomeric material makes 20 have the function that certain relax is impacted, and prevent that the edge of silicon ingot collides with and damaged with the second flaggy 20 when piling up silicon ingot It is bad, specifically, the second flaggy 20 can be made by elastomeric material, can also be made up of pvc material.Second flaggy Through hole on 20 could be arranged to the hole of square hole, circular port or other shapes, in a specific embodiment, such as Fig. 1 Shown, the second through hole 21 is the square hole that the length of side is 120mm, and the second through hole 21 is in a manner of tilting 45 ° in the second flaggy 20 Upper arranged in arrays, i.e., the angle between the side wall of each second through hole 21 and the side wall of the second flaggy 20 is 45 °；Each first The axis of the axis of through hole 11 and the second through hole 21 connected with the first through hole 11 overlaps, and silicon ingot is placed on the He of first through hole 11 On the step surface that the second through hole 21 connected with the first through hole 11 is formed, when both axis overlap, be advantageous to improve silicon ingot The stationarity of placement.

During specific connection, the first flaggy 10 is detachably fixed with the second flaggy 20 and is connected, such as the first flaggy 10 and the second plate Layer 20 is detachably fixed connection by fixedly connected parts such as screw, bolts, or the first flaggy 10 and the second flaggy 20 pass through glue Body is adhesively fixed, and in Fig. 1, the first flaggy 10 is fixedly connected with the second flaggy 20 by screw.In addition, the first flaggy 10 and second Flaggy 20 may be arranged as integrative-structure, i.e., the through hole with ledge structure is set on sheet material, silicon ingot is placed on into through hole In step surface on, be so advantageous to improve the stability of the silicon ingot positioner, avoid the first flaggy 10 and the second flaggy 20 The placement effect of silicon ingot is influenceed when relative position changes.

With continued reference to Fig. 2, the silicon ingot conveyer also includes the 3rd flaggy 30, and the 3rd flaggy 30 deviates from the second flaggy 20 The one side of first flaggy 10 is fixedly connected, specifically, be detachably fixed connection between the 3rd flaggy 30 and the second flaggy 20, such as the Three flaggies 30 are detachably fixed by fixedly connected parts such as screw, bolts with the second flaggy 20 and are connected, or the He of the second flaggy 20 3rd flaggy 30 is adhesively fixed by colloid；3rd flaggy 30 plays support to the second flaggy 20 being made by elastomeric material Effect, such as the 3rd flaggy 30 is steel plate, and steel plate has certain intensity, is advantageous to improve the stability of the silicon ingot positioner. For each second through hole 21, the 3rd flaggy 30 is provided with the third through-hole 31 that is connected with second through hole 21, specifically, the Multiple third through-holes 31 for corresponding and connecting with the second through hole 21 are set on three flaggies 30 so that are cleaned to silicon ingot When, liquid and impurity can discharge from third through-hole 31.Third through-hole 31 could be arranged to square hole, circular port or other The hole of shape, in a specific embodiment, as shown in figure 1, third through-hole 31 is the square hole that the length of side is 80mm, the 3rd The aperture area of through hole 31 is smaller, is advantageous to improve support effect of the 3rd flaggy 30 to the second flaggy 20, while improve the silicon The stability of ingot positioner；The axis of the axis of each second through hole 21 and the third through-hole 31 connected with second through hole 21 Overlap, and each angle between the side wall of third through-hole 31 and the side wall of the 3rd flaggy 30 is 45 °.

In above-described embodiment, first through hole 11, the second through hole 21, the position of third through-hole 31 are closed in the silicon ingot positioner As shown in Fig. 2 first through hole 11, the second through hole 21, third through-hole 31 are all square hole, aperture area is sequentially reduced for system；It is right The first through hole 11 that should set, the second through hole 21, the axis of third through-hole 31 overlap, and all in a manner of tilting 45 ° It is arranged in arrays on corresponding flaggy, wherein, silicon ingot is placed on the step surface of the through hole 21 of first through hole 11 and second formation, Liquid for cleaning silicon ingot is discharged from third through-hole 31.

By above description it can be found that the utility model embodiment sets first through hole 11 to be used on the first flaggy 10 The positioning of silicon ingot, it is easy to the carrying of silicon ingot；Second through hole 21 is set on the second flaggy 20, makes the through hole of first through hole 11 and second The step surface for supporting silicon ingot is formed between 21, and the second flaggy 20 plays mitigation impact made of elastomeric material Effect, prevents from producing during piling up and collides with；Third through-hole 31 is set on the 3rd flaggy 30 so that in cleaning, liquid It is easy to discharge from third through-hole 31 with impurity, also, the 3rd flaggy 30 plays a supportive role to the second flaggy 20, is advantageous to improve The stability of whole device；The silicon ingot positioner avoids the process that stacking is repeated in detection process, improves operating efficiency.

Obviously, those skilled in the art can carry out various changes and modification without departing from this practicality to the utility model New spirit and scope.So, if these modifications and variations of the present utility model belong to the utility model claims and Within the scope of its equivalent technologies, then the utility model is also intended to comprising including these changes and modification.

Claims (10)

1. a kind of silicon ingot transmission equipment, it is characterised in that including conveying arrangement and the silicon ingot being arranged on the conveying arrangement Positioner, the silicon ingot positioner include two flaggies for being stacked and being fixedly connected, wherein,

The flaggy away from the conveying arrangement is the first flaggy in the silicon ingot positioner, and first flaggy is provided with multiple First through hole arranged in arrays, and there is the interval of setting between adjacent two first through hole；

Flaggy in the silicon ingot positioner close to the conveying arrangement is the second flaggy, described for each first through hole Second flaggy is provided with the second through hole connected with the first through hole, and the aperture area of each first through hole is more than and this The aperture area of second through hole of first through hole connection, each first through hole and the second through hole connected with the first through hole Between form the step surface for supporting silicon ingot.

2. silicon ingot transmission equipment as claimed in claim 1, it is characterised in that first flaggy and second flaggy are one Body structure.

3. silicon ingot transmission equipment as claimed in claim 1, it is characterised in that second flaggy is made for elastomeric material Flaggy.

4. silicon ingot transmission equipment as claimed in claim 3, it is characterised in that the silicon ingot positioner also includes the 3rd plate Layer, the 3rd flaggy are fixedly connected with one side of second flaggy away from first flaggy, and logical for each second Hole, the 3rd flaggy are provided with the third through-hole connected with second through hole.

5. silicon ingot transmission equipment as claimed in claim 4, it is characterised in that between first flaggy and second flaggy Connection is detachably fixed, connection is detachably fixed between second flaggy and the 3rd flaggy.

6. silicon ingot transmission equipment as claimed in claim 4, it is characterised in that the 3rd flaggy is steel plate.

7. silicon ingot transmission equipment as claimed in claim 4, it is characterised in that each first through hole is square hole.

8. silicon ingot transmission equipment as claimed in claim 7, it is characterised in that the side wall of each first through hole and described the Angle between the side wall of one flaggy is 45 °.

9. silicon ingot transmission equipment as claimed in claim 7, it is characterised in that each first through hole and with the first through hole The axis of second through hole of connection overlaps, the axis weight of each second through hole and the third through-hole connected with second through hole Close.

10. the silicon ingot transmission equipment as described in any one of claim 1~9, it is characterised in that the conveying arrangement is conveyer belt Or transmission vehicle.