CN203449296U - Silicon single crystal rod storage device - Google Patents

Abstract

The utility model belongs to the technical field of single crystal silicon, and provides a silicon single crystal rod storage device. The device comprises a pair of upper panels which are mounted on a bottom plate in parallel; roller brackets which are respectively arranged on the opposite sides of the upper panel; rollers which are mounted on the roller brackets, wherein the rollers on the two sides of the roller brackets are opposite to each other and the rollers on one side are spaced from each other; a cylinder, wherein the movement part of the cylinder is a square platform capable of moving along the length direction of the bottom plate, a collision block is mounted on the upper part of the square platform, and a displacement sensor is arranged on the side surface of the square platform, silicon single crystal rod detection sensor brackets are arranged on the two sides of the bottom plate and the upper panels in the opposite way and provided with sensors for detecting the dimension and the shape of the silicon single crystal rod. The silicon single crystal rod storage device can store the 6 inch and 8 inch round silicon single crystal rods and square silicon single crystal rods, can measure the length of the silicon single crystal rods, and store the various items of data of the silicon single crystal rods and unified manage the data, facilitate the physical distribution transportation with the other working processes, without artificial participation. The silicon single crystal rod storage device is suitable for full automatic control for the silicon single crystal rod production line processing workshop.

Description

A kind of silicon single crystal rod storage device

Technical field

The utility model relates to a kind of silicon single crystal rod storage device, and particularly a kind of silicon single crystal rod streamline job shop, for storing the device of silicon single crystal rod, belongs to single silicon field.

Background technology

In solar module production process, with monocrystalline silicon, as the raw material of solar module, because having the feature that photoelectric transformation efficiency is high, it is more and more applied.

When producing solar battery sheet, first the silicon single crystal rod of monocrystal growing furnace growth to be cut into the short pole of certain length, and then short pole to be processed into after butt, grinding process to four jiaos be the square rod of circular arc, finally, again by square rod cutting flakiness, these thin slices have just become solar battery sheet after subsequent treatment.At present, all need manually silicon single crystal rod to be moved into butting machine in process, grinding square silicon rod later also needs manually to unload rear preservation, so not only time-consuming but also be not easy to management, also waste of manpower.From now on, pipelining will become a kind of trend, after flow shop builds up, and all process steps Automatic Control, without artificial participation, at this moment need a temporary transient storage crystal bar device for storing the square crystal rod after circular crystal bar after cut-out and butt, grinding.This storage device will facilitate the logistics transportation of each inter process, also will automatically measure the length of crystal bar, the size and dimension of identification crystal bar, could meet like this unified management and the preservation of crystal bar, and automatic editing processing technology.

This use is novel provides a kind of silicon single crystal rod storage device, can be for temporarily depositing the silicon single crystal rod of different size, this storage device can be measured the silicon rod length of putting into wherein, the size and dimension of identification silicon rod, being highly suitable for crystal bar process line workshop, is an indispensable part in the full-automatic machining production line of crystal bar.

Utility model content

The technical problems to be solved in the utility model is, overcomes deficiency of the prior art, and a kind of silicon single crystal rod storage device is provided.

For solving the problems of the technologies described above, solution of the present utility model is:

A kind of silicon single crystal rod storage device is provided, comprises support column; Base plate is installed on support column, and the top panel of a pair of strip is installed on base plate in parallel to each other, and the opposite side of two top panels arranges respectively rolling wheel support; Roller is housed on rolling wheel support, and the pair of rollers on both sides is to installing and leave each other spacing; On the base plate between two top panels, be also provided with for measuring the cylinder of silicon single crystal rod length; The motive position of cylinder is a square platform that can move along floor length direction, and its top is installed on collision block, and is provided with displacement transducer in side; On the base plate with the relative one end of square platform, establish end face bumping post, end face bumping post is provided with as the silicon single crystal rod linear measure longimetry fixed pivot at zero point; At the relative silicon single crystal rod detecting sensor support that is equipped with in the both sides of base plate and top panel, silicon single crystal rod detecting sensor support is provided with the sensor for detection of silicon single crystal rod size and dimension.

As a kind of improvement, described rolling wheel support is elongated, and its lateral cross section is broken line shape; Rolling wheel support is installed on the surface of top panel along its length, and described roller is installed on the bending part of rolling wheel support.

As a kind of improvement, described roller is the outside bearing that is surrounded by rubber, and its quantity is 2N, and N is greater than 1 integer; It is plane that roller has the rubber outer ring of two kinds of form: A, roller, for supporting square silicon single crystal rod; The rubber outer ring of B, roller is cambered surface, for supporting circular single crystal silicon rod.

As a kind of improvement, described cylinder is magnetic couple formula cylinder.

As a kind of improvement, described displacement transducer is magnetic displacement sensor.

As a kind of improvement, the described sensor for detection of silicon single crystal rod size and dimension is optical fiber type laser sensor.

The utility model has the advantages that: circular single crystal rod and the square monocrystal rod that can store 6 inches and 8 inches, can measure the length of crystal bar, can store every data the unified management of crystal bar, the logistics transportation of convenience and other inter processes, do not need artificial participation, be applicable to the Automatic Control of silicon single crystal rod streamline job shop.

Accompanying drawing explanation

Fig. 1 is three-dimensional shaft side figure of the present utility model.

Fig. 2 is front view of the present utility model.

Fig. 3 is top view of the present utility model.

Fig. 4 is the left view that the utility model is equipped with 6 inches and 8 inches poles.

Fig. 5 is the left view that the utility model is equipped with 6 inches and 8 inches square rods.

Reference numeral in figure is: 1 support column; 2 base plates; 3 top panels; 4 rolling wheel supports; 5 displacement transducers; 6 cylinders; 7 square platforms; 8 collision blocks; 9 cambered surface rollers; 10 plane rollers; 11 crystal bar detecting sensor supports; 12 fixed pivots; 13 end face bumping posts; 14 crystal bar detecting sensor A; 15 crystal bar detecting sensor B; 16 crystal bar detecting sensor C; 17 crystal bar detecting sensor D; 18 8 inches of circular single crystal rods; 19 6 inches of circular single crystal rods; 20 8 inches of square monocrystal rod; 21 6 inches of square monocrystal rod.

The specific embodiment

Below in conjunction with accompanying drawing and the specific embodiment, the utility model is described in further detail:

A kind of silicon single crystal rod storage device in Fig. 1-5, comprise that four for supporting the support column 1 of whole device, a base plate 2 and two top panels 3 are installed on described support column 1, on described two top panels 3, be separately installed with rolling wheel support 4, on described rolling wheel support 4, be provided with for supporting the peaceful surface roller 10 of cambered surface roller 9 of crystal bar.In specific implementation, described cambered surface roller 9 is for supporting circular crystal bar, and totally 24, described plane roller 10 is for supporting square crystal rod, totally 24.

On base plate 2, be provided with for measuring cylinder 6 and an end face bumping post 13 of boule length, the motive position of cylinder 6 is a square platform 7, the centre of square platform 7 is provided with collision block 8, the side of square platform 7 is provided with displacement transducer 5, and end face bumping post 13 tops are provided with a fixed pivot 12 of measuring zero point as boule length.In specific implementation, described cylinder 6 is magnetic couple formula cylinder, and displacement transducer 5 is magnetic displacement sensor.

The side of base plate 2 and top panel 3 is provided with two crystal bar detecting sensor supports 11, and crystal bar detecting sensor A14, crystal bar detecting sensor B15, crystal bar detecting sensor C16, crystal bar detecting sensor D17 for detection of crystal bar size and shape are installed on crystal bar detecting sensor support 11.In specific implementation, crystal bar detecting sensor A14, crystal bar detecting sensor B15, crystal bar detecting sensor C16 are receiving type laser sensor; Crystal bar detecting sensor D17 is reflex laser sensor.

By reference to the accompanying drawings 4 and accompanying drawing 5, to this, use the principle of novel detection crystal bar size and dimension to be described in detail:

The utility model can detect 19,8 inches of square monocrystal rod 20 of 18,6 inches of circular single crystal rods of 8 inches of circular single crystal rods and 6 inches of square monocrystal rod 21.In specific implementation, the utility model is to distinguish crystal bar size and dimension according to the combination of crystal bar detecting sensor A ~ D different operating state.Crystal bar detecting sensor B15 is for judging whether to be placed with monocrystal rod, crystal bar detecting sensor C16 is that the monocrystal rod of putting into for judgement is circular single crystal rod or square monocrystal rod, crystal bar detecting sensor A14 is that the monocrystal rod of putting into for judgement is 6 inches of circular single crystal rods or 8 inches of circular single crystal rods, and crystal bar detecting sensor D17 is that the monocrystal rod of putting into for judgement is 6 inches of square monocrystal rod or 8 inches of square monocrystal rod.While more specifically, putting into different size monocrystal rod, each working sensor state is as follows:

When putting into 6 inches of circular single crystals rod 19, crystal bar detecting sensor B15 detects signal, and crystal bar detecting sensor A14, crystal bar detecting sensor C16, crystal bar detecting sensor D17 can't detect signal.

When putting into 8 inches of circular single crystals rod 18, crystal bar detecting sensor B15, crystal bar detecting sensor A14 detect signal, and crystal bar detecting sensor C16, crystal bar detecting sensor D17 can't detect signal.

When putting into 6 inches of square monocrystal rod 20, crystal bar detecting sensor B15, crystal bar detecting sensor C16 detect signal, and crystal bar detecting sensor A14, crystal bar detecting sensor D17 can't detect signal.

When putting into 8 inches of square monocrystal rod 21, crystal bar detecting sensor B15, crystal bar detecting sensor C16, crystal bar detecting sensor D17 detect signal, and crystal bar detecting sensor A14 can't detect signal.

Claims (6)

1. a silicon single crystal rod storage device, comprises support column; It is characterized in that, base plate is installed on support column, the top panel of a pair of strip is installed on base plate in parallel to each other, and the opposite side of two top panels arranges respectively rolling wheel support; Roller is housed on rolling wheel support, and the pair of rollers on both sides is to installing and leave each other spacing; On the base plate between two top panels, be also provided with for measuring the cylinder of silicon single crystal rod length; The motive position of cylinder is a square platform that can move along floor length direction, and its top is installed on collision block, and is provided with displacement transducer in side; On the base plate with the relative one end of square platform, establish end face bumping post, end face bumping post is provided with as the silicon single crystal rod linear measure longimetry fixed pivot at zero point; At the relative silicon single crystal rod detecting sensor support that is equipped with in the both sides of base plate and top panel, silicon single crystal rod detecting sensor support is provided with the sensor for detection of silicon single crystal rod size and dimension.

2. silicon single crystal rod storage device according to claim 1, is characterized in that, described rolling wheel support is elongated, and its lateral cross section is broken line shape; Rolling wheel support is installed on the surface of top panel along its length, and described roller is installed on the bending part of rolling wheel support.

3. silicon single crystal rod storage device according to claim 1 and 2, is characterized in that, described roller is the outside bearing that is surrounded by rubber, and its quantity is 2N, and N is greater than 1 integer; It is plane that roller has the rubber outer ring of two kinds of form: A, roller, for supporting square silicon single crystal rod; The rubber outer ring of B, roller is cambered surface, for supporting circular single crystal silicon rod.

4. silicon single crystal rod storage device according to claim 1 and 2, is characterized in that, described cylinder is magnetic couple formula cylinder.

5. silicon single crystal rod storage device according to claim 1 and 2, is characterized in that, described displacement transducer is magnetic displacement sensor.

6. silicon single crystal rod storage device according to claim 1 and 2, is characterized in that, the described sensor for detection of silicon single crystal rod size and dimension is optical fiber type laser sensor.

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