阅读说明：本技术 一种太阳能电池片槽式设备清洗后花篮快速烘干的方法 (Method for quickly drying flower basket after cleaning of solar cell slot type equipment ) 是由 上官泉元 黄立根 于 2019-09-12 设计创作，主要内容包括：本发明公开了一种太阳能电池片槽式设备清洗后花篮快速烘干的方法,包括如下步骤：1)首先在慢提拉工位通过慢提拉法并利用花篮底杆上设置的导流槽将残留水牵引至花篮底杆的底侧；2)然后在花篮进入到吸水工位,在吸水工位利用设置的吸水机构将花篮底杆底侧的水分吸走；3)花篮底杆底侧的水分被吸水机构吸收后,花篮进入到烘干工位实现快速烘干。本发明利用花篮底杆开导流槽将水引流至花篮底杆的底侧,并通过增加吸水工位将水分快速吸收,可以有效减少底杆水残留到烘干槽,缩短了烘干时间并节约了能源,且产能得到极大提升。(The invention discloses a method for quickly drying a flower basket after cleaning of solar cell slot type equipment, which comprises the following steps: 1) firstly, drawing residual water to the bottom side of a flower basket bottom rod by a slow drawing method at a slow drawing station through a guide groove arranged on the flower basket bottom rod; 2) then the flower basket enters a water absorption station, and water on the bottom side of a bottom rod of the flower basket is absorbed by the water absorption mechanism arranged at the water absorption station; 3) after the moisture at the bottom side of the bottom rod of the flower basket is absorbed by the water absorption mechanism, the flower basket enters a drying station to realize quick drying. According to the invention, the flower basket bottom rod is provided with the diversion groove to conduct water to the bottom side of the flower basket bottom rod, and the water is quickly absorbed by adding the water absorption station, so that the water residue of the bottom rod in the drying groove can be effectively reduced, the drying time is shortened, the energy is saved, and the productivity is greatly improved.)

1. A method for quickly drying a flower basket after cleaning of a solar cell slot type device is characterized by comprising the following steps:

1) firstly, residual water is pulled to the bottom side of a flower basket bottom rod by a slow pulling method at a slow pulling station through a diversion trench (12) arranged on the flower basket bottom rod;

2) then the flower basket enters a water absorption station, and water on the bottom side of a bottom rod of the flower basket is absorbed by a water absorption mechanism (13) arranged on the water absorption station;

3) after the moisture at the bottom side of the bottom rod of the flower basket is absorbed by the water absorption mechanism (13), the flower basket enters a drying station to realize quick drying.

2. The method for rapidly drying the flower basket after the groove type equipment for cleaning the solar cell slices is adopted in the claim 1, wherein the bottom rod of the flower basket comprises a bottom rod body (10) and a flow guide groove (12) which is arranged along the bottom rod body (10) and penetrates through the bottom rod body (10), and the flow guide groove (12) is arranged between clamping teeth (11) of the bottom rod body (10) for positioning the silicon slices.

3. The method for rapidly drying the flower basket after the cleaning of the solar cell slot type device as claimed in claim 2, wherein the diversion trench (12) is arranged in the gap between the latch (11) of the bottom rod body (10) so that the water collected between the latch (11) and the silicon wafer is guided to the bottom side of the flower basket bottom rod through the diversion trench (12).

4. The method for rapidly drying the flower basket after the solar cell slice trough equipment is cleaned according to claim 1, wherein the water absorption mechanism (13) comprises a dust-free cloth layer (133) and a sponge layer (132), the dust-free cloth layer (133) is attached to the bottom side of the bottom rod body (10) after the flower basket enters the water absorption station, and the sponge layer (132) absorbs water on the lower side of the dust-free cloth layer (133).

5. The method for rapidly drying the flower basket after the solar cell slice trough equipment is cleaned according to claim 4, wherein the sponge layer (132) and the dust-free cloth layer (133) are arranged on a carrying platform (131) as independent water absorption stations.

6. The method for rapidly drying the flower basket after the trough type solar cell washing device as claimed in claim 5, wherein the flower basket descends at a water suction station to enable the bottom rod body (10) to contact the dust-free cloth layer (133), so that water on the bottom rod of the flower basket is transferred into the sponge layer (132) through the dust-free cloth layer (133).

Technical Field

The invention relates to the technical field of solar cell preparation, in particular to a method for quickly drying a flower basket after cleaning of solar cell slot type equipment.

Background

Based on the rapid development of solar cells, cost control and capacity improvement are the key to the profitability of the solar cells, and the cleaning and drying time of the cell pieces is an important factor influencing the capacity and the cost.

After the battery piece is cleaned in the texturing process, the basket with the silicon wafer needs to be taken out of the cleaning tank through the slow lifting method and enter a subsequent drying process, the existing slow lifting method can effectively remove water marks on the silicon wafer, the silicon wafer is quickly dried in the drying process, but the bottom rod of the basket with the silicon wafer is difficult to dry, the time which is doubled or more is often needed to dry the bottom rod, a large amount of energy is wasted, and the capacity of the whole set of equipment is influenced.

Disclosure of Invention

In order to solve the technical problem, the invention provides a method for quickly drying a flower basket after cleaning of a solar cell slot type device, which comprises the following steps:

1) firstly, drawing residual water to the bottom side of a flower basket bottom rod by a slow drawing method at a slow drawing station through a guide groove arranged on the flower basket bottom rod;

2) then the flower basket enters a water absorption station, and water on the bottom side of a bottom rod of the flower basket is absorbed by the water absorption mechanism arranged at the water absorption station;

3) after the moisture at the bottom side of the bottom rod of the flower basket is absorbed by the water absorption mechanism, the flower basket enters a drying station to realize quick drying.

The flower basket bottom rod comprises a bottom rod body and a flow guide groove which is arranged on the bottom rod body and penetrates through the bottom rod body, and the flow guide groove is formed between the clamping teeth, used for positioning the silicon wafer, of the bottom rod body.

The guide groove is arranged in a gap between the clamping teeth of the bottom rod body, so that water collected between the clamping teeth and the silicon wafer is guided to the bottom side of the flower basket bottom rod through the guide groove.

The water absorption mechanism comprises a dust-free cloth layer and a sponge layer which are compounded, the dust-free cloth layer is attached to the bottom side of the bottom rod body after the flower basket enters the water absorption station, and the sponge layer absorbs water on the lower side of the dust-free cloth layer.

The sponge layer and the dust-free cloth layer are arranged on a carrying platform and are used as independent water absorption stations.

The flower basket descends at a water absorption station so that the bottom rod body contacts the dust-free cloth layer, and water on the bottom rod of the flower basket is transferred into the sponge layer through the dust-free cloth layer.

According to the technical scheme, the flower basket bottom rod is provided with the diversion groove to conduct water to the bottom side of the flower basket bottom rod, and the water is quickly absorbed by adding the water absorption stations, so that water residue of the bottom rod in the drying groove can be effectively reduced, the drying time is shortened, energy is saved, and the yield is greatly improved.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below.

FIG. 1 is a schematic view of a bottom rod of a flower basket according to an embodiment of the present invention;

fig. 2 is a schematic structural view of a water absorption mechanism disclosed in the embodiment of the present invention.

The figures in the drawings represent:

10. bottom rod body 11, latch 12 and diversion trench

13. Water absorption mechanism 131, carrier 132 and sponge layer

133. Dust-free cloth layer

Detailed Description

The technical solution in the embodiments of the present invention will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present invention.

Referring to fig. 1 and 2, the method for quickly drying the washed flower basket of the solar cell slot type device provided by the invention comprises the following steps:

1) firstly, residual water is pulled to the bottom side of a flower basket bottom rod by a slow pulling method at a slow pulling station through a diversion trench 23 arranged on the flower basket bottom rod;

2) then, the flower basket enters a water absorption station, and water on the bottom side of a bottom rod of the flower basket is absorbed by a water absorption mechanism 13 arranged at the water absorption station;

3) after the moisture at the bottom side of the bottom rod of the flower basket is absorbed by the water absorption mechanism 13, the flower basket enters a drying station to realize quick drying.

Referring to fig. 1, the flower basket bottom rod comprises a bottom rod body 10 and a flow guide groove 23 which is arranged along the bottom rod body 10 and penetrates through the bottom rod body 10, the flow guide groove 23 is arranged in the center of a gap between the bottom rod body 10 and the latch 11 which is used for positioning a silicon wafer along a circle of outer diameter, so that water collected between the latch 11 and the silicon wafer is guided to the bottom side of the flower basket bottom rod through the flow guide groove 23, the width of the flow guide groove 23 is 0.1-2mm, and one flow guide groove 23 is arranged between every two adjacent latches 11.

Referring to fig. 2, the water absorbing mechanism 13 includes a dust-free cloth layer 133 and a sponge layer 132, and is disposed on a carrying platform 131 as an independent water absorbing station, and descends after the flower basket enters the water absorbing station to make the bottom rod body 10 contact the dust-free cloth layer 133, so that water on the bottom rod of the flower basket is transferred into the sponge layer 132 through the dust-free cloth layer 133. The length of the water absorbing mechanism 13 exceeds the width and the width is 20-200 mm. In general, the flower basket with two bottom rods can share one water absorbing mechanism 13, as long as the width of the water absorbing mechanism 13 is set to exceed the width of the two bottom rods.

According to the invention, the flower basket bottom rod is provided with the diversion groove 23 to divert water to the bottom side of the flower basket bottom rod, and the water is quickly absorbed by adding the water absorption stations, so that the water residue of the bottom rod in the drying groove can be effectively reduced, the drying time is shortened, the energy is saved, and the productivity is greatly improved.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present invention. Various modifications to the above-described embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the invention. Thus, the present invention is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.