CN214591318U - Multi-pin row tile stacking test unit - Google Patents

Abstract

The utility model discloses a many fallers shingle test unit relates to the photovoltaic equipment field, including last single-row faller gill, lower double faller gill, go up double faller gill, lower single-row faller gill, faller gill ear, fixed bolster, the fixed bolster level sets up, and the spout is seted up on the fixed bolster surface, and fixed bolster top slides and sets up the faller gill ear, faller gill ear and the last single-row faller gill fixed connection that corresponds, faller gill ear and the last double faller gill fixed connection that corresponds, go up single-row faller gill and distribute in last double faller gill both sides, faller gill ear and the lower single-row faller gill fixed connection that corresponds, faller gill ear and the lower double faller gill fixed connection that corresponds, lower single-row faller gill distributes in the both sides of lower double faller gill, and the spout of faller gill are located same vertical line. The utility model discloses a set up fixed bolster, spout and faller gill ear, reach according to demand adjustment faller gill quantity and position, the effect of products such as compatible 210 and 166 shingles.

Description

Multi-pin row tile stacking test unit

Technical Field

The utility model relates to a photovoltaic equipment field specifically relates to a test unit that tiles is folded to many pin rows.

Background

Photovoltaic (photo): the Solar photovoltaic power generation system is a novel power generation system which directly converts Solar radiation energy into electric energy by utilizing the photovoltaic effect of a Solar cell semiconductor material and has two modes of independent operation and grid-connected operation. Meanwhile, solar photovoltaic power generation systems are classified, and one is centralized, such as a large northwest ground photovoltaic power generation system; one is distributed (with >6MW as boundary), such as factory building roof photovoltaic power generation system of industry and commerce, resident house roof photovoltaic power generation system. Photovoltaic technology has many advantages: such as without any mechanical moving parts; except sunshine, the solar energy collector can work under the conditions of direct sunlight and oblique sunlight without any other 'fuel'; and the selection of the station site is very convenient and flexible, and the roof and the open space in the city can be applied. Since 1958, the solar photovoltaic effect was first applied in the form of solar cells in the field of energy supply for space satellites. Nowadays, as little as energy supply and roof solar panels of automatic parking meters are applied to solar power generation centers with wide areas, and the solar power generation centers are applied to the field of power generation all over the world.

Among these, the photovoltaic panel assembly is a power generation device that generates direct current upon exposure to sunlight, and is composed of thin solid photovoltaic cells made almost entirely of semiconductor material (e.g., silicon). Because there are no moving parts, it can be operated for a long time without causing any loss. Simple photovoltaic cells can provide energy for watches and calculators, and more complex photovoltaic systems can provide lighting for houses and power for the grid. The photovoltaic panel assembly can be made in different shapes and the assembly can be connected to generate more electricity. Both rooftops and building surfaces utilize photovoltaic panels, even as part of a window, skylight, or shelter, which are commonly referred to as building-attached photovoltaic systems. A large number of connectors are needed for connecting the photovoltaic panel assembly to a power grid, and a large number of butt joint conventional 210 and 166 shingles are found to be needed for the connectors during use, so that a multi-pin row specially used for the photovoltaic panel assembly in a multi-layer structure can be compatible with the 210 and 166 shingles at the same time. Therefore, in order to solve the above problems, it is necessary to provide a multi-pin row tile-stacking test unit.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, a multi-pin row tile stacking test unit is provided, and the technical scheme solves the problem of compatibility of 210 and 166 tiles stacking at the same time in the background technology.

In order to achieve the above purpose, the utility model adopts the technical scheme that:

a multi-pin row tile stacking test unit comprises an upper single-row pin row, a lower double-row pin row, an upper double-row pin row, a lower single-row pin row, pin row ears and a fixed support, wherein the fixed support is horizontally arranged, a sliding groove is formed in the surface of the fixed support, the pin row ears are slidably arranged at the top of the fixed support and are fixedly connected with the corresponding upper single-row pin row, the pin row ears are fixedly connected with the corresponding upper double-row pin row, the upper single-row pin row is distributed on two sides of the upper double-row pin row, the pin row ears are fixedly connected with the corresponding lower single-row pin row, the pin row ears are fixedly connected with the corresponding lower double-row pin row, and the lower single-row pin row is distributed on two sides of the lower double-row pin row.

Preferably, the ears of the faller gill are arranged on the fixed support at equal intervals, and the notches of the ears of the faller gill and the sliding grooves are positioned on the same vertical line.

Preferably, the upper single-row needle row is fixedly connected with needles which are arranged in a single row, the upper double-row needle row is fixedly connected with needles which are arranged in double rows, and the needles are evenly distributed at intervals of 5 mm.

Preferably, the lower single-row needle row is fixedly connected with needles which are arranged in a single row, the lower double-row needle row is fixedly connected with needles which are arranged in double rows, and the needles are evenly distributed at intervals of 5 mm.

Preferably, the number of the upper single-row needle bars is two, the number of the upper double-row needle bars is five, the number of the lower single-row needle bars is two, and the number of the lower double-row needle bars is five.

Preferably, the pin row ears are fixedly connected with the upper single-row pin row, the upper double-row pin row, the lower single-row pin row and the lower double-row pin row through bolts and through holes on the surface.

Compared with the prior art, the utility model provides a many needles are arranged and are folded test unit made of baked clay possesses following beneficial effect:

the ears of the faller gill are placed in a sliding mode through the surface of the fixing support, so that the positions and the number of the ears of the faller gill can be adjusted, the positions and the numbers of the upper faller gill, the upper double-row faller gill, the lower faller gill and the lower double-row faller gill can be adjusted, the upper faller gill and the lower faller gill can be adjusted according to different tile-overlapping specifications, different requirements in practice are met, equipment compatibility is improved, testing stability is improved, and working efficiency is improved. Go up the faller gill, the faller gill separately sets up, can carry out different modular design, has promoted the flexibility ratio of device.

Drawings

FIG. 1 is a schematic view of a multi-needle row tile-stacking structure of the present invention;

fig. 2 is a schematic view of the front structure of the multi-pin row laminated tile of the present invention.

The reference numbers in the figures are:

1. arranging a single row of needle rows; 2. fixing a bracket; 3. ear pin row; 4. the lower double rows of pins are arranged; 5. a chute; 6. a needle head; 7. an upper double-row needle row; 8. and (5) arranging a single row of needles.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

Referring to fig. 1-2, the utility model provides a technical solution: a multi-pin row tile-stacking test unit comprises an upper single-row pin row 1, a lower double-row pin row 4, an upper double-row pin row 7, a lower single-row pin row 8, pin row ears 3 and a fixed support 2, wherein the fixed support 2 is horizontally arranged, a chute 5 is formed in the surface of the fixed support 2, pin row ears 3 are arranged at the top of the fixed support 2 in a sliding manner, the pin row ears 3 are fixedly connected with the corresponding upper single-row pin row 1, the pin row ears 3 are fixedly connected with the corresponding upper double-row pin row 7, the upper single-row pin rows 1 are distributed on two sides of the upper double-row pin row 7, the pin row ears 3 are fixedly connected with the corresponding lower single-row pin row 8, the pin row ears 3 are fixedly connected with the corresponding lower double-row pin row 4, the lower single-row pin row 8 are distributed on two sides of the lower double-row pin row 4, the pin row ears 3 are equidistantly distributed on the fixed support 2, gaps of the pin row ears 3 are positioned on the same vertical line with the chute 5, and the upper single-row pin row 1, the lower single-row pin rows 7 are positioned on the same vertical line as the upper single-row pin rows, the fixed support 2, and the fixed support 2 are fixed support 2, and the fixed support 2 is fixed support 2, and the fixed support is fixed support, the upper single-row pins, the upper single-row pin rows and the upper single-row pins are fixed support is fixed support, the upper single-row pins are fixed support is fixed, the upper single-row pins are fixed support is fixed, the upper double-row pins, the upper and the upper single-row pins, the upper single-row pins are fixed, the upper double-row pins are fixed support is fixed, the upper single-row pins, the upper double-row pins are fixed support is fixed, the upper and the upper single-row pins, the upper single-support is fixed, the upper double-row pins are fixed support is fixed, the upper double-row pins are fixed, the upper and the upper double-row pins are fixed, the upper double-row pins, the upper and the upper double-row pins are fixed support is fixed, the upper and the upper double-row pins are fixed, the upper double-row pins, Go up double row of needles 7, lower single row of needles 8 and lower double row of needles 4 both ends difference fixed connection faller gill 3 about, therefore, can adjust the position of faller gill through the position of adjustment faller gill ear 3, set up in the spout 5 of T-shaped piece slip embedding fixed bolster 2, because the breach and the spout 5 of faller gill ear 3 are located same vertical line, can insert the one end of the T-shaped piece of embedding spout 5 in the breach of faller gill ear 3, thereby make faller gill ear 3 can be at fixed bolster 2 surface sliding, and then change the position of faller gill.

Specifically, the needles 6 are fixedly connected to the upper single-row needle row 1, the needles 6 are arranged in a single row, the needles 6 are fixedly connected to the upper double-row needle row 7, the needles 6 are arranged in double rows, and the needles 6 are evenly distributed at intervals of 5 mm.

The lower single-row needle row 8 is fixedly connected with needles 6, the needles 6 are arranged in a single row, the lower double-row needle row 4 is fixedly connected with needles 6, the needles 6 are arranged in double rows, and the needles 6 are evenly distributed at intervals of 5 mm.

The number of the upper single-row needle bars 1 is two, the number of the upper double-row needle bars 7 is five, the number of the lower single-row needle bars 8 is two, and the number of the lower double-row needle bars 4 is five.

The pin row ears 3 are fixedly connected with the upper single-row pin row 1, the upper double-row pin row 7, the lower single-row pin row 8 and the lower double-row pin row 4 through bolts and through holes on the surface.

The utility model discloses a theory of operation and use flow: the needle row ears 3 are arranged on the surface of the fixing support 2 in a sliding mode, so that the positions and the number of the needle row ears 3 can be adjusted, the positions and the number of the upper single-row needle row 1, the upper double-row needle row 7, the lower single-row needle row 8 and the lower double-row needle row 4 can be adjusted, and the upper needle row and the lower needle row can be adjusted according to different imbricated specifications to meet different requirements in practice. And go up the faller gill, the faller gill is separately set up, can carry out different modular design, has promoted the flexibility ratio of device.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the principles of the present invention may be applied to any other embodiment without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (6)

1. A multi-pin row tile-stacking test unit is characterized by comprising an upper single-row pin row (1), a lower double-row pin row (4), an upper double-row pin row (7), a lower single-row pin row (8), pin row ears (3) and a fixed support (2), fixed bolster (2) level sets up, spout (5) are seted up on fixed bolster (2) surface, fixed bolster (2) top slides and sets up faller gill ear (3), faller gill ear (3) and last single row faller gill (1) fixed connection who corresponds, faller gill ear (3) and last double row faller gill (7) fixed connection who corresponds, it distributes in last double row faller gill (7) both sides to go up single row faller gill (1), faller gill ear (3) and lower single row faller gill (8) fixed connection who corresponds, faller gill ear (3) and lower double row faller gill (4) fixed connection who corresponds, single row faller gill (8) distribute in the both sides of double row faller gill (4) down.

2. The multiple pin header tile stack test unit of claim 1, wherein: the gill ears (3) are arranged on the fixed support (2) at equal intervals, and the gaps of the gill ears (3) and the sliding grooves (5) are positioned on the same vertical line.

3. The multiple pin header tile stack test unit of claim 1, wherein: go up single needle bar (1) fixedly connected with syringe needle (6), syringe needle (6) are arranged to the single, go up double needle bar (7) fixedly connected with syringe needle (6), and syringe needle (6) are arranged to the double, and syringe needle (6) are with 5mm interval evenly distributed.

4. The multiple pin header tile stack test unit of claim 1, wherein: the lower single-row needle row (8) is fixedly connected with needles (6), the needles (6) are arranged in a single row, the lower double-row needle row (4) is fixedly connected with needles (6), the needles (6) are arranged in double rows, and the needles (6) are evenly distributed at intervals of 5 mm.

5. The multiple pin header tile stack test unit of claim 1, wherein: the number of the upper single-row needle rows (1) is two, the number of the upper double-row needle rows (7) is five, the number of the lower single-row needle rows (8) is two, and the number of the lower double-row needle rows (4) is five.

6. The multiple pin header tile stack test unit of claim 1, wherein: the pin row ears (3) are fixedly connected with the upper single-row pin row (1), the upper double-row pin row (7), the lower single-row pin row (8) and the lower double-row pin row (4) through bolts and through holes on the surface.

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