SK9669Y1 - Sliding drive, especially pool roofing - Google Patents

Abstract

A sliding drive (B) is described, in particular for pool roofs (A), comprising a motor (2) with a cover and a source (1) of electrical energy, whereby the source (1) of electrical energy being formed by a photovoltaic panel (I.) built into the motor(2) housing. The motor housing comprises a bottom (3) off metal sheet, a thermoplastic top (4) part to which a photovoltaic panel (I.) is attached and metal and/or thermoplastic walls.

Description

The field of technology

The technical solution concerns the structure, the location of the photovoltaic panel and the resulting appearance of the displacement drive, usually for roofing, especially the pool.

Current state of the art

So far, photovoltaic drives have been placed on the outside of the device or externally on other surfaces. Usually, the connection between the photovoltaic panel and the electronics must be solved using a cable, bushings, reductions, etc.

In the case of external use, it is necessary that the attachment to the given surface is appropriately solved, usually it is a special glue, or structural holes for attachment to the given surface. Furthermore, the supply cable must be long enough, or it can be extended. Another point is the subsequent connection to the device itself, usually connectors, reducers, bushings.

The disadvantage of the mentioned solutions is a higher possibility of collisions, safety in the case of unsecured cables leading from an external location, a greater number of electronic components exposed to the external environment.

Up to now, the construction of engine covers has been solved with the help of an all-metal shell, possibly a supporting bottom and a covering created for it using various materials, usually laminates.

In the case of an all-metal casing, there are problems associated with the attachment of the structure to the moved product, the weight of the product and the attachment of charging elements to the device, usually photovoltaic panels.

In the case of the supporting bottom, there are problems with the strength of the structure, due to the fact that the only supporting part is the mentioned bottom of the device. In order to resolve the aforementioned collision, it is necessary to deal with a higher strength of the bottom wall, or shaping for load-bearing capacity. This involves additional costs and an increase in the overall weight of the device. Furthermore, it is necessary to connect charging elements to the device, usually photovoltaic panels.

The disadvantage of the mentioned solutions is higher weight, lower strength of the structure, higher costs of material and its modifications.

The essence of the technical solution

The mentioned shortcomings are largely eliminated by the displacement drive, especially of the swimming pool roof, containing a motor and a source of electrical energy, according to this technical solution. Its essence is that the source of electrical energy is formed by a photovoltaic panel, which is part of the engine cover.

In a preferred embodiment, the engine cover is formed by a sheet metal bottom and a thermoplastic top, to which is attached a source of electrical energy formed by a photovoltaic panel, and walls made of a material selected from the group of metal and thermoplastic.

The photovoltaic panel is advantageously composed of at least two separate parts.

In a preferred embodiment, the upper part of the engine cover is the support structure of the photovoltaic panel.

The engine cover is a structurally designed thermoplastic part that forms the cover of the photovoltaic panel. A photovoltaic panel is attached to the mentioned thermoplastic from the bottom side. Thermoplastic can be straight or shaped, composed of several segments or in one piece according to the construction needs. A photovoltaic panel can be made of one part, but also composed of several separate parts.

In another version, the designed structure, which includes the bottom, sheet metal walls and the top part, is replaced by thermoplastic, which is suitable as a cover for the photovoltaic cell. Thermoplastic can be straight or shaped, composed of several segments or in one piece according to the construction needs. It can also replace one or two walls according to the needs of the structure.

Thanks to the above, there will be an absence of other elements that are either necessary or visibly recognized in the case of solutions according to the current state of the art. The resulting visible state is therefore clean, without other necessary elements. At the same time, it is a supporting structure that additionally protects the photovoltaic cell.

Overview of images on drawings

The movement drive of the swimming pool roof according to this technical solution will be described in more detail on a concrete example of implementation using the attached drawings, where in fig. 1 shows a diagram of the roofing drive, in fig. 2 shows an exemplary embodiment of the engine cover without side walls in an axonometric view and in fig. 3 shows the engine cover with side walls in an axonometric view.

Implementation examples

Exemplary drive B of the movement of the roof A of the swimming pool includes a motor 2 and a source of electrical energy 1, which is formed by a photovoltaic panel, which is part of the cover of the motor 2. The photovoltaic panel can be made of one part, but it can also be composed of several separate parts.

In another embodiment, the drive B for moving the pool roof, containing a motor and a source of electrical energy, has a motor equipped with a cover, which is formed by a bottom 3 made of sheet metal, an upper part 4 made of thermoplastic, to which is attached a source of electrical energy formed by a photovoltaic panel I. and walls made of material selected from the group metal and thermoplastic.

In yet another embodiment, the upper part of the engine cover 2 is directly the support structure of the photovoltaic panel. The integrated photovoltaic panel is made up of one part II. molded thermoplastic and one part of the photovoltaic panel I. Thanks to the above, the use of other elements is not necessary, but at the same time not excluded.

A photovoltaic panel can be composed of several separate parts. An exemplary construction consists of a sheet metal bottom 3 and walls, usually made of two pieces. Subsequently, the upper part 4 is made of thermoplastic, which can be straight or shaped according to the needs of the structure.

Industrial applicability

The mentioned technical solution finds application especially in the case of new roofs, usually swimming pools. However, it can also be applied to already installed products.

List of relationship tags

I. photovoltaic panel

II. part of molded thermoplastic power source motor cover bottom of cover top of cover

And pool roofing

B feed drive

Claims (4)

CLAIMS FOR PROTECTION 1. The drive (B) of the displacement, in particular of the roof (A) of the swimming pool, comprising a motor (2) with a cover and a source (1) of electrical energy, characterized in that the source (1) of electrical energy is formed by a photovoltaic panel 5 (I.) , which is part of the engine cover (2). 2. Displacement drive (B) according to claim 1, characterized in that the cover is formed by a bottom (3) made of sheet metal, an upper part (4) made of thermoplastic, to which is attached a source (1) of electrical energy formed by a photovoltaic panel (I. ), and walls made of material selected from the group of metal and thermoplastic. 3. Displacement drive (B) according to claims 1 or 2, characterized in that the photovoltaic panel 10 (I.) is located in the upper part of the motor cover (2). 4. Displacement drive according to any one of claims 1 to 3, characterized in that the photovoltaic panel (I.) is composed of at least two separate parts that are connected to each other.