SI25605A - Device and procedure for cleaning and drying glasses, especially glasses for viewing 3d content - Google Patents

Abstract

A device for cleaning and drying glasses, in particular glasses for viewing 3D contents, comprises a housing formed by two side walls, a rear wall, a bottom and an upper wall, a door closing said housing on the side from which the device is serviced, a tub, which is arranged inside the housing and which defines a cleaning chamber or a cleaning area for glasses, a water tank with a drainage channel disposed under the tub, at least one spray rail arranged in the tub, preferably two spray rails connected via water to a pump disposed in the water tank and supplying the scrubber with the respective spray rails, the scrubber tank, the flushing water tank, the scrubber tank, the additive tank, the waste water tank, the tanks and the tank being arranged adjacent to the housing of the device, the receiving bin for the cleaning glasses, with a rear wall housing at bottom edge inlet opening for hot air inlet with minimum overpressure, and outlet opening away to the inlet port, wherein the inlet port is connected to the fan by a fan arranged adjacent to the housing and the end of the fan side conduit formed as a tubular housing in which a heating coil is arranged.

Description

A device and process for cleaning and drying glasses, especially glasses for viewing 3D content

The subject of the invention

The subject of the invention is a device for cleaning and drying glasses, in particular glasses for viewing 3D contents, and a process for cleaning and drying 3D glasses with such a device.

A technical problem

The technical problem is how to design such a goggles cleaning device, preferably goggles for viewing 3D contents, which in addition to cleaning, will also dry the goggles, especially the surfaces of the goggles so that the goggles will be dry and without trace of water droplets. sufficient eyeglass cleaning capacity and easy to handle, economically sound and environmentally friendly.

The state of the art

Today, cinemas often feature films that have been shot in a technique that requires the use of 3D glasses when viewed. In such cases, cinemas use reusable 3D glasses that are of higher quality and provide additional effects, or disposable 3D glasses. The decision for a particular type of 3D glasses depends on several factors. One of the most important is to ensure that the surface of the glasses is free of impurities, which greatly impair the quality of the film's viewing, and the disinfection of clean glasses. This is why cinemas often opt for single-use 3D glasses, which, for a large number of users, present a considerable economic burden, and above all, the environmental burden of the environment. In this respect, reusable 3D glasses are more suitable, the disadvantage of which is that they must be cleaned and disinfected after each use. As wet cleaning with water and the selected cleaning agents is used as cleaning, water and water droplets must be completely removed from the glasses after washing, especially from the glasses.

Most of the water and water droplets are removed from the glasses by draining as water is added to the water during the flushing phase to reduce the wettability of the surfaces. However, water drops remain on the surface of the glasses, which must be removed. Even if the water droplets are removed, the surface of the glasses is moist due to the high relative humidity. Therefore, glasses should be wiped with a well absorbent cloth or dried. Manual deletion is very time consuming and also very high in cost because it requires a considerable number of workers.

Special dry-chamber drying machines have been developed, in which, after completion of washing, the cleaned goggles are deposited from which the water has been drained to dry. The disadvantage of this type of dryer is that it requires the transfer of the glasses basket from the cleaning machine to the drying machine; the process is time consuming because the temperature of the 3D glasses itself may not be too high. The process is energy-consuming, but water drops can still be left on the surface of the glasses. WO2011 / 021949 (Rogujski) describes a device for cleaning and drying 3D glasses for cinemas based on centrifugal force. In the housing of the device there is a rotating drum, in which is arranged a mesh container that receives two baskets. Each basket has glasses beside the other, which are fixed in the basket with a special lid due to the centrifugal forces that occur during washing and especially when drying. The baskets with glasses to be cleaned are inserted into the mesh container, locked and locked into the mesh container. Special nozzles are arranged in the drum through which, during cleaning, the water, together with the cleaning agent, is sprayed onto the rotating mesh container and thus onto the glasses. When the cleaning cycle is complete, the flow of water through the nozzles stops. The mesh container containing the glasses containing the glasses continues to rotate so that the water contained on the glasses, baskets and the container drains rapidly due to the centrifugal force. This removes the water from the surface of the glasses. However, the air in the drum and thus in the surrounding of the glasses is saturated with water vapor, which can then be excreted on the surface of the glasses, and therefore, and especially on the glasses, due to the surface effect. The stains of the glasses thus cleaned may still have stains, which are essentially water deposits.

Despite the relatively short individual cycle, the device has low capacity because only two baskets can be inserted into the device at a time, which accept a limited, relatively small number of glasses, each basket up to a maximum of 14 glasses. The basket must be covered with a special lid before each filing in the waste water treatment plant, to prevent the glasses in the basket from moving or falling out of the basket and thus damaging the glasses. After the procedure is completed, the lid must be vented and removed. Centrifugal forces, which must be large enough to achieve the desired result, require great care and precision when stacking glasses in a basket, inserting baskets into a mesh container and fixing them. The process of cleaning the glasses because of their low capacity and the large amount of glasses that need to be cleaned at one show at a time is time consuming, with the device requiring continuous operation, which means a constant presence of the worker. In the event that the number of baskets loaded into the drum increases, the whole device also increases, which makes it difficult to place it in the room.

The spin-drying process not only requires the construction of eyeglass baskets and their fixation in a rotating drum, but also requires a special propulsion mechanism with a powerful electric motor.

The solution to a technical problem

A technical problem is solved by a device whose main feature is defined in the first patent claim.

A device for cleaning and drying glasses, in particular glasses for viewing 3D contents, comprises a housing formed by two side walls, a rear wall, a bottom and an upper wall, a door closing said housing on the side from which the device is serviced, a tub, which is arranged inside the housing and defines a cleaning chamber or a cleaning area for glasses, a water tank with a drainage channel arranged beneath the tub, at least one spray bar arranged in the tub, preferably two spray bars connected via water to a pump arranged in the water tank and supplying the scrubber with the respective spray rails, the scrubber tank, the flushing water tank, the scrubber tank, the additive tank, the waste water tank, the tanks and the tank being arranged adjacent to the housing of the device, the receiving bin for the cleaning glasses, with a rear wall housing at bottom edge inlet opening for hot air inlet with minimum overpressure, and outlet opening away from the inlet opening and arranged on the side wall or ceiling of the housing or. tubs, wherein the inlet through the air duct is connected to a fan arranged adjacent to the housing and the end of the duct, which is on the fan side, is formed as a tubular housing in which a heating coil is arranged.

The drawer is designed as a mesh drawer with eyeglass holders so that several drawers stack one on top of the other in the stack without any additional fixation.

At the bottom of the tub there are guides running along the two sides of the tub, which continue on the inside of the door in height and have the same spacing.

A goggles cleaning and drying device and a transport trolley with a loading surface form an assembly for cleaning 3D glasses.

The process of cleaning and drying glasses for viewing 3D content with the device according to the invention comprises the following steps: - installing a stack of mesh drawers filled with glasses to be cleaned in the cleaning chamber of the device, - cleaning the glasses in the cleaning chamber by spraying using spray water strips drawn from the water tank and the cleaning agent, - pumping out the used water from the treatment chamber into the waste water tank, - rinsing by spraying with clean water from the clean water tank or from the water supply network together with wetting agents, - pumping flushing water into the water treatment tank, - drying 3D glasses by switching on the fan and the heater, which results in the supply of warm air with minimal overpressure and low relative humidity to the cleaning chamber and the discharge of warm air with higher humidity from the inlet, from the cleaning chamber.

The device according to the invention enables rapid and thorough drying without any trace of water deposits on the surfaces of the glasses due to the removal of water vapor from the cleaning chamber. The whole process of cleaning and drying the glasses may take longer than the known procedures, according to the methods known so far. However, the stacking method of loading the device significantly increases the number of glasses that are cleaned at the same time, which actually adds to the high capacity. A longer washing cycle is essentially an advantage because the device does not require the employee's continuous control for its operation.

Folding in the drawers is easy, fast. It does not require additional attachment, either glasses or drawers. No need to migrate to other containers. Mesh drawers containing clean glasses can be placed in a place where they are needed, without any additional repositioning and are distributed among users. After use, the glasses can be stored in the same baskets with simultaneous stacking. Due to their mesh design, they are also friendly to cleaning contractors due to their low mass.

Due to low energy consumption such as water and electricity, the device is also economically interesting. Because it contains both clean and purifying water tanks and a waste water tank, it is also suitable for spaces that do not have plumbing connections, which is quite common in cinemas as well as in other spaces where such glasses can be used, e.g. museums, amusement parks, development institutions. Due to the cost-effectiveness of the invention, the device according to the invention can also be used to clean 3D disposable glasses, which would also produce an ecological effect. Devices and elements that carry out the disinfection process can be easily incorporated into the device according to the invention.

The solution will be shown in more detail with an example example and pictures that show

FIG. 1 is a device for cleaning and drying 3D glasses with an open door, front view. 2 is a device according to FIG. 1 in view from the side of FIG. 3 mesh shelves

FIG. 4 assemblies for cleaning 3D glasses

Apparatus 100 for cleaning and drying glasses, in particular glasses for viewing 3D content, which is essentially designed as a dishwasher in a water treatment unit, comprises a housing 1 formed by two side walls, a rear wall, a bottom and an upper wall, door 2, which close said housing 1 on the side from which the device is serviced, the tub 3, which is arranged inside the housing 1 and defines a cleaning chamber 4 or a space for cleaning the glasses. Under the tub 3 there is a water reservoir 5 with a drainage channel in which there is purification water during the cleaning process. Cleaning of glasses located in the bath 3 is carried out by means of at least one, preferably two spray laths 6 of the known type, which are arranged one in the area of the bottom of the bath 3 and the other in the upper area of the bath 3. connected to a pump 8 arranged in a water reservoir 5 and supplying cleaning water to the respective spray lath 6.

The fluids required to perform the cleaning, i.e. cleaning water, flushing water, liquid cleaner, liquid additive to reduce the wettability of the surfaces, are located in tanks such as the water purification tank 9, the flushing water tank 10, the reservoir 12 of the accessory disposed adjacent to the housing 1 of the device 100 and being fed to the tub 3 via the pump arranged in the respective reservoir 14. In the case of an available water connection, the device can also be connected directly to the water network.

The flushing water is discharged through the drainage line to the wastewater tank 9, while the wastewater, which is essentially wastewater, is discharged into the wastewater collector 13 or, if available, the sewerage channel.

At least 3 mesh compartments 15 are arranged within the tub 3, preferably a stack of 22 mesh compartments 15 comprising up to six mesh compartments 15 stacked one on top of the other. The mesh drawer 15 contains cleaning glasses. The mesh drawer 15 in the tub 3 rests on guides 16, which are arranged at the bottom of the tub 3 and extend along the two sides of the tub 3. In the same spacing as the guides 16, the guides 17 are arranged on the inside of the door 2, in height. These guides 17 are intended to facilitate the loading of mesh compartments 15 into the interior of the treatment plant.

These device components are active in the goggles cleaning process. After cleaning and rinsing, despite the use of a surface wetting agent that accelerates the drainage of water from the surface of the glasses, the glasses are still wet or damp and must be dried. The device has a supply opening 25 for the warm air supply at the lower edge of the housing 1 and the vat 3 at the lower edge, which is supplied by a fan 18 to the cleaning chamber 4 with a certain minimum pressure. The fan 18 is arranged adjacent to the housing 1, which sucks the surrounding air and pushes it in. platoon 20 air. The end of the conduit 20, which is on the side of the fan 18, is formed as a tubular housing 21 in which the heater body 19 is arranged in the form of a helix. When passing through the heater body 19, the air is heated to a working temperature higher than the temperature in the cleaning chamber, but lower than the temperature that can cause damage to the glasses. The other end of conduit 20 is connected to the inlet 25, which is disposed in the lower corner of the rear wall of housing 1. Warm air due to forced flow due to the minimum overpressure due to fan operation 18 and circulating and rising through the cleaning chamber 4 and it then flows out through the drainage opening 26, which is distant from the inlet opening 25 and disposed below the top wall on the side wall or. 1. Due to the lower relative humidity of the intake air, it enters the steam contained in the chamber when passing through the cleaning chamber and draws it out through the drainage opening 26 from the cleaning chamber 4 to the surroundings. As a result, the relative humidity of the cleaning chamber 15 decreases and the glasses are dry. Because the water vapor has been removed from the room, the surfaces of the glasses, in particular the surfaces of the glasses, are completely clear, free of water droplets or other insoluble impurities.

The mesh drawer 15 is designed as a wireframe housing the spectacle mounts, which are adapted to the shape of the glasses and can be in the form of a recurring wave of any shape, for example rectangular, triangular, rounded shapes, the wave being extendable over the entire length carrier or only part. The mesh drawer is designed so that several drawers can be stacked one on top of the other in the stack 21 without additional interlocking. The stackable stacking of mesh drawers results in a high performance cleaning device that depends on the shape of the glasses and the design of the mesh drawers. In order to simplify the operation of the device 100, in particular the loading of the device, the device is mounted on a frame so that it is raised from the ground to such an extent that the distance of the horizontally open door 2 is essentially an ergonomic height of the worktop. For ease of use, a transport trolley 27 may be added with a loading surface that is at the same distance from the base as the distance of the horizontally open door. In this case, the stack of mesh drawers with glasses is easily pushed from the loading surface of the transport trolley 27 to the guides 17 of the door 2 and further by means of the guides 16 to the cleaning chamber 4. The cleaning and drying device 100 and the transport trolley 27 with the loading surface form assembly 28 for cleaning 3D glasses.

The device according to the invention not only allows the cleaning and drying of the glasses, but the glasses in the device can also be disinfected as part of the cleaning. This can be achieved by adding an appropriate disinfectant to the cleaning chamber. Alternatively, ultraviolet light disinfection. UV light sources, such as UV lamps, UV lamps, are connected to a power source and arranged inside the treatment chamber 4 such that the UV light encloses all glasses in all the mesh compartments.

The device is connected to its power source, preferably a single-phase power source.

The procedure for cleaning and drying glasses for viewing 3 D contents is performed using the apparatus 100 according to the invention and comprises the following steps: a) the installation of a stack of 22 mesh drawers 15 filled with the glasses to be cleaned in the cleaning chamber 4 of the device 100, b ) cleaning the glasses in the treatment chamber 4 by spraying with the help of spray rails 6 with the cleaning water drawn from the water tank 9 and the cleaning agent, c) pumping the spent water from the treatment chamber 4 into the waste water tank 13, d) flushing according to the principle of spraying through spray strips 6 with clean water from a tank 11 of clean water or from a water supply network together with a wetting agent, e) pumping flushing water into the tank 9 of clean water, f) drying 3D glasses by switching on the fan 18 and the heating body 19, resulting in low relative humidity hot air supply with minimal overpressure to the cleaning chamber 4 and high relative humidity outflow humidity higher than the inlet through the drainage opening 26 from the cleaning chamber to the surrounding area.

Claims (9)

Patent claims A device (100) for cleaning and drying glasses, in particular glasses for viewing 3D contents, comprises - a housing (1) formed with two side walls, a rear wall, a bottom and an upper wall, - a door (2) which closes said housing (1) on the side from which the device is serviced, - a tub (3) disposed within the housing (1) which defines a cleaning chamber (4) or a space for cleaning the glasses. - a water reservoir (5) arranged with a drainage channel under the tub (3) - at least one spray rail (6), preferably two spray slats (6) connected to the pump (8) via a duct (7) is arranged in the tub (3) ) which is arranged in the water tank (5) and supplies the treatment water to the respective spray rails (6), - the reservoir (9) of the cleaning water, the reservoir (10) of the flushing water, the reservoir (11) of the additive, the reservoir (12) (13) waste water, the reservoirs and reservoir (13) arranged adjacent to the housing (1) of the device (100), - a cleaning glove box, characterized in that it has a housing (1) on the rear wall of the housing (1) the edge of the inlet opening (25) for supplying warm air with minimal overpressure, and the outlet opening (26), which is away from the inlet opening (25) and disposed on the side wall or ceiling of the housing (1), the inlet opening (25) being over air duct (20) connected to a fan (18) arranged adjacent to the housing (1) and at the end of the duct (20) located on the side fan (18) formed as a tubular housing (21), in which the heater body (19) is arranged in the form of a heating coil. An eyewear cleaning and drying device (100) according to claim 1, characterized in that the drain opening (26) is disposed below the upper wall of the housing (1). Device (100) for cleaning and drying glasses according to any one of the preceding claims, characterized in that the drawer is designed as a mesh drawer (15) with shaped glasses mounts. Device (100) for cleaning and drying the glasses according to claim 2, characterized in that the mesh drawer (15) is designed so that several drawers are stacked one on top of the other in the stack (22) without further interlocking. Device (100) for cleaning and drying glasses according to claim 1 or 2, characterized in that guides (16) extending along both sides of the tub (3) are arranged at the bottom of the tub (3). Device (100) for cleaning and drying glasses according to any one of the preceding claims, characterized in that guides (17) are arranged on the inside of the door (2), having the same spacing as the guides (16). ). Device (100) for cleaning and drying glasses according to any of the preceding claims, characterized in that UV light sources such as UV lamps, UV lamps are provided on the inner walls of the tub (3) such that UV light it covers from the sources all the goggles contained in the mesh drawers (15). An eyeglass cleaning assembly (28) comprising - at least one device (100) according to any preceding claim - a transport trolley (27) with a loading surface. The method of cleaning and drying the 3D viewing glasses performed by the device (100) according to any one of the preceding claims, comprises the following steps: - installing a stack (22) of mesh drawers (15) filled with glasses to be cleaned - in the cleaning chamber (4) of the device (100), - cleaning the glasses in the cleaning chamber (4) by the principle of spraying by means of spray rails (6) with the cleaning water drawn from the water tank (9) and the cleaning agent, - pumping spent sewage water from the sewage chamber (4) into the waste water tank (13), - rinsing according to the principle of spraying through spray rails (6) with clean water from a clean water tank (11) or from the water supply network, together with a wetting agent, - pumping flushing water into the water tank (9), - drying by switching on the fan (18) and the heating element (19), which results in the supply of warm air with minimal overpressure to the cleaning chamber (4).