WO2022054107A1

WO2022054107A1 - Fixed automatic machine for washing glass and windows of buildings and vehicles

Info

Publication number: WO2022054107A1
Application number: PCT/IR2021/050002
Authority: WO
Inventors: Khashayar MEHDIZADEHGHOHEH
Original assignee: Mehdizadehghoheh Khashayar
Priority date: 2020-09-09
Filing date: 2021-01-09
Publication date: 2022-03-17

Abstract

A fixed automatic washing machine for washing glass and windows of buildings and vehicles, which is for residential areas, home windows, large buildings and all glass towers, comprises: The main cover and the fluid tank which is in the direction of linear movement of the whole system in the gear structure; The washing and drying cover for excellent Washing and drying of the glass or window surface; The pump and nozzle cover for regular and integrated washing powder transfer to the surface of glass or window; Fan and heating system (element) cover which is for regular and sufficient and uniform heat transfer to the desired surface in order to dry the surface of glass or window and for 3- the vehicle including one main cover for excellent and extraordinary glass or window surfaces washing and drying.

Description

Description of the invention

Title of the invention (the declaration)

Fixed automatic machine for washing glass and windows of buildings and vehicles

Related technical background of the invention

This invention aims at washing glass and windows of buildings and vehicle side windows

Technical problem and invention goals statement

Since washing glass and windows has been done traditionally the responsibility of workforce, and then the devices that are produced and active in this field are still with shortcomings such as high energy consumption and high fluid consumption, Heavy costs, and inability to wash the glass on both sides due to their enormous dimensions and the dangers that have been faced by the workforce in this area, and still, there was a need for the workforce to operate the machine, but the purpose of inventing this device, with minimal dimensions that allow permanent installation on all windows and glass with different dimensions on both sides (both inside the glass and the window leading to the house and outside the glass And window leading to the outside space) can simultaneously wash and dry the glass completely automatically and without the need for any workforce and with minimal fluid consumption and with a vast working area

A description of the knowledge background and history of developments related to the claimed invention

Glass and windows have been traditionally washed by the workforce. Then, after progressing this field, the device and the technology also faced with shortcomings such as high energy consumption, high consumption of washing fluid, inability to wash both sides due to its vast dimensions and the use of the workforce, such as this invention (multi-purpose fully automatic cleaning device) to keep the facade and tall buildings and out of reach windows clean. Declaration number: 389040488 And registration number: 66012 and registration date of the declaration: 2010-07-13 and the name of the inventor/inventors: Afshin Nazer Adi) which is installed on the glass facade of the towers and for each Washing, the peripheral equipment must be installed and dismantled and is not permanent and still uses workforce, and due to its large size, it can only wash the exterior facade of the towers and is not used in the windows of residential buildings and vehicle windows. a solution to the existing technical problem with an accurate, sufficient, and integrated description of the invention

Due to the mentioned problems and the progress made so far, the device offers a new solution to improve the mentioned technology with the following specifications.

Specifications of fixed automatic washing machine for glasses and windows of buildings and vehicles

1- device Dimensions

2- device Components

3- system Description Device dimensions:

This device is designed in two different small sizes, one for residential areas with small windows and different dimensions and the other for buildings and towers with different dimensions. Here there are two examples of designed sizes.

A- Dimensions of the device for residential areas and home windows: Im long, 13cm wide and 29cm high

B- Dimensions of the device for large buildings and all glass towers: 4.5 m long and 26 cm wide and 50 cm high

C- Dimensions of the device for vehicles: 70 cm long, 3 cm wide and 19 cm high

Material of the device: The appearance of the device is made of compressed plastic covers because it is light and resistant to sunlight and other influential factors, but it can be made with most materials.

Device speed: The complete operation of the machine, i.e. simultaneous Washing and drying is done for 2 minutes per square meter.

Device weight: A- Residential areas and home windows: 5 kg

B- Large buildings and all glass towers: 30 kg

C- Side glass of vehicles: 2 kg

Device components:

For 1- For A- Residential areas and home windows with 4 covers (Figure 50 to 58) B- Large buildings and all glass towers and with 4 covers (Figure 59 to 69) C- Vehicle side window with 1 cover (Figure 70 to 73) explained in detail, respectively.

(It should be noted that the number of covers and the type, material, nature and quality of parts in both types of systems used in small residential areas and the system used in large buildings and towers are the same and only the quantity of parts is slightly different. In other words, the number of parts with the same type, material, nature and quality in the system used is more for large buildings and towers)

A- Residential areas and home windows:

1- Fan and heating system cover (element) (Figure 50): This cover has 1-4 fans (No. 2 in Figures 1 and 2)

2- 2 heating elements (No. 4 in Figure 1 and 2) 3- Heating element holder on the cover in front of the fans with the ability to adjust for elements with different lengths (No. 3 in Figure 1 and 2), which itself includes

1-4 pins for linear reciprocating movement of the heating element (No. 5 and 6 in Figure 1) 2- 1 spring in order to adjust and fix the position of the heating element in the cover (No. 11 in Figure 1) 4- 3 doors with

2 positions on the sides in order to access the wires of the element (No. 8 and 10 in Figure 1) and 1 in The upper part of the cover is in order to access the fans, microcontrollers and wires (No. 13 in Figures 1 and 2) 5- Door holders on the cover (No. 9 in Figures 1 and 2) It should be noted that all the doors installed in The system is closed by compressive mechanism)

2- Pump and nozzle cover (Figure 51): 1- 1 high pressure pump (No. 4 in Figures 3 and 4) 2 - 9 spray nozzles that are connected in series and the distances of the nozzles are determined by precise testing and calculations so that they cover each other (No. 2 in Figures 3 and 4) 3-9 high quality and pressure resistant plastic hoses that establish the connection between the pump and the spray nozzles (No. 3 and 6) In Figures

3 and 4) 4-9 nozzle cover doors which are closed by compressive mechanism 5- 1 pump cover door which is closed by a compressive mechanism 6-6 pumps and nozzle cover door which is closed by a compressive mechanism (No. 12 in Figure 3) 7- 12 door holders on their covers (No. 7 in Figure 3 and No. 7 and 9 in Figure 3 and 4) 8- Display (No. 8 in Figure 3 and 4) that shows 1- Low level of washing fluid in the tank as an alarm and filling the tank of the device completely automatically with small lamps in two red and green colors (red: low level of fluid in the tank and green: full fluid tank 2- Sensor indicating high temperature (set at a fixed number) in the glass surface while the system is working as an alarm and turning off the device with small lamps in two red and green colors (red: abnormal temperature and above the glass and green: Normal temperature adjusted by the user in the range of the glass surface 3- Displays of the temperature setting of the heating element of the fan and element system in 3 working ranges of 20 degrees, 40 degrees and 60 degrees 4- Display of the heating element adjustment in the Washing fluid tank in 2 working ranges of 20 degrees and 40 degrees. 1-9 high quality plastic and pressure resistant hoses that establishes the connection between the pump and the fluid tank (No. 5 in Figures 3 and 4)

3- Washing and drying cover (Figs. 52 and 53): 1-4 belts for connection between motor gears and gears of holding and rotary moving systems of washing and drying rolls (Nos. 29 and 30 in Figure 5 and No. 28 and 29 in Figure 6) 2. holding and rotary moving system of the washing and drying rolls (No. 32 in Figure 5 and No. 33 in Figure 6 and No. 14, 15, 16 and 17 in Figure 7). And No. 14 and 15 in Figure 8, and No. 2 and 3 in Figure 9, and in general No. 10), which consists of 1-4 ball bearings that are installed inside the holding and rotary moving system of the washing and drying rolls in order to provide Rotating the rollers in a completely fast and easy manner (No. 2 in Figure 10) 2-4 washers that are installed inside holding and rotary moving systems of the washing and drying rolls, which are installed exactly behind the ball bearings for preventing the linear movement of the washing and drying rolls (No. 3 in Figure 10) 3- 8 doors closed by a compressive mechanism, 4 of them are used for replacing washing and drying rolls on holding and rotary moving systems (No. 20 in Figure 5, No. 19 in Figure 6 and No. 5 in Figure 7) and 4 others to connect holding and rotary moving systems of the washing and drying rolls to power transmission system of servo motors for linear movement and displacement of the system for holding and rotary moving systems of the washing and drying rolls (No. 24 in Figure 5, No. 23 in Figure 6 and No. 9 in Figure 7) 2-4 Small powerful motors for rotary movement of washing and drying rolls, which are connected by 4 belts to the holding and rotary moving systems of washing and drying rolls and on and off operation at the same time is o create power and Sufficient speed to do the job properly and with high quality system (No. 34 in Figure 6) 5.2 small and high power servo motor for linear movement of the holding and rotary moving systems of the washing and drying rolls and linear movement of the fluid holding system on the glass surface and the linear movement of the fluid moving system on the glass surface are simultaneous. However, it should be noted that the on and off operation of these two servo motor is to create high power and speed at the same time (No. 2 in Figure 6) 6-1 washing rolls that is located before the drying roll at the bottom of the cover and 1 drying rolls placed after the washing roll on top of the cover (No. 7 and 8 in Figure 5 and 6, No. 3 and 4 in Figure 7, No. 3 and 4 in Figure 8, and No. 12 and 13 in Figure 9) 7.1 fluid holding system on the glass surface (No. 23 in Figure 5, No. 22 in Figure 6, No. 8 in Figure 7, No. 8 in Figure 8 and No. 30 in Figure 9) has 1 high quality compressed rubber located at the bottom of the washing roll (No. 13 in Figure 8 and No. 36 in Figure 9) so that the fluid waste is reduced to zero after spraying the fluid on the glass surface by maintaining the fluid on the glass surface, and a very large reduction in fluid consumption and 2 doors for Connection to the power transmission system of servo motors for linear movement (No. 25 in Figure 5, No. 24 in Figure 6 and No. 10 in Figure 7) and 2 doors on the washing and drying cover to hold and the fluid holding system on the glass surface for replacing the compressed rubber of the fluid holding system on the glass surface in the washing and drying cover (No. 15 in Figure 5 and No. 16 in Figure 6) 8- 1 fluid moving system on the glass surface (No. 21 In Figure 5 and No. 20 in Figure 6 and No. 6 in Figure 7 and No. 6 in Figure 8 and No. 28 in Figure 9) that has 2 high quality angled compressed rubbers located on top of the washing and drying roll to move reaming fluid after the washing roll operation to increase the quality and efficiency of the heating drying system and the drying roll (No. 7 in Figure 8 and No. 29 in Figure 9) because the washing and drying operation in this system is done simultaneously. And 2 doors to connect to the power transmission system of servo motors for linear movement (No. 26 in Figure 5 and No. 25 in Figure 6 and No. 11 in Figure 7) and 2 doors on the Washing and drying cover to fix and move the fluid moving system on the glass surface and to remove and replace the compressed rubbers of the fluid moving system on the glass surface in the washing and drying cover ( No. 14 in Figure 5 and No. 13 in Figure 6) 9- Power transmission system from servo motors for linear movement to holding and rotary moving system of the washing and drying rolls, and the fluid holding system the on the glass surface and the fluid moving system on the glass surface (No. 12 in Figure 7 and No. 12 in Figure 8) 10-Sensor indicating high temperature (set ay a fixed number) in the glass surface (No. 10 in Figure 6 and No. 15 in Figure 9) 11- Metal pins for Linear movement for holding and rotary moving system of the washing and drying rolls and the fluid holding system on the glass surface and the fluid moving system on the glass surface by servo motors to the extent specified in the microcontroller program by the user in a Linear reciprocating path according to the on or off state (No. 5 in Figure 5) 12-1 The main door of the Washing and drying cover closed by compressive mechanism and holding the metal pins.

(It should be noted that the fluid moving system on the glass surface is connected to a fluid holding system on the glass surface by a compressed plastic interface that can be detached to transfer power from the servo motor for linear movement)

4- Main cover and fluid tank (Figs. 54, 55, 56 and 57): including 1-2 small powerful motors for linear (reciprocating) movement of the cover on the rack installed on the window or glass (No. 2 in Figures 11 and 13) 2-6 idler gears for linear reciprocating movement of cover in a balanced way and in one direction facilitating the operation of the engine on window frame or on glass ( No. 4 in Figures 11 and 13 and No. 5 in Fig. 15 and Fig. 16 in general) with ball bearings (No. 2 in Figure 16) for rotating high quality compressed rubber gears and gaskets (No. 3 in Figure 16) for holding and preventing the linear movement of washing and drying rolls 3- Fluid tank with 1- Heating system (element) (No. 11 in Figure 13 and No. 10 in Figure 14) that can be adjusted in two ranges of 20 degrees and 40 degrees to increase the quality of performance of the device in different geographical areas 2- Fluid level detector sensor (No. 16 in Figure 13 and No. 15 in Figure 14) in 2 states: 1- full tank 2 empty - tank and in both modes through the microcontroller to move the cover upwards in order to fill the tank if it is empty and separates by moving the cover downwards after filling. 4- High quality plastic valve with open/close feature to establish fluid connection from the tank to the high pressure pump inside the pump and nozzle cover (No. 12 in Figure 11) 5- Fan and heating system cover (element) and Pump and nozzle cover and washing and drying cover All 3 of these covers are installed inside this cover (main cover and fluid tank) for linear reciprocating movement on the rack installed on window frame or on the glass to perform their duties by appendages that are installed on all 3 of them, which are 1- The Washing and drying cover placed inside the front part of the main cover (glass or window side), but in case of a problem, the parts inside the washing and drying cover can be easily accessed from the back of the main cover (inside side). 2- Cover and nozzle Pump which is located from the back of the main cover (inside) 3- Fan and heating system cover (element) which is located from the back of the main cover (inside) on the pump and nozzle cover. There are 6-12 doors in this cover, all of which are closed by a compressive mechanism, 1-2 doors in the front part of the main cover (glass or window) to place and separate the washing and drying cover. 2-4 doors on the right and left sides to place and separate the idler gears. 2-3 doors to place and separate the motors. 4- 2 doors to access the wires of the washing tank element And auxiliary motors if needed 5- 1 main cover door 6- 1 fluid tank door (It should be noted that the holes installed on the main cover door create enough space for the required air to enter the fan installed in the fan and the heating system (element) cover

5- Window or glass (Figure 58) with 1-8 rack for linear (reciprocating) movement of the main cover in the window form or on glass (No. 4 in Figure 18 and No. 4 and 5 in Figure 19 And 20) 2- One-way valve with 5mm valve head with pressure from the motor, which is commanded by the fluid level detector sensor inside the fluid tank (sensor through microcontroller commands the tank fullness and emptiness to the motor to connect for filling And detachment after filling) is opened upwards and after filling the tank completely automatically by removing the pressure from the engine and detaching the 5mm valve head, which is commanded by the fluid level sensor inside the tank and is closed downwards (No. 6 in Figures 19 and 20 and in general Figure 17) 3. Water tank (No. 7 in Figures 18 and 19)

6- This system has a control on which buttons are installed for the operation of the device: 1- Button to turn on the device for automatic operation 2- Button to turn off the device with up and down keys on the device: This key is designed for this purpose that if the device is turned on by the user and the user notices that the glass is clean and does not need to be cleaned and has made the wrong decision, or the key to turn on the device is activated inadvertently, such as: putting foot on control or baby manipulating or ...., on can stop the operation of the device by pressing the key and move the device to its original position using the upper key.

The use of the bottom key in this system is only to remove the cover from inside the window frame to perform repair operations on the system (it should be noted that in order to access and facilitate work on the device, the entering and exiting inside Window frame is only possible from the bottom of the window frame.

3- Temperature control switch of the fan and heating system (element) cover that can be adjusted in 4 modes of off, 20, 40 and 60 degrees Celsius

4- Temperature control switch of heating system (element) of fluid tank that can be adjusted in 3 modes of off, 20 and 40 degrees Celsius

B- Large buildings and all glass towers:

1- Fan and heating system cover (element) (Figures 59 and 60): This cover has 1-20 pieces of fan element (No. 11 in Figure 21) 2-3 covers.

2- Pump and nozzle cover (Figures 59 and 60): 1- 4 high pressure pumps (No. 2 in Figures 34 and 35) 2 - 19 spray nozzles that are connected in series and the distance between the nozzles with Precise testing and calculations are determined such that they cover each other (No. 4 in Figs. 21 and 22) 3- 20 high quality plastic and pump pressure resistant hoses that establish the connection between the pump and the spray nozzles to each other. (No. 5 in Figure 22 and No. 6, 7, 8 and 9 in Figure 23) 4-9 Nozzle cover doors that are closed by a compressive mechanism 5. 1- Pump door cover that is closed by a compressive mechanism 1-6 pieces of Pump and nozzle cover cover that is closed by hand by pressure mechanism 7-12 pieces of door holders on their covers 8- Display that shows (No. 10 in Figure 23) 1- Low level of washing fluid in the tank as an alarm and filling the tank of the device completely automatically with small lamps in two red and green colors (red: low level of fluid in the tank and green: the fullness of the fluid tank 2- sensor indicating high temperature (set at a Fixed number) on glass surface while the system is working, as an alarm and turning off the device with small lamps in two red and green colors (red: abnormal temperature and above the glass and green: normal temperature adjusted by user shows in the glass surface) 3- Displays the temperature setting of the heating element of the fan and element system in 3 working ranges of 20 degrees, 40 degrees and 60 degrees 4- Displays the setting of the heating element in the washing fluid tank in 2 working ranges of 20 Degree and 40 degrees 1-9 High quality plastic and pressure resistant hoses that establishes the connection between the pump and the fluid tank

3- Washing and drying cover (Figs. 61, 62, 63 and 64): 1- 4 belts for connection between motor gears and gears of holding and rotary moving systems of washing and drying rolls (No. 41 in Figures 26 and 30 and No. 18 in Figure 29) 2- holding and rotary moving systems of washing and drying rolls (No. 2, 3, 4, 5 and 7 in Figure 24, No. 4, 5 and 7 in Figure 26 and No. 2, 3 and 7 in Figure 27 and No. 4 and 5 in Figure 29 and No. 7 in Figure 30 and in general Figure 33 and in general Figure 34) which consists of 1 -4 ball bearings inside the holding and rotary moving systems of washing and drying rolls (No. 3 in Figure 34). ) installed to provide rotary movement of the rolls in a completely fast and easy manner. 2-4 washers fixed inside the holding and rotary moving systems of the washing and drying rolls, installed exactly in the position behind the ball bearings for fixing and preventing the linear movement of the washing and drying rolls during the operation (No. 4 in Figure 34) 3-16 doors that are closed by the compressive mechanism , 8 of which are for inserting and replacing the washing and drying rolls in its position on the holding and rotary moving systems (No. 26 in Figures 25, 26 and 29 and No. 33 in Figures 25, 26, 28 and 30) and another 8 to connect the holding and rotary moving system of the Washing and drying rolls to the power transmission system of servo motors for linearly movement and the holding and rotary moving system of the washing and drying rolls (No. 35 and 36 in Figures 28 and 30 and No. 28 and 49 in Figure 29 4 - 4 powerful motors for rotary movement of washing and drying rolls, which are connected by 4 belts to the systems for the holding and rotary moving system of washing and drying rolls, and turning them on and off at the same time to create enough power and speed to do the job properly and with high quality system (Nos. 16 and 17 in Figure 32), 5-6 small, high-power servo motors for linear movement of the holding and rotary moving system of Washing and drying rolls and linear movement of the fluid holding system on the glass surface and linear movement of the fluid moving system on the glass surface are simultaneous. The on / off operation of these two servo motors to create high power and speed at the same time (No. 15 in Figures 31 and 32) 6- 2 washing rolls located before the drying roll at the bottom of the cover (No. 9 in Figures 24, 26, 27 and 29) and 2 drying rolls located in the upper part of the cover after washing roll (No. 8 in Figures 24, 26, 27 and 29) 7- 2 pieces of fluid holding system on the glass surface (No. 11 and 12 in Figure 24 and No. 11 in Figure 27) has 1 high quality compressed rubber that is located at the bottom of the washing roll to reduce the fluid waste to zero after spraying the fluid on the glass surface while maintaining the fluid on the glass surface and a great reduction of fluid consumption and 4 doors to connect to the power transmission system of servo motors for linear movement (No. 36 in Figures 28 and 30 and No. 49 in Figure 29) and 2 doors on the Washing and drying cover, closed by compressive mechanism to remove and replace the compressed rubber of the fluid holding system on the glass surface and to hold and move the holding system. The fluid tank is on the glass surface in the washing and drying cover (No. 38 in Figure 29). 8- 2 fluid moving systems from the glass surface (No. 10 and 19 in Figure 24 and No. 10 in Figure 27 and) with 2 high quality angled compressed rubbers located on the top of the washing roll to move remaining fluid after the washing roll operation to increase the quality and efficiency of the heating drying system and the drying roll, because the Washing and drying operation is done simultaneously in this system, and 4 doors to connect to the Power transmission system from servo motors for linear movement (No. 35 in Figures 28 and 30 and No. 28 in Figure 29) and 2 doors on the washing and drying cover which are closed with a compressive mechanism to remove and replace the Compressed rubber of fluid holding system on the glass surface and to hold and move the fluid holding system on the glass surface in the washing and drying cover (No. 37 in Figure 29) 9-2 power transmission systems from Servo motors for linear movement to the holding and rotary moving system of the washing and drying rolls and the fluid holding system on the glass surface and the Fluid moving system on the glass surface (No. 50 in Figure 30 and No. 51 in Figures 28, 29 and 30) 10- High temperature sensor (set at a fixed number) on the glass surface (No. 47 in Figure) 24, 27 and 32) 11- Metal pins for linear movement of the holding and rotary moving system of the washing and drying rolls and the fluid holding system on the glass surface and the fluid moving system on the glass surface by servo motors to the extent specified in the microcontroller program by the user in a linear reciprocating movement according to the on and off operation of the device (No. 13 and 14 in Figure 29) 12 - 1 main door of Washing and drying cover closed by compressive mechanism and holds the metal pins. 13- Strength walls that are designed to increase the strength of the body and prevent bending and failure of the body structure due to its long length, and these walls are movable and can be detached and installation is easy and convenient when repairing and replacing parts (No. 43 and 45 in Figure 29 and No. 42, 43 and 44 in Figure 30) 14- holding system to avoid bending and breaking and facilitate the linear movement of the servo motors to the power transmission system from the servo motors to the fluid holding system on the glass surface and the fluid moving system on the glass surface and the fluid holding system designed on the glass surface and the fluid moving system from the glass surface is designed (No. 54 in Figure 27, No. 53 in Figures 28 and 29, and No. 52 in Figures 31 and 32).

4- Main cover and fluid tank (Figs. 65, 66 and 67): including 1-8 small powerful motors for linear (reciprocating) movement of the cover on the rack gears installed in the window frame or on glass (Gear structures) (No. 2 in Figures 35, 36, 39 and 40) 2- 4 idler gears (No. 3 in Figures 35, 36 and 39 and in general Figure 42) which for (reciprocating) movement in a balanced way and in One direction and help to facilitate the operation of the engine in windows frame or on glass that has ball bearings (No. 3 in Figure 42) to rotate the gears and high quality compressed rubber gaskets (No. 4 in Figure 42) for holding and rotary moving system of the washing and drying rolls during operation. 3- One-way valve with 5mm valve head with pressure from the motor, which is commanded by the fluid level detector sensor inside the fluid tank (sensor commands via microcontroller for full and empty state of the tank to the motor to fill and detach after filling) that is opened upwards and closed downward after filling the tank fully automatically by removing the pressure from the engine and detaching the valve head 5 mm, which is commanded by the fluid level detector sensor inside the fluid tank (No. 4 in Figure 36 and Figure 41 in general) 4- Fluid tank that has 1-2 heating systems (element) (No. 5 in Figure 38 and 39) that can be adjusted in two modes of 20 degrees and 40 degrees to increase the quality of performance of the device in different geographical areas 2- Fluid level sensor (No. 9 in Figures 38 and 39) in 2 stated of 1- full 2- empty and in both cases, through the microcontroller, the command is provided to move the cover upwards in order to fill the tank if it is empty and to separate by moving the cover downwards after filling. 5- High quality plastic valve to establish fluid connection from the tank to the high-pressure pump inside the Pump and nozzle cover (No. 7 in Figure 40) 6- Fan and heating system cover (element) and Pump and nozzle cover for washing and drying, all 3 of these covers inside this cover (main cover and fluid tank) for linear (reciprocating) movement on the rack gears installed on the window or on the glass to perform tasks by appendages installed on all 3 of them. 1- Washing and drying cover inside the front part of the main cover (the glass or window side), but the parts inside the Washing and drying cover, if needed, can be easily accessed from the back of the main cover (interior) 2- Pump and nozzle cover which is located from the back of the main cover 3- Fan and heating system cover (element) from the back of The main cover which is located on the pump and nozzle cover 12- there are 7 doors in this cover, all of which are closed by a compressive mechanism , 1-2 doors in front of Main cover (glass or window side) to place and separate the Washing and drying cover, 2-4 doors on the right and left sides to place and separate the idler gears 3-8 doors to place and separate motors 4- 2 doors in order to access the wires of the fluid tank element 5- 1 main cover door 6- 2 fluid tank doors

(It should be noted that the holes installed on the door of the main cover create enough space for the required air to enter the fan installed in the fan and the heating system (element) cover

5- Window or glass (Figs. 68 and 69): with 8 rack gears for linear (reciprocating) movement of the main cover in windows frame or on the glass and a solenoid valves and one-way valves (Fig. 44) and a water tank (No. 2 in Figure 43), both of which are designed from the right side of the window cover in the body at distances of 10 meters and have a laser sensor on the main cover that is connected to the microcontroller and upon receiving the signal that the cover tank is empty in first one-way valve, using a laser sensor, it stops in its correct and precise position, and by opening the solenoid valve and opening the one-way valve, the fluid flows to the tank and by full command from the fluid tank level detector sensor, both the solenoid valve and the one-way valve are closed and the system continues to operate again.

The use of the bottom key in this system is only to remove the cover from inside the window frame to perform repair operations on the system (it should be noted that to access and facilitate work on the device, the entering and exiting inside Window frame is only possible from the bottom of the window frame.

3. Description of system performance for residential areas and home windows and buildings and all glass large towers: according to the figure, the main cover is in the off state at the top of the window frame, in other words, the system is at the top of the window frame and the Washing and drying operation in this system is completed in just one linear reciprocating movement of the system, which is clearly and precisely explained:

In this system, after pressing the key, the washing and drying operations are performed in a reciprocating movement of the system in the following order:

1- First, the fan and the heating system (element) are turned on so that the temperature of the element reaches the temperature set by the user in order to help the drying of the glass surface, and this suitable heat is distributed evenly throughout the glass surface by the fans.

2- Then the drying roll and the washing roll and the fluid moving system on the glass surface and the fluid holding system on the glass surface all simultaneously installed by the servo motors to the glass with a contact surface set on the servo motor to create appropriate pressure on the glass surface to increase the quality of device. 3- After that, the high pressure pump sprays the washing fluid by the nozzles, which are designed and installed at suitable intervals to cover the entire glass surface, on the glass surface under the washing roll (the pump spray rate is already set on the microcontroller) to perform the spraying operation at appropriate intervals, the fluid holder on the surface has reduced the fluid waste to zero, which has increased the spraying intervals and reduced the number of spraying times and leads to very little fluid consumption).

4- Then 4 motors, 2 to rotate the washing and drying rolls with sufficient speed and power on the glass surface and 2 more to move the whole system in windows frame for Washing and drying operations in the downward direction and then return the device to its original position (after operation and shutdown) and also opens upward to continue drying by the heating system and automatic filling of the fluid tank.

5- Then the device starts working in the downward direction with the highest quality, which the order of the parts during the movement and Washing and drying operation of the device is downward from the bottom of the device and upwards in the opposite direction 1- Fluid holding system on the glass surface 2- High pressure pump for transferring fluid on the surface by the nozzles under the washing roll 3- Washing roll 4- Fan and auxiliary drying system located just behind the washing roll 5- Fluid moving system on the surface Glass 6- drying roll

6- After reaching the bottom of the glass or window, the washing operation ends with most of the drying operation, and only a small operation of drying the glass is done only by the auxiliary heating system and the automatic filling of the fluid tank, if necessary. Therefore, when the device reaches the end of the window or glass, the washing and drying roll and the fluid holding system on the surface and the fluid moving system on the surface are installed from the glass surface again by servo motors in the initial position before turning on and the two motors that were spinning the washing and drying rolls are turned off and the high pressure spray pump of the washing liquid is turned off, thus ending the whole washing operation and most of the drying operation, so only on state system is the fan and heating system (element), then the device starts to move upwards so that the whole surface is completely dry with the fan and heating system (element) with the highest quality.

7- When the device reaches the top of the glass or window (system position), the fan and heating system (element) stay on for a few minutes until the drying roll, which may have been wet during the drying operation, dries completely and the Washing and drying operation is completely finished and if the fluid level in the fluid tank reaches such a level that the sensor of low fluid in the tank through the microcontroller commands the motors to fill the tank, the motors move a little more upwards and press the one-way valve to open in an upward direction and the fluid from the main fluid tank with different volumes, which is installed in a place of the building according to the structural position of the building, automatically to the device tank due to gravity enters the tank to fill it. The fluid level in the tank continues until the sensor above the fluid level detects. When the fluid level reaches this point, the sensor detects the high level of fluid in the tank and through the microcontroller with the command to the motors by moving downwards, removes the pressure from the one-way valve and closes the one-way valve in the downward direction, and the device is placed in its place at the top of the window frame. The system is now ready to perform washing and drying operations with the same steps as before.

8- It should be noted that the service life of the consumable parts used in this system is very long and access to all internal components of the system for replacement and repair, if necessary, is easy and without the need to remove the main cover from the window frame and Replacement of consumable parts if needed can be done easily and simply by the consumer himself according to the system manual.

C - Vehicle glass washing and drying (Figures 70, 71, 72 and 73), which has the following components: 1- There are 11 element fan that are installed in the upper part of the cover in the direction towards the drying roll, so that by circulating hot air, it performs the drying operation with the highest quality and also helps to dry the Drying roll both during and after operation (No. 4 in Figure 46) 2-2 small and high power servo motor for linear movement of the holding and rotary moving system of the washing and drying rolls and the linear movement of the fluid moving system on the glass surface are simultaneous. Of course, it should be noted that the on and off operation of these two servo motors are simultaneous to create high power and speed (No. 13 in Figure 46) 3-1 drying roll that perform the drying process with the highest quality in order to dry the glass surface with the auxiliary heating system (No. 2 in Figs. 46 and 47) 4- 2 holding and rotary moving system of the washing and drying rolls on the glass surface (Figure 49) 5- 1 fluid moving system on the glass surface (No. 2 in Figures 46 and 47) 6-1 Washing roll that wash the glass surface with the highest quality (No. 2 in Figs. 46 and 47) 7-6 spray nozzles that are installed on the washing roll just below the washing roll in order to spray powder and fluid (No. 3 in Figs. 46 and 47) 8-4 metal pins for linear movement of the linear movement of the holding and rotary moving system of the washing and drying rolls and the fluid moving system on the glass surface by servo motors to the extent specified in the microcontroller program by the user in a linear reciprocating manner according to on and off state. 6-9 high pressure hoses are the interface between the spray nozzles and the pump (No. 7 and 8 in Figure 46 and No. 11 in Figure 45). 10 Powerful motors for rotary movement of the washing and drying rolls, which are connected by 2 belts to the systems for holding and rotating the washing and drying rolls, and turning them on and off at the same time to create enough power and speed to do the right job at the top of the system (No. 5 in Figure 46) 11-2 belts for connection between the gears of the motors with the gears of the rotating and moving systems of the washing and drying rolls ( No. 9 in Figure 46) 12 - 1 fluid tank (No. 18 in Figure 45) 13-1 High pressure pump for 2 vehicle doors (No. 16 in Figure 45) 14 - 1 high pressure hose interface between the tank and the pump (No. 17 In Figure 45) 1-15 vehicle doors (No. 1 in Figure 48) 16-Vehicle door with device (Figure 48)

2- Description of the operation of the device for vehicle side windows: The operation of the system is such that when the device is turned on through a button that is installed on the inside of the door (passenger side), the window or the same glass in any position is open. At this time, the washing and drying rolls and the fluid moving system are attached to the windshield on both sides, and the heating systems are turned on in the direction facing the drying roll, and then simultaneously with the slow movement of the windshield. Upwards, in order to close the spray nozzles, spray the liquid on the surface of the washing roll, and the washing and drying operations begin at the same time, and continue until the glass reaches the upper part of the window until the glass closes completely and then the Washing and drying operation on the glass by the rolls is completed when the glass reaches the top of the window or the same closed position, but the heating systems continue to dry the drying roll and complete the drying operation until the glass returns to its original state. That is, the open state or the same movement down the window stays on, then the glass begins to move down the window and returns to its original state or the same state of being open, and when it reaches its original state, the heating systems are also turned off, and the operation of Washing and drying the vehicle window in a reciprocating movement of the glass itself means going to the closed state and then returning to Open state ends.

Note: In the following figures, the user has used the window frame to display the function, nature, details and performance of the device, and in relation to all glasses, this frame can be easily made and installed by the manufacturer.

Explanation of figures, maps and diagrams Figures 1 and 2: front view of the Fan and heating system (element) of the subject of the invention related to residential areas and home windows.

Figures 3 and 4: the back view of the Pump and nozzle cover of the subject of the invention related to residential areas and home windows.

Figures 5, 6, and 7: the back view of the Washing and drying cover of the subject of the invention related to residential areas and home windows.

Figure 8: a side view of the washing and drying system inside the washing and drying cover of the subject of the invention related to residential areas and home windows.

Figure 9: the front view of the washing and drying cover of the subject of the invention related to residential areas and home windows.

Figure 10: a 3D view of the rotating Washing and holding system of the washing and drying rolls related to the washing and drying system (washing and drying cover) of the subject of the invention related to residential areas and home windows.

Figure 11 : the back view of the main cover and the fluid tank of the subject of the invention related to residential areas and home windows.

Figure 12: the exploded view of the main cover and the fluid tank of the subject of the invention related to residential areas and home windows.

Figures 13 and 14: the top view of the main cover and the fluid tank of the subject of the invention related to residential areas and home windows.

Figure 15: the front view of the main cover and the fluid tank of the subject of the invention related to residential areas and home windows.

Figure 16: a 3D view of a idler gear that of the subject of invention related to residential areas and home windows for linear (reciprocating) movement of the main cover and fluid tank.

Figure 17: a 3D view of a one-way valve on a window or glass cover of the subject of the invention related to residential areas and home windows.

Figure 18: a complete view of the invention related to residential areas and home windows

Figures 19 and 20: a complete side view of the invention related to residential areas and home windows.

Figure 21: This front view of the Fan and heating system cover (element) and the pump and nozzle cover of the subject of invention related to large buildings and all glass towers.

Figures 22 and 23: the back view of the fan and heating system (element) cover and pump and nozzle cover of the subject of invention related to large buildings and all glass towers

Figures 24 and 27: front view of the washing and drying cover of the subject of invention related to large buildings and all glass towers.

Figures 25, 26, 28, 29, 30, 31 and 32: back view of the washing and drying cover of the subject of invention related to large buildings and all glass towers. Figures 33 and 34: 3D view of the holding and rotating moving system of washing and drying rolls related to the washing and drying system (washing and drying cover) of the subject of the invention related to buildings and all glass large towers

Figure 35: the front view of the main cover and the fluid tank of the subject of invention related to large buildings and all glass towers.

Figures 36, 37 and 40: the back view of the main cover and the fluid tank of the subject of invention related to large buildings and all glass towers.

Figures 38 and 39: the top view of the main cover and the fluid tank of the subject of invention related to large buildings and all glass towers.

Figure 41: a 3D view of a one-way valve mounted on the main cover and fluid tank of the subject of invention related to large buildings and all glass towers.

Figure 42: a 3D view of an idler gear of the subject of invention related to large buildings and all glass towers for linear (reciprocating) movement of the main cover and fluid tank.

Figure 43: a complete view of the entire invention related to large buildings and all glass towers

Figure 44: 3D view of a one-way valve mounted on a window or glass cover of the subject of invention related to large buildings and all glass towers.

Figure 45: front view of the fluid tank of the subject of invention related to the Washing and drying machine of vehicle side windows.

Figure 46: the back view of the vehicle side window washing and drying system of the subject of the invention related to the vehicle side window washing and drying machine.

Figure 47: the front view of the vehicle side window washing and drying system of the subject of the invention related to the vehicle side window washing and drying machine.

Figure 48: a complete view of the whole invention related to the vehicle windshield washing and drying machine.

Figure 49: a 3D view of the system for holding and rotating moving system of the washing and drying rolls on the glass surface.

Figure 50: front view of the Fan and heating system (element) cover of the subject of the invention related to residential areas and home windows.

Figure 51 : the front view of the Pump and nozzle cover of the subject of the invention related to residential areas and home windows.

Figure 52: the back view of the washing and drying cover of the subject of invention related to residential areas and home windows.

Figure 53: the front view of the washing and drying cover of the subject of invention related to residential areas and home windows.

Figure 54: the back view of the main cover and the fluid tank of the subject of invention related to residential areas and home windows. Figure 55: the exploded view of the main cover and the fluid tank of the subject of the invention related to residential areas and home windows.

Figure 56: the back view of the main cover and the fluid tank of the subject of the invention related to residential areas and home windows.

Figure 57 : the front view of the main cover and the fluid tank of the subject of the invention related to residential areas and home windows.

Figure 58: a complete view of the entire invention related to residential areas and home windows

Figure 59: front view of the Fan and heating system (element) cover and the pump and nozzle cover of the subject of invention related to large buildings and all glass towers.

Figure 60: back view of the Fan and heating system (element) cover and the pump and nozzle cover of the subject of invention related to large buildings and all glass towers.

Figure 61: 3D view of the washing and drying system of the subject of invention related to large buildings and all glass towers.

Figure 62: the front view of the washing and drying cover of the subject of invention related to large buildings and all glass towers.

Figure 63: the back view of the washing and drying cover of the subject of invention related to large buildings and all glass towers.

Figure 64: the back view of the washing and drying cover of the subject of invention related to large buildings and all glass towers.

Figure 65: the exploded view of the main cover and the fluid tank of the subject of invention related to large buildings and all glass towers.

Figure 66: back view of the main cover and the fluid tank of the subject of invention related to large buildings and all glass towers.

Figure 67: front view of the main cover and the fluid tank of the subject of invention related to large buildings and all glass towers.

Figure 68: complete view of the entire invention related to large buildings and all glass towers

Figure 69: a complete side view of the entire invention related to large, all -glass buildings and towers

Figure 70: side view of the window washing and drying system of vehicles of the subject of invention related to the machine for Washing and drying for vehicle side windows.

Figure 71: the back view of the vehicle side window washing and drying system of the subject of the invention related to the vehicle side window washing and drying machine.

Figures 72 and 73: complete side view of the entire invention related to the vehicle windshield washing and drying system. Clear and precise statement of the advantages of the claimed invention compared to previous inventions

This device bears no resemblance to manual models and has very high differences and advantages in relation to the previous automatic model that did not exist in the previous model, which I will mention here with a detailed and comprehensive explanation. 1- Very Small dimensions compared to the previous model that allows the permanent installation of the system on almost all windows and glass of almost all buildings, towers and residential areas. 2- Ability to simultaneously wash and dry glass and windows with a wide working range compared to the previous models (high savings in power consumption and time) on both sides (both inside the glass and windows and outside the glass and windows), and it is not possible to wash and dry the inside of the glass and even outside the small window and windows of residential areas and even most buildings and towers in the previous model due to the very large dimensions. 3- The fluid holding system on the glass surface has 1 high quality compressed rubber at the bottom of the washing roll so that after spraying the fluid on the glass surface and keeping the fluid on the glass surface, the fluid waste will be reduced to zero and causes a very large reduction in fluid consumption, the fact that is not present in the previous sample. 4. Fluid tank filling is completely automatic using a fluid level detector sensor, even if it is one-way, which is not present in the previous sample. Auxiliary drying heating system that facilitates and accelerates the drying of the glass surface and increases the quality of the system efficiency and can be adjusted in three modes of 20 degrees, 40 degrees and 60 degrees in different geographical areas according to different weather conditions which is not present in the previous sample. 6- Using the heating system in the fluid tank with the ability to adjust in two working ranges of 20 degrees and 40 degrees in order to increase the quality and efficiency of performance of the device in different geographical areas that is not present in the previous sample. 7- high temperature sensor on the glass surface with alarm and turning off ability for the device that is not present in the previous model 8- Fluid moving system on the glass surface with two high quality angled compressed rubbers located on the top of the washing roll in order to move Remaining fluid after washing roll operation to increase the quality and efficiency of the heating drying system and drying roll because Washing and drying is done simultaneously in this system, which is not the case in the previous example

An explanation of one practical method at least for applying the invention

Due to its small size, This package can be installed in the building windows inside the window frame and in the glass facade of towers and buildings, inside the glass facade frame and in the side windows of the vehicle and inside the vehicle door.

Explicit statement of industrial application of the invention

As mentioned in the implementation method and technical context of the invention, this invention is used in the construction industry and tall towers with glass facades and vehicles.

Summary of the invention

Fixed automatic washing machine for glass and windows of buildings and vehicles

- Washing glass and windows has been done by workforce for a long time and then with the progress in this field, the device and technology used in this field are also faced with shortcomings such as high energy consumption, high consumption of washing fluid, lack of ability to wash glass on both sides due to its very large dimensions and the use of workforce, but in this system, by solving the above problems, a device with smaller dimensions and the ability to be permanently installed in the structure of windows and glass and energy consumption reduction and workforce elimination and the function and application of this system in the field of washing glass and windows of buildings and vehicles is created in such a way that the device is a package that performs two washing and drying operations automatically and simultaneously on the windows of residential buildings and the glass facade of the towers and the side windows of the vehicles.

Claims

Claims What is claimed:

1. Hereby, we claimed a device called a fixed automatic washing machine for washing glass and windows of buildings and vehicles, which is for 1- residential areas and home windows, and 2- large buildings and and all glass towers, including four covers: 1- The main cover and the fluid tank which is in the direction of linear movement of the whole system in the gear structure 2- The washing and drying cover for excellent Washing and drying of the glass or window surface 3- The pump and nozzle cover for regular and integrated washing powder transfer to the surface of glass or window 4- Fan and heating system (element) cover which is for regular and sufficient and uniform heat transfer to the desired surface in order to dry the surface of glass or window and for 3- the vehicle including one main cover for excellent and extraordinary glass or window surfaces washing and drying.

2. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, main cover and fluid tank according to claim 1, has two small, powerful motors by gears connected to the motor shaft for linear (reciprocating) movement upside and downside the cover on the rack installed in the window frame or on the glass from the back and the Right (1) and left (1) inside the main cover and the fluid tank are placed in their positions that have a door closed by a compressive mechanism.

3. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, main cover, and fluid tank., According to claim two, it has six idler gears (including ball bearing and gear), the purpose of which is linear (reciprocating) movement of the cover in a balanced way and one direction and in the upward and downward direction that facilitates the operation of the engine on the rack installed in the window frame or on the glass from the right sides. (3 pieces) and left (3 pieces) inside the main cover and fluid tank in their positions with a door closed by the compressive mechanism.

4. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, main cover, and fluid tank has one fluid tank in the upper part of the main cover that has a door closed by a compressive mechanism.

5. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, main cover, and fluid tank. According to claim 4a heating system (element) with the ability to adjust in two modes of 20 Degrees and 40 degrees are installed inside the fluid tank 1 for different geographical areas to increase the quality of performance of the device

6. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, main cover, and fluid tank According to claim 4, inside the fluid tank, there is one fluid level detection sensor in 2 states of full and empty and in both, the cover moves upwards to fill the tank if it is empty and separates by moving the cover downwards after filling through the microcontroller.

7. Fixed automatic washing machine for washing glass and windows of buildings and vehicles for residential areas and home windows, main cover, and fluid tank. According to claim 4, in the lower part of the fluid tank, 1 high quality plastic valve is installed which is opened and closed for tank fluid in the main cover to relate with the high-pressure pump inside the pump and nozzle cover..

8. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, main cover, and fluid tank. According to claim 4, at the top of the fluid tank there is 1 5mm plastic valve head for connection to one-way valve on the top of the window.

9. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, main cover, and fluid tank, according to claim 1 , 1 pump and nozzle cover from the back of the main cover and fluid tank by a sliding holder is placed inside the main cover.

10. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, main cover, and fluid tank, according to claim 1, 1 fan and heating system (element) cover from the back of the main cover and fluid tank is placed by a sliding holder inside the main cover just above the pump and nozzle cover inside the main cover and the fluid tank.

Claim 11) Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, main cover, and fluid tank, according to claim 1 , 1 washing and drying cover which is installed from the main cover front by two Sliding holders inside the main cover just in front of the pump and nozzle cover and the fan and heating system (element) cover.

12. Fixed automatic washing machine for glasses and windows of buildings and vehicles for residential areas and home windows, washing and drying cover, according to claim 1, 2 powerful small motors (including motor and gears) are installed for Washing and drying roll rotational movement, one on the Right and one on the left inside the washing and drying cover, in their places that have a door closed by the compressive mechanism.

13. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, washing and drying cover, according to claim 12, 4 belts are installed for connection between engine gears and holder system gears and rotary drive of washing and drying rolls, two are on the Right and the other two are on the left inside the cover on the gears of the motors and the rotary moving and holding systems of the washing and drying rolls.

14. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover. According to claim 13, 4 rotating and moving systems for washing and drying rolls (including ball Bearing, gears and holders) are installed to hold and rotate the washing and drying rolls (with a door to place the rolls, closed by a compressive mechanism) by power transmission in motor belts and also have the power transmission system position from the servo motors for linear movement with a door closed by a compressive mechanism, 2 are on the Right and the other 2 are on the left side of the cover inside the Washing and drying cover.

15. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover, according to claim 14, 2 small, high-power servo motors are for linear movement of the holding and rotary moving system of the washing and drying rolls and the linear movement of the fluid holding system on the glass surface and the linear movement of the fluid moving system on the glass surface. However, it should be noted that the on/off operation of these two servo motors is to create high power and speed at the same time, one on the right side and the other on the left side of the cover, inside washing and drying cover with a door closed by the compressive mechanism.

16. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover. According to claim 15, 2 interfaces are installed between the servo motor shaft and the power transmission system of the servo motors, One on the right side of the cover and the other on the left side of the cover on the servo motor shaft and is connected to the transmission system.

17. Fixed automatic washing machine for washing glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover. According to claim 16, 1 power transmission system of servo motors for linear movement to the holding system and rotary drive of the washing and drying rolls and the fluid holding system on the glass surface and the fluid moving system on the glass surface placed inside the Washing and drying cover in front of the cover.

18. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover. According to claim 14, 1 drying roll is installed on the top of the Washing and drying cover on 2 holding and rotary systems of the drying roll, which are on the sides of the cover, with a door closed by a compressive mechanism.

19. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover. According to claim 14, 1 washing roll is installed at the bottom of the Washing and drying cover on 2 holding and rotary systems of the washing roll, which is on the sides of the cover, with a door closed by the compressive mechanism.

20. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover, according to claim 17, 1 fluid moving system on the glass surface is installed in the upper part inside the washing roll and Washing and drying cover and has 2 high quality compressed angled rubbers to move remaining fluid after the washing roll operation to increase the quality and efficiency of the heating drying system and drying roll with 2 doors to connect to the power transmission system of servo motors for linear movement and 2 doors with two metal pins on the Washing

18 and drying cover to hold and move the fluid moving system on the glass surface and to remove and replace the compressed rubbers of the fluid moving system on the glass surface in the Washing and drying cover.

21. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover. According to claim 17, 1 fluid holding system on the glass surface with 1 high quality compressed rubber us installed on the bottom of the washing roll so that after spraying the fluid on the glass surface, by keeping the fluid on the glass surface, the fluid loss will be reduced to zero and will cause a great reduction in fluid consumption, with 2 doors to connect to the Power transmitter system of servo motors for linear movement and 2 doors with two metal pins on the Washing and drying cover to hold and move the fluid holding system on the glass surface and to remove and Replacement of compressed rubber of the fluid holding system on the glass surface in the Washing and drying cover.

22. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover, 1 sensor, indicating high temperature (set in a fixed number), is installed in the glass surface area in the center of the Washing and drying cover right between the servo motors inside the Washing and drying cover, with a door closed by a compressive mechanism.

23. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, washing and drying cover. According to claim 11, 2 sliding holders is installed on the outer Right and left sides of the Washing and drying cover inside the main cover and the fluid tank.

24. Fixed automatic washing machine for building glass and windows of buildings and vehicles for residential areas and home windows, washing and drying cover, according to claim 15, 12 metal pins for linear movement of the holding and rotary movement system of the washing and Drying rolls and fluid holding system on the glass surface and fluid moving system on the glass surface by servo motors to the extent specified by the user in the microcontroller program in a linear Reciprocating manner according to the on / off state of the device, 6 on the right side and the other 6 on the left side inside the Washing and drying cover.

25. Fixed automatic washing machine for glasses and windows of buildings and vehicles for residential areas and home windows, washing and drying cover. 1 main door of the washing and drying cover, opened and closed by a compressive mechanism from the back of the washing and drying cover.

26. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, pump and nozzle cover, according to claim 1, 1 high pressure pump is installed from the back and left side inside the pump and nozzle cover with 1 door closed by a compressive mechanism.

27. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, pump and nozzle cover, according to claim 26, 9 spray nozzles that are connected in

19 series and the distance between the nozzles by testing and exact calculations is such that they cover each other and installed from the back, inside the pump and nozzle cover, with 9 doors closed by compressive mechanism.

28. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, pump and nozzle cover, according to claim 27, 9 high quality plastic and pressure resistant hoses that establishes the connection between the pump and spray nozzles are installed next to each other inside the pump and nozzle cover.

29. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, pump and nozzle cover, according to claim 26, 1 high quality plastic and pressure resistant hose that establishes the connection between the pump in Pump and nozzle cover and fluid tank in the main cover which is installed from the back and left side, inside the pump and nozzle cover on the inlet part of the pump fluid

30. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, pump and nozzle cover, according to claim 9, 1 sliding holder is installed on the outer left side of the pump and nozzle cover inside the main cover and fluid tank.

31. Fixed automatic washing machine for building and vehicle glasses and windows for residential areas and home windows, pump and nozzle cover., 1 display that shows 1- Low level of washing fluid in the tank 2- sensor indicating High temperature 3- display of Heating element temperature Adjustment of fan and element system in 3 working ranges of 20 degrees and 40 degrees and 60 degrees 4-Display of adjusting the heating element in the washing fluid tank in 2 working ranges of 20 degrees and 40 degrees, which is installed from the back right side, inside the cover Pumps and nozzles

32. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, pump and nozzle cover., 1 door of pump and nozzle cover closed by compressive mechanism installed from the back of the pump and nozzle cover.

33. Fixed automatic washing machine for washing glass and windows of buildings and vehicles for residential areas and home windows, fan and heating system (element) cover According to claim 1, 1 heating element holder on the cover in front of the fans with adjustable elements with different lengths, which include 1-4 pins for linear reciprocating movement of the heating element, 1-2 springs to adjust and fix the position of the heating element in the cover, which is from the right side of the fan cover and heating system ( Element) with 1 door closed by compressive mechanism

34. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, fan and heating system (element) cover According to claim 33, 4 fans designed to transfer heat generated by the element to the glass surface and Washing and drying rolls in order to improve the quality of the glass surface drying process during the system performance and the rolls after performing the system work process from the top inside the fan cover and the heating system (element) (at tested intervals ) with 1 door closed by compressive mechanism

35. Fixed automatic washing machine for glass and windows of buildings and vehicles for residential areas and home windows, fan and heating system (element) cover According to claim 34, 2 heating elements to generate heat to improve the quality of the drying process are installed from The front of the fan cover and the heating system (element) (exactly in front of the fans) inside their holders which are on the inner sides of the cover.

36. Fixed automatic washing machine for washing glass and windows of buildings and vehicles for residential areas and home windows, fan and heating system (element) cover According to claim 10, 1 sliding holder on the outer right side of the pump and nozzle cover inside the main cover and the fluid tank.

37. according to claim 1, Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and towers and all main cover glass and fluid reservoir, has 8 small powerful motors with gears connected to the motor shaft for Linear (Reciprocating) movement in the upward and downward direction of the cover on the rack installed in the form of a window or on the glass from the back and on the Right (4) and left (4) inside the main cover and Fluid tank in its positions with a door closed by the compressive mechanism

38. according to claim 37, Fixed automatic window and window washing machine for buildings and vehicles for large buildings and and all glass towers main cover and fluid tank, has 4 idler gear (including ball bearing and gears) that are installed for Linear (Reciprocating) movement in a balanced way and in one direction and in the upward and downward direction, and to help facilitate the operation of the engine on the rack installed in the form of windows or on the glass from the Right (2 pieces) and left (2 pieces) inside the main cover and fluid tank with a door closed by a compressive mechanism.

39. According to claim 1, Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers main cover and fluid tank has 1 fluid tank at the top of the main cover with a door closed by a compressive mechanism

40. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers main cover and fluid tank According to claim 39, inside the fluid tank there are 2 heating systems (elements) that can be adjusted in two modes of 20 degrees and 40 degrees and have been installed in different geographical areas to increase the quality of device performance

41. Fixed automatic window and window washing machine for buildings and vehicles for large buildings and and all glass towers main cover and fluid tank According to claim 39, inside the fluid tank there is 1 fluid level detection sensor set in 2 states of full and empty and in both, the cover moves upwards to fill the tank if it is empty and separates by moving the cover downwards after filling through the microcontroller.

42. Fixed automatic washing machine for building glass and windows of buildings and vehicles for large buildings and and all glass towers main cover and fluid tank According to claim 39, in the lower part of the fluid tank there are 4 high quality plastic valves opened and closed for tank fluid in the main cover to relate with the high-pressure pump inside the pump and nozzle cover.

43. Fixed automatic window and window washing machine for buildings and vehicles for large buildings and towers and all-glass main cover and fluid reservoir according to claim 39, 1 one-way valve opened inward by force applied from one-way valve outlet nozzle Mounted on a window or glass in order to fill the fluid tank by taking the command from the microcontroller is installed on the right side of the main cover and the fluid tank just above the motors and under the laser Sensor.

44. Fixed automatic glass and window washing machine for buildings and vehicles for large buildings and towers and all-glass main cover and fluid reservoir, according to claim 43, 1 laser sensor connected to a microcontroller and receiving an empty signal for tank Cover in the position of the first one-way valve using a laser sensor is stopped in its correct position and by opening the solenoid valve and opening the one-way valve, the fluid flows to the tank and again after receiving the command to fill the tank from the fluid level sensor in the fluid tank, both the solenoid valve and the one-way valve are closed and the system continues to work again, and in the right side, the main cover and the fluid tank are installed exactly above the one-way valve.

45. Automatic fixed washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers, main cover and fluid tank, according to claim 1, 1 pump cover, nozzle cover, fan and heating system (element) cover are installed from The back of the main cover and the fluid tank inside the main cover by two sliding holders.

46. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers main cover and fluid tank according to claim 1, 1 washing and drying cover is installed in front cover of the main cover by two sliding holders inside the main cover just in front of the pump and nozzle cover and the fan and heating system (element) cover.

47. Fixed automatic window and window washing machine for buildings and vehicles for large buildings and and all glass towers cover washing and drying according to claim 1, 4 powerful small motors (including motor and gear) for rotational movement of Washing and drying rolls by transferring power through the belts to the holding and rotary movement system of washing and drying rolls, one on the Right and one on the left and two others in the middle below the drying roll inside Washing and drying covers with a door closed by compressive mechanism.

48. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying, according to claim 47, 4 belts for connection between engine gears and holding and rotary movement system gears for washing and drying rolls, one on the Right and one on the left and two others in the middle below the drying roll inside the cover on the engine gears and holding and rotary movement system of the washing and drying rolls.

49. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying. According to claim 48, 5 holding and rotary moving systems for washing and drying rolls (including bearings, gears and holders) which are used to hold and rotate the washing and drying rolls (with a door to place the rolls, closed by compressive mechanism) By power transmission from belts from the motor and also a position of the power transmission system from the servo motors for linearly movement with a door closed by compressive mechanism, 2 on the Right and 2 on the left side and 1 in the middle of the cover inside the Washing and drying cover.

50. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying, according to claim 49, 6 small and powerful servo motors for linear movement of the holding and rotary moving systems of the washing and drying rolls and the linear movement of the fluid holding system on the glass surface and the linear movement of the fluid moving system on the glass surface are simultaneous. However, it should be noted that the on / off operation is for two Servo motor to create high power and speed at the same time, 3 on the Right and the other 3 on the left of the cover just below the drying roll inside the Washing and drying cover in its places with a door closed by a compressive mechanism

51. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying, according to claim 50, 6 interface between servo motor shaft and power transmission system of servo motor, 3 on the right side of the cover and the other 3 on the left side of the cover are installed on the servo motor shaft and are connected to the power transmission system of the servo motors.

52. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying, according to claim 51, 2 power transmission systems from servo motors for linear movement to the holding and rotary moving systems for washing and drying rolls and fluid holding system on the glass surface and fluid moving system on the glass surface from the front of the cover, one on the Right and the other on the left inside the washing and drying cover.

53. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying, according to claim 52, 12 holding systems to prevent bending, failure and facilitation of the linear movement of the force servo motors to the power transmission system from the servo motors to the fluid holding system on the glass surface and the fluid moving system from the glass surface and the fluid holding system itself on the glass surface and The fluid moving system from the glass surface, 4 of which are exactly under the power transmission system of servo motors for linear movement and 4 of them are exactly under the fluid moving system on the glass surface and 4 are located just below the fluid holding system on the glass surface inside the washing and drying cover.

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54. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying. According to claim 49, 2 drying rolls on top of Washing and drying cover on 3 holding and rotary moving system of drying roll, 2 are located on the sides of the cover and 1 is located in the center of the cover, with a door closed by a compressive mechanism.

55. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers cover for Washing and drying, according to claim 49, 2 washing rolls at the bottom of the Washing and drying cover on 3 pieces. The washing roll holder and rotating system, 2 of which are located on the sides of the cover and 1 of which is located in the center of the cover, are in place with a door closed by a compressive mechanism.

56. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers cover for Washing and drying, according to claim 52, 2 fluid moving systems on the glass surface at the top of the washing roll is located inside the Washing and drying cover and each has 2 quality angled compressed rubbers in order to move the remaining after the washing roll operation to increase the quality and efficiency of the heating drying system and drying roll and 2 Doors to connect to the power transmission system of servo motors for linear movement and 1 door each with two metal pins on the Washing and drying cover to hold and move the fluid moving system on the glass surface and in order to remove and replace the compressed rubbers of the fluid moving system on the glass surface in the washing and drying cover.

57. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying, according to claim 52, 2 fluid holding systems on the glass surface, each with 1 high quality compressed rubber that is located at the bottom of the washing roll to reduce the fluid loss to zero after spraying the fluid on the glass surface while maintaining the fluid on the glass surface and a very large reduction in fluid consumption and 2 doors to connect to the power transmission system of servo motors for linear movement and 1 door each with two metal pins on the Washing and drying cover to hold and move the fluid holding system on the glass surface and in order to remove and replace the compressed rubber, the fluid holding system on the glass surface in the Washing and drying cover.

58. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying, according to claim 1, 4 sensors indicating high temperature (set in a fixed number) in the Glass surface range, 2 on the right side and 2 on the left side of the Washing and drying cover, right between the servo motors inside the washing and drying cover, with a door closed by the compressive mechanism.

59. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers washing and drying covers, according to claim 46, 2 sliding holders on the Right and left sides of the outer Washing and drying covers inside the main cover and the fluid tank.

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60. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers washing and drying covers, according to claim 50, 14 metal pins for linear movement of the holding and rotary moving system of the Washing and drying rolling and the fluid holding system on the glass surface and the fluid moving system on the glass surface by servo motors to the extent specified in the microcontroller program by the user in a linear Reciprocating path according to on/ off with 6 on the Right and 6 others on the left and 2 in the center on the holding and rotary moving system of the washing and drying rolls inside the Washing and drying cover.

61. Fixed automatic washing machine for glasses and windows of buildings and vehicles for large buildings and and all glass towers cover washing and drying, according to claim 1, 4 strength walls to increase the strength of the body and prevent bending and failure of the body structure due to its long length and these walls are movable and have the ability to be removed and installed easily when repairing and replacing parts, 2 are installed from the back of the Washing and drying cover just behind the fluid moving system on the glass surface and 2 other pieces from the back of the Washing and drying cover exactly behind the fluid holding system on the glass surface.

62. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers washing and drying cover, according to claim 1 , 2 main doors of the washing and drying cover opened and closed by compressive mechanism from the back of the Washing and drying cover, one on the Right and the other on the left side of the cover.

63. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers cover pumps and nozzles with fan and heating system (element) cover. According to claim 1, 4 high pressure pumps are installed from back part of the cover, 2 from the Right and the other 2 from the left, inside the pump cover and nozzle with a door closed by compressive mechanism.

64. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers cover pump and nozzle with fan and heating system (element) cover. According to claim 63, 19 spray nozzles which are connected in series and the distances of the nozzles are determined by testing and precise calculations are such that they cover each other from the back, inside the pump and nozzle cover, with 18 doors closed by compressive mechanism.

65. Fixed automatic washing machine for building glass and windows of buildings and vehicles for large buildings and and all glass towers cover of pump and nozzle with fan and heating system (element) cover, according to claim 64, 20 high quality plastic and Pressure resistant hoses, which connects the pump and the spray nozzles to each other are installed from the back, inside the pump and nozzle cover.

66. Fixed automatic washing machine for building glass and windows of buildings and vehicles for large buildings and and all glass towers cover of pump and nozzle with fan and heating system (element) cover, according to claim 63, 4 high quality plastic and pressure Resistant hoses, which establishes the connection between the pump in the pump and nozzle cover and the fluid tank in the main cover, which are located from the back, inside the pump and nozzle cover on the fluid inlet of the pumps.

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67. Fixed automatic washing machine for building glass and windows of buildings and vehicles for large buildings and and all glass towers cover of pump and nozzle with fan and heating system (element) cover, according to claim 45, 2 sliding holders on the left side and the outer Right of the pump and nozzle cover with fan and heating system (element) cover to be placed inside the main cover and fluid tank

68. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers cover pump and nozzle with fan and heating system (element) cover. According to claim 1 , 20 fans with element installed from above inside the pump and nozzle cover, along with the fan and the heating system (element) cover, with a door closed by compressive mechanism.

69. Fixed automatic washing machine for building glass and windows of buildings and vehicles for large buildings and and all glass towers cover of pump and nozzle along with fan and heating system (element) cover, according to claim 1, 1 display which shows 1- Low level of washing fluid in the tank 2- Sensor indicating high temperature 3- Display of temperature setting of the heating element of the fan and element system in 3 working ranges of 20 degrees, 40 degrees and 60 degrees 4- Display of adjustment of the heating element in the tank of the washing fluid in 2 working ranges of 20 degrees and 40 degrees, which is installed from the back right side, inside the pump and nozzle cover.

70. Fixed automatic washing machine for glass and windows of buildings and vehicles for large buildings and and all glass towers cover pump and nozzle with fan and heating system (element) cover. According to claim 1, 1 pump and nozzle cover door with The fan and heating system (element) cover closed by the compressive mechanism is installed in the back of the pump and nozzle cover..

71. according to claim 1, Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, has 2 motors for rotary movement of washing and drying rolls, which are connected by 2 belts to holding and rotary moving systems of the washing and drying rolls and they turn on and off at the same time to create enough power and speed to do the right job with high quality system, one from the Right and the other from the left inside the main cover

72. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to Claim 71, 2 belts are used for the connection between the gears of the engines with the gears of the holding and rotary moving systems of the washing and drying rolls located on the Right and the other on the left inside the main cover, on one end on the motor shaft and on the other on the shaft of the systems for holding and rotary moving systems of the washing and drying rolls.

73. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 72, 2 holding and rotary moving systems of the washing and drying rolls and fluid moving on the glass surface from the Right and left sides inside the main cover with doors closed by arm screws.

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74. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 73, 2 small and high power servo motors for linear movement of the holding and rotary moving systems of the Washing and drying rolls simultaneous with the linear movement of the fluid moving system on the glass surface. However, it should be noted that the on/off operation of two servo motors in order to create high power and speed at the same time, 1 on the Right and the other on the left at the top of the main cover, so that the gears on the servo motor shaft with are involved with rack installed on the holding and rotary moving system of the washing and drying rolls.

75. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 73, 1 drying roll at the top of the washing and drying cover just below the fans on 2 holding and rotary moving systems of the washing and drying rolls, which are on the sides of the cover, with a door closed by a compressive mechanism.

76. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 73, 1 washing roll at the bottom of the washing and drying cover just above the spray nozzles on 2 holding and moving systems. The rotating washing and drying rolls on either side of the cover with a dor closed by a compressive mechanism.

77. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 73, 1 fluid moving system on the glass surface in the upper part of the washing roll inside the washing and drying cover and 1 high quality compressed angled rubber in order to move the remaining fluid after the washing roll operation to increase the quality and efficiency of the heating drying system and the drying roll for holding and rotary moving systems of the washing and drying rolls and the fluid moving on the glass surface.

78. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 74, 4 metal pins for linear movement of the holding and rotary moving systems of the washing and drying rolls and fluid moving system on the glass surface by servo motors to the extent specified in the microcontroller program by the user is designed as a linear reciprocating according to the on / off stated the device, 2 on the Right and the other 2 on the Left inside the the washing and drying cover.

79. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover. According to claim 75, there are 11 fan in the upper part of the cover toward the drying roll so that by Hot air rotation, the highest quality drying operation is provided and the drying roll both during and after operation is facilitated at the top of the main cover.

80. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover. According to claim 76, 6 spray nozzles are installed in the lowest part of the main cover just below the washing roll.

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81. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 80, 6 high pressure hoses are the interface between the spray nozzles and the pump, 5 are in the lowest part of the main cover between the Spray nozzles and 1 outside the cover between the last spray nozzle in front of the vehicle.

82. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 81, 1 high pressure pump installed in front of the vehicle next to the fluid tank

83. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 82, 1 high pressure hose as the interface between the fluid tank and the pump in front part of the vehicle between the fluid tank and the pump with one end connected to the The fluid tank outlet and the other end connected to the pump inlet

84. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 83, 1 fluid tank installed in the front of the vehicle next to the high pressure pump.

85. Fixed automatic washing machine for glasses and windows of buildings and vehicles for vehicles Main cover, according to claim 1 , 1 main cover door installed from the back of the cover on the main cover by screw.

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