WO2011091526A1 - Multiple usage of ac for bed and other confined areas in addition to its conventional usage through moving mechanism and by creating the bed enclosure and other areas as required - Google Patents

Abstract

A mechanism comprising of mobility of the inner unit of split type air conditioner, here in referred as AC, multipurpose enclosure for the bed and other areas to be confined for the multiple usage of the split type AC is disclosed, where a split type AC if desired can be used for the partial confined area of the room or for other room(s) or their confined areas or the same AC can be used when desired only for the bed having an enclosure in addition to its conventional use in a typical room in order to save capital and electricity/energy costs.

Description

Multiple Usage of AC for Bed and Other Confined Areas In Addition to its conventional Usage Through Moving Mechanism And By Creating the Bed Enclosure And Other Areas As Required

Background of the Invention:

Typically split type AC, here in referred as AC has fixed installation position in a room, where it maintains the desired temperature of the entire room in order to provide comfort to the user(s).

In hot summers, sun directly heats the roofs and walls of the buildings resulting in transfer of heat in to the room. This happens particularly in developing countries; where the rooms are big, roofs are high, there is no insulation provided on the roofs and walls of the buildings. Also in developing countries there is hardly a proper insulation on windows and doors. Due to the above reasons, room AC has to overwork in order to cool the roofs and walls first and then to maintain the desired temperature in the room. Due to poor insulation of doors and windows here again AC has to work more in order to maintain the desired temperatures.

Also there are many applications, where the users of the AC do not require cooling/warming of the entire area of the room; where the AC is installed, instead the user requires only a confined area to be cooled/warmed, however there is no economical and practical system available, where user can only get the cooling/warming of the desired confined area and can save costs incurred on the cooling/warming of the area, which is not required to be cooled/warmed by the user with in the room, where the AC is installed.

Major areas for the confined use of the AC are:

When a person(s) sleeps, they require air conditioning with in the bed area, which they use, however in the absence of any such system; they have to cool the entire room, where the user(s) are sleeping. When a single person study in a room, or do other sitting work in the office or at home, He/She do not require air-conditioning for the entire room, if any practical system is available to restrict the air-conditioning to a confined area, the user can save the energy and costs associated with it.

Keeping in view the above and other like scenarios, energy crises in most parts of the world and day by day increasing cost of electricity/energy, this invention is made to help cut the electricity /energy costs with out compromising on the comfort of the user(s).

Description:

A system enabling multiple usage of split Air conditioner, referred as AC, confined to bed and or other confined areas in addition to its conventional usage through moving mechanism and by creating on demand multi purpose bed enclosure and other areas as required comprising of AC (prior art), Foldable/moveable arm and its associated mechanism for the inner unit of the AC, condensed water trap and removal system through pump by providing storage bottle attached to the AC unit, which can be emptied as and when required manually as well as automatically with the use of a pump to be used to pump out the trapped condensed water out from the bottle to any water out let with the help of flexible drainage water pipe, flexible pipes suitable to transport gases meant for air conditioners, multi purpose enclosure for the bed and or other area(s) to be confined along with their respective associated mechanism(s) with or without enclosure window with built in flexible duct for the positioning of dispensing AC unit.

The disclosed system is combination of various mechanisms. Each assembly of mechanism has various components.

Arm and its associated mechanism:

An arm and its associated mechanism as disclosed and shown in fig-1 is mounted on wall (1) with the aid of bracket (2) having a joint (3), which connects the link (4) with the bracket (2). Link (4) is further connected to link (9) and link (9) is further connected to link (10).

The connection between the link (4) and (9) is made through a rotate able/ adjustable connection assembly comprising of small brackets (5) and (7), rotating mechanism having lock (6) and (8).

Detail working of the locks (6) and (8) is disclosed and is described separately.

In order to fix the position of link (9) and (10), firstly the position of any said link has to be manually taken at desired position through the handle (11), through small bracket (5) and (7), which are subjected to lock (8), which in free mode, allows the link (9) to move vertically in order to achieve the desired vertical position and the desired position once achieved is locked by fixing the lock (8) in to locked mode.

Similarly lock (6) allows link (9) to move horizontally and the desired position is locked.

In the similar fashion the link 10 also be moved to a desired position and can be locked.

If required, the same type of rotating mechanism having brackets and locks can be used for the movement of link (4) as replacement of joint (3) disclosed as above.

Flexible pipes (14) capable of handling gases meant for use in air conditioners and having capability to bend according to the position of links 4, 9 and 10, flexible water disposable pipe (15) having capability to bend according to the position of links 4, 9 and 10 and electrical connection wire (16) for electrical connection run through the links 4, 9 and 10 between base point (17) and destination point (18).

Inner unit of the split AC (13) is installed with the help of a plate mounted on bracket (12) having a handle (11).

Handle (11) is provided to control the movement and fixation of AC at any desired point within the access of links 4, 9 and 10. In another embodiment, inner unit of split AC, by further splitting in to small dispensing unit, is installed beneath the bed by having extended duct(s) coming in to the bed to supply air-conditioning confined to the bed only.

In another embodiment, specially made collapsible duct(s) (not shown) is enveloped on the face of the inner unit of split AC, and the same duct (s) on demand supplies air- conditioning to the bed and when the same is removed, it will supply air-conditioning to entire room.

In another embodiment, a rail mechanism (not shown) will be installed on the roof of the room starting from the point of the wall here in referred as base point, where user desires to keep the AC, when the user wants to use the AC to cool the entire room and thereafter install the remaining length of the rail according to the need and requirements of the user keeping in view the placement of the bed and or study table etc., here in referred as destination point.

The mechanism of the rail combined with the collapsible rod will have the ability to move the AC in all axes giving the user maneuverability to move the AC as per the user's requirements.

The rail will also have built in pulley(s).

The joining between the inner unit and outer unit of AC will be through flexible pipes or combination of flexible and copper pipes, where copper pipes will only be used out door, i.e. from base point to the outer unit where they need not be moved. The flexible pipes will have the properties to handle the required insulation level, temperature, pressure and chemical properties to handle gases used in the AC, s. The flexible pipes will be joined to the inner unit of the AC located at the destination point. Pipes will run in the rail over the pulley(s) made for their movement within the rail up to the base point of the rail. There will be a pipe reeling mechanism nearest to base point which will reel and un reel the pipes as required when AC will be moved from base point to any destination point and back.

Rotating mechanism having lock:

Rotating locks both for horizontal and vertical movement control are disclosed and shown in fig-2. The working operation of both for horizontal and vertical movement is same except that one lock is meant for horizontal movement control/ lock and the other is for vertical movement control/ lock.

The rotating mechanism having lock assembly consists of a shaft (8) which has thread (11) at one end and the other end (13) is connected with one tooth gear (4), which is encapsulated in a rounded covered body (9), further having an oval cavity (12) surrounded by circular holes (2) all over the rounded body (9), cover (10) also have matching holes with the holes (2) in body (9). Pawl (3) and supporting spring (5) is installed within the oval cavity (12), meant for accommodating pawl (3) and spring (5), which can lock the movement of rod (8) by locking the movement of one tooth gear (4). This restricts the movement as shown in path 6.

Assembly of adjustable, rotate able mechanism having locks is shown in fig-3 is used to fasten link (6) and link (7) and to give provision to one link to move horizontally and the other to move vertically.

Lock assembly (1) is attached with bracket (2) and link (6) through shaft (5). The lock assembly (4) having shaft similar to lock assembly (1) fastens bracket (2) containing lock assembly (1) with the bracket (3) which is further attached with link (7) through bolt (8).

In order to lock the links (6) and (7) at desired location, after having the link (6) to desired position, dial (9) of lock assembly (1) is rotated up till the time that pawl (3) in fig-2 engages with the tooth of gear (4) in fig-2 and then fixed on bracket (2) as shown in fig-3 through holes (10) on lock assembly (1) and holes (1 1) on bracket (2) with bolts. Once the dial of lock assembly is bolted with the bracket, it restricts the movement of link (6) to forward direction, however it will freely move in backward direction.

In the similar fashion any other link can be moved and locked.

In another embodiment, a ratchet assembly (not shown) is used as a replacement of lock assembly in the rotating mechanism.

In another embodiment, ratchet assembly and lock assembly is used in combination in order to provide full flexible control on the positioning of inner unit of the AC.

Yet in another embodiment ball joint (not shown) or combination of ball joint is used as a replacement of rotating mechanism.

Condensed water trap and water discharge module:

As shown in fig-1, a condensed water trap and water discharge module (19) meant for use in split type AC is installed on the plate mounted on bracket (12), connected to flexible water disposal pipe (15) comprising of suitable power supply, mono stable timer with associated circuit, water collection bottle and a sensor to sense the water, a pump to pump the water out of the water collection bottle.

As shown in fig-7, the disclosed water trap and water discharge module has power supply wires (1) destined to mono stable timer circuit (2), which also converts AC to DC. DC power (3) is supplied to the water pump (5).

Water collection bottle (6) having water pump (5) sensor (7), water out let (4) and water inlet (8) also are the part of said module.

In the operational process, condensed water from the out let of AC water drain first goes into the water collection bottle (6). If the AC is in conventional use, the water remains disposed by passing through the water path in the water pump (5). When the AC is used for bed or for any space including its conventional use, where the water out let point is higher then the water inlet point, the water then is accumulated in water collection bottle (6). When water level reaches the water sensor (7), the water pump (5) starts functioning for a predetermined time already set out in mono stable timer (2) in order to pump out the collected water in the water collection bottle. The same process automatically keeps repeating it self as and when required.

In another embodiment, a controller based water condensed water trap and water discharge module is used, where in place of mono stable timer, a controller along with AC to DC power convertor and other circuitry is used. The controller is preprogrammed and will sense the water level when it reaches to a given level and will accordingly instruct pump to operate and empty the water bottle.

The same process automatically keeps repeating it self as and when required. On Demand Multi Purpose Bed Canopy and its associated mechanism:

A multipurpose canopy and its associated mechanism is disclosed and shown in fig-4.

The canopy is mounted on bed (1) with the aid of telescopic column(s) (2) installed on all four corners of the bed with the help of a brackets) (3) screwed with the each leg of the bed.

Erected canopy wall (6) and roof (7) is shown, which get erected along with the erection of telescopic column(s) (2).

A cranking system (4) is provided on one of the brackets (3). The cranking system (4) is operated manually as well as with the use of motor (5).

String(s) (8), coming out from all four telescopic column(s) are attached with the cranking system (4). The bracket(s) (3) at all four corners is joining the side rails/ links of the bed with headboard and footboard.

Cranking System:

As shown in fig-5, cranking system is provided as an attachment (9) in bracket (7). The connecting part (1) of bracket (7) meant for joining foot/ headboard and side links also acts as a purpose made spacer, which enables the bed to be extended to a desirable level in order to provide few inches additional space onto the length of the bed.

A pulley (4) capable to handle multiple strings with attached funnel/ nozzle (5) to collect these strings (8, fig-4) coming out from telescopic columns (2, fig-4), is also installed on to the attachment (9) as part of cranking system. Cranking point (3) and motor (6) is also shown as part of the cranking system in attachment (9).

Telescopic column (8) is also held by the bracket (7).

In another embodiment, the cranking system is replaced by air compressor. In this scenario, rounded telescopic columns are used, which acts as cylinder as well. Every column has rings and they can run with in each other when force is applied. Pipes to supply air produced by air compressor are provided to each telescopic column. In operational mode, air compressor produces air, which through pipes fed into the cylindrical telescopic columns, which expand and erect as a result.

An encoder system and or limit switch(s) (not shown) is installed to control the operation of motor and or compressor.

A battery back up system (not shown) is provided to power the motor/compressor and associated items in the absence of electricity.

Telescopic Columns: As shown in fig-6, telescopic column consists of telescopic pipes (1, 2, 3 and 4), which can move freely within each other to be collapsed and collected within base pipe (4) or to expand to assemble as single large column.

Every pipe has holes (5) to hold pulley (s) 6 within it. A slot (10) is provided to give provision to pulley(s) (6) to run through it when the pipe slides into other pipe.

A string (7) is fastened permanently with a pin located in hole (9) located at the bottom of top pipe (1), and slides over pulley(s) (5) (6) attached to every pipe through out the telescopic column and comes out from slot (8) of base pipe (4).

String (7) is pulled out form slot (8) with a force equal or more to the weight of pipes, through cranking, it forces pipes (1, 2 and 3) to expand as shown in fig-6 and on releasing the string, the pipes (1, 2 and 3) come down to collapse in base pipe (4).

In the disclosed system, the cranking system (9) as shown in fig-5 is used manually and or with the aid of motor to provide the required force to pull and release the strings upon cranking as per the requirement of the user in order to erect the telescopic columns, which subsequently erects the entire canopy or to undo the same.

Canopy Roof and joining Assembly:

Canopy is attached with bed (1) through telescopic columns affixed at four corners of the bed (as shown in Fig-4).

Canopy roof and joining assembly is disclosed and explained in fig-8.

Hard strips (2) and (3) at canopy walls (5) are attached with telescopic columns through an L-shaped joiner (7), which is covered by a flexible wall joiner (4) made up of a combination of flexible and elastic materiel. The flexible wall joiner (4) runs from top to bottom on all four corners at canopy walls and is meant for joining corners (6) of two walls at all four corners with the help of a Velcro strip provided both on the corner of canopy wall and flexible joiner and or with zipper and or any other like arrangement.

Flexible joiner (4) also have hooks/rings, which overlaps the telescopic columns in order to keep the canopy stable and in shape.

The L-shaped frame joiner (7) and flexible wall joiner (4) are purpose made, which are invented for ease of handling of the entire system as this provide complete disassembly of the canopy in pieces.

Also the flexible wall joiner (4) can act as an emergency exit from the canopy.

Top and bottom attachments of canopy walls comprising of hard strips (2) and (3) are also purpose made. Hard strip (2) have a provision to accommodate a spring loaded rolled flexible material with in it, while the strip (3) has a groove to accommodate a runner(lO) which will run through it and a slot to accommodate strip (9) which will move through out the length of strip (3). The runner (10) is attached with the strip (9) of flexible roof (8) by pins to be inserted in holes (1 1) which are part of the runner (10).

On the other side, runner (100 is attached with a string (12), which is affixed beneath the bed to any solid static point.

When canopy moves upwards with the telescopic columns, affixed string (12) pushes runner (10) along the length of the strip (3), which moves flexible roof (8) to unroll from strip (2) to its destination point (13) where it rests in a cavity with the runner (10).

In another embodiment, the roof is permanently fixed resting on all four corners over the L shaped joiner and will rest on the bed when canopy is not in use.

In another embodiment, the roof is permanently fixed resting on all four corners; however a partition in the centre of the roof is provided, which is joined by Velcro or zipper. Canopy Walls:

In the preferred embodiment as shown in fig-9, the canopy walls (3) are made up of foldable pleats. Canopy walls/foldable pleats (3) are shown which can expand on demand and can be folded in pleats (4) when required, sandwiched between upper and lower solid strips/rods (1 and 2). The canopy wall (3) has strings (5), which run through top to bottom through rings (7) on to the wall and are also collapsible along with the wall. The strings (6) are provided to keep the balance of the wall in control while expanding and collapsing.

One of the canopy wall has a window (not shown) for the insertion of inner unit of the AC in it and or have a built in envelope type duct (not shown), which has a stretchable opening to house/envelope various sizes of inner unit(s) of split type AC.

Once the canopy is also erected, the inner unit of the AC is got inserted in the enveloped like duct.

The walls when in resting shape will rest on the bed it self at the extended part of it, which is done with the help of connecting part/spacer (1) fig-5 and the side walls will be slid underneath the bed through sliding grips/holders (not shown)

In another embodiment, the canopy walls are made up of spring loaded flexible materiel rolled in a pipe, housed in hard strip or act it self as hard strip used to make the outer frame of the canopy. The rolled materiel has a handle extended out side of its housing enabling the user to pull and unroll the rolled materiel out of the said housing in order to make the walls.

The embodiment is shown in fig- 12; the columns/poles of the canopy are fixed permanently on all four sides of the bed with or without bracket, having locks/lockable hinges at the joining points of the bed and or bracket.

When not in use, all the four columns/poles rests both at head board and foot board sides in the manner that with aid of hinges they will become folded and rests overlapping each other on the width of the bed both on head board and foot board side. They are manually pulled erected and locked.

Shown in fig- 12, columns/pole in rested form comprised of spring loaded roller with rolled flexible materiel in it (1), joining the bed either directly or with the aid of bracket (2) having a hinge (3) with lock. Column/pole is shown in erected form (4) with expanded wall (5) of flexible materiel.

An embodiment of corner joint meant for joining the canopy corners particularly, when canopy wall is rolled and is expanded by unrolling the same is disclosed. In fig-13 expanded canopy wall (1) is shown. An extension (2) is made to canopy wall having Velcro (3).

As shown in fig- 14, this type of joining extension (2) is provided at both ends of the canopy wall. Spring loaded flexible materiel roller (2) is also shown which will act as column/pole as well.

In addition to Velcro, zipper and or buttons can be used independently or in combination with each other on any joiner disclosed as part of canopy systems.

Roof arrangements in said embodiment is made of flexible materiel housed in spring loaded roller.

As shown in fig- 15, spring loaded roller (1), which also acts as column/pole meant to hold canopy wall (5), spring loaded roller (2), which also acts as pole to hold canopy roof (4). Roller/pole/column (1) and roller/pole (2) are joined with each other with a hinge mechanism. They can get folded and in resting position lay side by side.

In an embodiment, rollers having rolled flexible materiel with out springs are used for canopy walls and roof.

After erecting the columns/poles manually, the canopy walls and roof is also expanded manually and hooked to the other side on to the hooks (not shown) provided for said purpose. In an embodiment, the pole columns (2) as shown in figure- 12 is installed at all four corners of the bed in the manner resting side by side as shown in fig 12, will have bracket/hook/grip enabling them to hold four canopy wall (3) sandwiched between two hard strips (1) and (2) as shown in fig-9.

As shown in fig-9, the opening and closing of said wall (3) is controlled by tightening and releasing the strings (5) installed with the help of ring (6).

In single beds, where width of the bed is not enough to accommodate the resting columns, manually operated telescopic columns are use as are used in suitcase handles, which are pulled to extend in order to use the wheels of the suitcases.

Any one of the disclosed wall embodiments is made part of these manually erected poles/columns.

In another embodiment, the canopy is made like a mosquito net. All four corners of the canopy are connected with telescopic columns. The canopy when required is erected with the aid of telescopic columns and cranking mechanism.

Operation of the preferred embodiments:

In the operational process, the inner unit of AC (13) fig-1, is pulled with the help of handle (1 1) fig-1 and brought up to the desired position by adjusting the positions of links (4, 9 and 10) fig-1.

Once the desired location is achieved, the links location is locked by using lock assembly (l) and (4) fig-3.

Once the links are locked, because of the specially made lock assembly (1 and 4) fig-3, the inner unit of AC, when ever is pulled, will always come to the already fixed destination point (18) fig-1, and when it is pushed back, it will freely move back as explained in path (6) fig-2, to its base point (17) fig-1, on the wall. The cranking system (9) fig-5 is then operated either manually or with the aid of motor, which as a result pulls the strings (8) running between telescopic columns (2) fig-4 and cranking system (9) fig-5.. The pulled strings (8) with cranking will be rolled over the pulley (4) fig-5 of the cranking system (9) fig-5. As the cranking is done, the telescopic columns (2) fig-4 will erect/expand fig-6. As a result, all the four wall(s) (6) fig-4, which are attached with the telescopic column(s) (2) fig-4, will also get erected along with the roof (7) fig-4.

Once the canopy is also erected, the inner unit of the AC is got inserted in the enveloped like duct.

The complete canopy is get un erected with reverse cranking and the arm holding the AC can be folded as and when required.

This way the split AC is utilized both for conventional use and for use confined to beds for energy conservation.

When the canopy is not in use, the folded walls will rest on the extended part of the bed on the head board and foot board side, which are got extended by means of connecting part/spacer (1) fig-5. The folded walls on the side rails of the bed are slide beneath the bed through sliding like a drawer.

On demand Partition for other Confined Areas:

AC is pulled down or stretched as required with the aid of arm and its associated mechanism as shown in fig- 1.

A confined area is created with in a room, as shown in fig- 10.

Rails (2) are attached with wall (1). The rails (2) are made up of a channel shape to accommodate rolled materiel meant for partitioning with its housing in spring loaded roller (3). Spring loaded roller (3) having rolled partitioning materiel can move through the rails horizontally through out the length of the rail and affixed at any point. Rolled materiel can be unrolled as shown in fig 10 to cover room width and then attached with hooks provided for said purpose. Rolled materiel have strings attached to it at bottom and top and to any other middle point(s), in order to provide standing strength to temporarily erected partition wall(s)

Similar type of roller and materiel (3) has been shown in fig-l 1, where it is attached with the wall horizontally above the rail (2) and is pulled out with a handle (4) to make roof for the room enclosure.

In another embodiment, clamps are used instead of rails. The spring loaded roller (3) having rolled partitioning materiel also have either male or female part of the clamp attached to it, which is inserted to its counter part of clamp fixed on the wall.

In another embodiment, spring loaded roller (3) having rolled partitioning materiel can be bolted on to the wall.

Claims

Claims:

1. A system enabling multiple usage of split Air conditioner, referred as AC, confined to bed and or other confined areas in addition to its conventional usage through moving mechanism and by creating on demand multi purpose bed enclosure and other areas as required comprising of AC (prior art), Foldable/moveable arm and its associated mechanism for the inner unit of the AC, condensed water trap and removal system through pump by providing storage bottle attached to the AC unit, which can be emptied as and when required manually as well as automatically with the use of a pump to be used to pump out the trapped condensed water out from the bottle to any water out let with the help of flexible drainage water pipe, flexible pipes suitable to transport gases meant for air conditioners, on demand automated, multi purpose canopy for the bed and enclosure for other area(s) to be confined along with their respective associated mechanism(s) with or without enclosure window with built in flexible duct for the positioning of dispensing AC unit.

2. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the said system have an arm with its associated mechanism.

3. An arm as claimed in claim 2, the said arm has a bracket which enables the arm to get mounted on the wall.

4. An arm as claimed in claim 2, the said arm has links, which are connected with each other.

5. The links as claimed in claim 4, which can be folded and expanded as and when required.

6. The links as claimed in claim 4, wherein the said links are connected with each other through rotatable, adjustable connection assembly.

7. A rotatable, adjustable connection assembly of claim 6, wherein the rotatable, adjustable connection assembly has brackets, wherein the brackets holds the locks as well as, the two adjoining links.

8. A rotatable, adjustable connection assembly of claim 6, wherein the rotatable, adjustable connection assembly has brackets, wherein the brackets have holes to accommodate the bolt coming out from the lock meant for locking the position of link(s).

9. A rotatable, adjustable connection assembly of claim 6, wherein the rotatable, adjustable connection assembly has locks to control and restrict the movement of links.

10. The locks of claim 9, wherein the said locks have one tooth gear in it.

11. The locks of claim 9, wherein the locks have a shaft having threads at on end and the other end is connected with the centre of one tooth gear.

12. The locks of claim 9, wherein the locks have rotate able dial having holes in it.

13. The locks of claim 9, wherein the locks have pawl to lock the one tooth gear.

14. The locks of claim 9, wherein the locks have spring to push the pawl of claim 13.

15. The locks of claim 9, wherein the locks have an oval cavity to accommodate the pawl of claim 13 and spring of claim 14.

16. The locks of claim 9, wherein the locks are locked to restrain the movement of one tooth gear of claim 10, which in results restricts the movement shaft of claim 1 1, which results in the restriction of the movement of links of claim 4.

17. A rotatable, adjustable connection assembly of claim 6, wherein the rotatable, adjustable connection assembly has brackets, wherein the brackets holds the ratchet as well as, the two adjoining links.

18. The links as claimed in claim 4, wherein the said links are connected with each other through rotatable, adjustable connection assembly consisting of ball joint(s).

19. An arm as claimed in claim 2, the said arm has flexible pipes having properties to bend along with the movement of arm of claim 2 suitable to transport gases meant for air conditioners.

20. An arm as claimed in claim 2, the said arm has flexible pipe meant to dispose off the condensed water coming out from the AC.

21. An arm as claimed in claim 2, the said arm has handle.

22. An arm as claimed in claim 2, the said arm has bracket for wall mounting.

23. An arm as claimed in claim 2, the said arm has a plate for the mounting of AC.

24. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the said system has a condensed water trap and water discharge module.

25. A condensed water trap and water discharge module of claim 24, wherein the said module has a mono stable timer.

26. A condensed water trap and water discharge module of claim 24, wherein the said module have a controller based circuitry to control the operation of said module.

27. A condensed water trap and water discharge module of claim 24, wherein the said module have AC to DC converter.

28. A condensed water trap and water discharge module of claim 24, wherein the said module has a water collection bottle.

29. A condensed water trap and water discharge module of claim 24, wherein the said system has a water pump.

30. A condensed water trap and water discharge module of claim 24, wherein the said system has sensor to sense water installed in the water disposal bottle of claim 28.

31. A condensed water trap and water discharge module of claim 24, wherein the said module have water in let and water out let pipes.

32. A condensed water trap and water discharge module of claim 24, where in the said module have water pump meant for pumping the water from water collection bottle of claim 28.

33. A condensed water trap and water discharge module of claim 24, wherein the said module is used in conventional applications in addition to its specific use for confined area air-conditioning.

34. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the said system has an on demand automated multipurpose canopy and its system for the bed along with its associated mechanism.

35. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34, wherein the said canopy mechanism have bracket(s) to be installed on all four legs of the bed.

36. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34, wherein, one of the bracket of claim 35 have a cranking system installed on it.

37. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the cranking system of claim 36 has a gear arrangement.

38. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the cranking system of claim 36 have cranking point made for manual cranking through lever.

39. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the cranking system of claim 36 have a motor to do motorize cranking.

40. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the cranking system of claim 36 has a nozzle to collect strings.

41. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the cranking system of claim 36 have a pulley capable to handle multiple strings.

42. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the brackets of claim 35 have air compressor installed on it.

43. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the brackets of claim 35 have telescopic columns held by it.

44. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the telescopic columns of claim 43 consist of various telescopic pipes.

45. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the telescopic columns of claim 43, which can move freely within each other to collect with in one base or to expand as one large column.

46. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the telescopic columns of claim 43 have holes to clamp/hold pulleys.

47. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the columns of claim 43 have slot(s) to give provision to pulley(s) to run through it when the pipe slides into other pipe.

48. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the telescopic columns of claim 43 have a string fastened to top telescopic pipe, runs through every pipe making the telescopic column and comes out from the slot in base pipe.

49. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the telescopic columns of claim 43 wherein every single pipe making the telescopic column have pulleys.

50. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the brackets of claim 35 have an L shaped joiner, for joining the head board and foot board with the side rails of the bed.

51. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the L shaped joiner of claim 50 is an adjustable spacer as well, used to extend the length of the bed.

52. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, canopy has wall (s).

53. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of claim 52 are made up of foldable pleats.

54. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of the claim 52can expand on demand and collapse on demand.

55. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of claim 52 are sandwiched between two hard strips.

56. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of claim 52 are of a flexible materiel and or combination of flexible and hard material.

57. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of claim 52 have strings fixed with rings, running at various points from top to bottom.

58. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of claim 52 are joined at each corner through a joiner made up of flexible materiel.

59. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the joiner of claim 58 have Velcro stripped on its both sides which are to be joined with the walls of claim 52.

60. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of claim 52 has Velcro compatible to be attached with the Velcro stripped to joiner of claim 58.

61. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the joiner of claim 58 have hooks and or rings installed on the centre of its outer side which runs from top to bottom.

62. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the joiner of claim 58 have zip arrangement installed on its both sides which are to be joined with the walls of claim 52.

63. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of claim 52 has zip arrangement compatible to be attached with the zip arrangement installed on to joiner of claim 58.

64. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, canopy has a roof and its mechanism.

65. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the roof of claim 64 is made up of flexible materiel.

66. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the flexible roof materiel of claim 65 is rolled in a spring loaded roller/roller.

67. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the roof of claim 64 is connected to a runner running in grooves provided in the upper frame of the canopy at head board and foot board side or other two sides of the bed.

68. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the runner of claim 67 has provision of joining the flexible roof materiel with it.

69. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the runner of claim 67 has provision of joining string with it.

70. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the said system has a roller, housing flexible and roll able material.

71. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the roller of claim 70 have clamp fitting in its outer area.

72. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the roller of claim 70 have provision in its outer area for fixing the same on walls.

73. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the roller of claim 70 have runners meant for running in groove and or insertions.

74. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1 , wherein flexible roll able materiel of claim 70 have a handle extending out side from the roller.

75. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the said system have battery back up.

76. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the said system have limit switch/switches to control the motorized operation of cranking system of claim 36.

77. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the said system have encoder to control the motorized operation of cranking system of claim 36.

78. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the said system have limit switch/switches to control the operation of air compressor of claim 42.

79. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1 , wherein the said system have encoder to control the operation of air compressor of claim 42.

80. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of claim 52 have doors.

81. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the walls of claim 52 have windows.

82. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34 wherein, the wall(s) of claim 52 has a flexible duct having stretchable opening capable of housing the inner unit of the AC.

83. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1 , wherein the said system have rounded telescopic columns which acts as cylinders.

84. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the rounded telescopic columns of claim 83 have rings.

85. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1 , wherein the said system has pipes in between compressor and rounded telescopic columns of claim 83 for the supply of compressed air

86. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34, which is used for other applications.

87. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34, which is used for other applications of claim 86, wherein the bed enclosure is used as restraining enclosure.

88. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34, which is used for other applications of, claim 86, wherein the bed enclosure is used as mosquito net.

89. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein the said system have rail mechanism.

90. A rail mechanism of claim 89, wherein the said mechanism have a collapsible rod.

91. A rail mechanism of claim 89, wherein the said mechanism have pipe reeling and unreeling mechanism.

92. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein said system have ducts running between the inner unit of AC and bed enclosure.

93. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34, has manual operated assembly version.

94. A manual operated assembly version of claim 93, wherein the system have manually operated telescopic column(s).

95. A manual operated assembly version of claim 93, wherein the corner joiner in said version has additional extension of flexible materiel having Velcro and or zipper and or reseal able seal provided in it.

96. A manual operated assembly version of claim 93, wherein the walls in said version have an extension of flexible materiel having Velcro and or zipper and or reseal able seal compatible with the same on corner joiner of claim 95 is provided.

97. A system enabling multiple usage of AC, confined to bed and or other confined areas in addition to its conventional use of claim 1, wherein said system have a bracket/provision to install the inner unit of AC beneath the bed.

98. An inner unit of AC beneath the bed of claim 97, wherein duct (s) are provided to transport air conditioning into the bed.

99. A manual operated assembly version of claim 93, wherein the walls of the canopy are erected manually.

100. A manual operated assembly version of claim 93, wherein the columns have hinges with and or with out lock.

101. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34, wherein the walls of the canopy are of transparent materiel.

102. The automated multipurpose canopy and its system for the bed along with its associated mechanism of claim 34, wherein the walls of canopy are collapsed and expands by releasing and tightening the string(s).