CN210747216U - Thermal regulation system for water pipe - Google Patents

Abstract

The utility model discloses a heating power governing system for water pipe, including charcoal tray (25) that have air inlet (34) and one or more gas outlets (38) and water pipe (99) of charcoal tray support (31), charcoal tray support (31) be for one or more gas outlets (38) height-adjustable. A thermal regulation system for a hookah pipe to ensure optimal temperature control of the hookah. It should be capable of accurate and rapid temperature control and readjustment while enjoying hookah. The temperature will be controlled by the air flow in the coal tray and tobacco head and by the distance from the coal bed to the tobacco.

Description

Thermal regulation system for water pipe

Technical Field

The invention relates to a thermal regulation system for a hookah.

Background

Hookah, also called hookah or hookah, is usually composed of a water tank, the so-called bowl, and a closing head, which is connected to the water tank. A flue pipe follows the closing head, and a tobacco head is arranged at the upper end of the flue pipe, on which tobacco is burnt or evaporated together with the hot coal. The flue pipe extends through a closing head in the water tank and has its lower end open to a location below the water level in the water tank. Furthermore, at least one connection for a flue tube is provided on the closure head, which can be connected via a corresponding recess to an air chamber in the region of the water tank located between the water tank and the liquid surface. When a user inhales through the flue hose, a negative pressure is generated in the air chamber of the water tank, and air can be inhaled through the flue pipe due to the negative pressure. The inhaled air will flow around the glowing charcoal fire on the tobacco head and be heated. The combustion of a glowing charcoal fire is promoted as the flowing air supplies oxygen. The high temperature of the flowing air burns or vaporizes the tobacco in the tobacco head. The inhaled fumes will be cleaned, cooled and/or moistened while passing through the liquid.

The inhaled air is heated by the glowing charcoal fire and flows over and simultaneously heats the tobacco in the tobacco head. At the appropriate temperature, the tobacco will be vaporized, producing a dense smoke. If the temperature is too low, no or little smoke will be produced. If the temperature is too high, the tobacco will burn, creating an unpleasant, irritating smoke smell. The optimum temperature of the tobacco head is thus crucial for enjoyment. Due to the continuous consumption of tobacco and charcoal, the temperature conditions will change continuously when the water smoke is consumed.

A known aid for adjusting the optimum temperature is a charcoal tray fitted with a gas-permeable charcoal-deposited layer, which is larger than the tobacco head. A glowing charcoal fire is placed centrally or eccentrically on a charcoal tray on the tobacco head to increase or decrease the temperature in the tobacco head. In addition, another type of coal pallet is known, which is wrapped with coal by a casing. In the housing, closable recesses are provided. By opening or closing these recesses, the air flow to the coal, and thus the temperature in the tobacco head, can be controlled.

The char stack is part of the char tray and is fixed thereto.

The air outlet opening of the charcoal tray opens into the tobacco head according to known means. The air inlet of the charcoal tray is located on the side and above the coal. An air inlet above the coal provides air for combustion. If the supply of combustion air is increased, the temperature in the tobacco head will increase. An air inlet located on the side of the coal supplies cool air to the air outlet and lowers the temperature in the straw head. The change in cross-section through the inlet allows the air flow to or around the coal.

According to a known manner, a fixed distance is maintained between the charcoal tray and the tobacco head. In addition to being heated by the hot air stream, the tobacco head is also heated by radiant heat from the coal tray and coal. Direct contact between the tobacco and the charcoal tray should therefore be avoided. If the tobacco and the charcoal tray are in direct contact, the temperature in the tobacco will be too high. It is necessary to maintain a distance between the charcoal tray and the tobacco head so that air from the air outlet of the charcoal tray can flow completely around the tobacco.

Care must be taken with the amount of tobacco fill in the tobacco head to ensure that the proper spacing between the charcoal tray and the tobacco is maintained. This spacing may change during the smoking process. As the tobacco is consumed, this spacing is enlarged and thus less than optimal.

SUMMERY OF THE UTILITY MODEL

Based on the above prior art it was an object of the present invention to provide a thermo-regulating system for a hookah to ensure an optimal temperature control of the hookah. It should be capable of accurate and rapid temperature control and readjustment while enjoying hookah. The temperature will be controlled by the air flow in the coal tray and tobacco head and by the distance from the coal bed to the tobacco.

In order to achieve the above object, the utility model adopts the following technical scheme: a thermal conditioning system for a hookah, comprising a hookah having a charcoal tray with an air inlet and one or more air outlets and a charcoal tray support that is height adjustable relative to the one or more air outlets.

In a further refinement, the charcoal tray support is height adjustable within the confines of the air inlet relative to one or more air outlets.

In a further development, the charcoal tray support is inserted in a slotted guide, and the slotted guide is shaped as an air inlet.

In a further development, the charcoal tray support is inserted in a groove-shaped guide, and the shape of the groove-shaped guide determines the locking position of the charcoal tray support.

In a further development, there is a recess in the form of an upper placement recess in the groove-shaped guide, and the charcoal tray holder is fixable in an upper position in the placement recess relative to the one or more air outlets.

In a further development, a cover with a cover tab is provided, and the cover can be fixed in a cover recess, and the cover recess leads to a groove-shaped guide, and the width of the cover tab is greater than the groove width of the groove-shaped guide.

The thermal conditioning system for hookahs according to the invention comprises a charcoal tray in the form of a housing with an air inlet and an air outlet and a charcoal stack layer that variably adjusts the distance to the tobacco head.

The spacing adjustment of the char accumulation layer to the tobacco head is regulated by air inlets in the char tray housing.

When the distance between the charcoal tray and the tobacco head is minimal, the air flow passes through the air inlet above the charcoal tray onto the charcoal fire and ensures that the temperature in the tobacco head is sufficiently high.

When the distance between the charcoal tray and the tobacco head is at a maximum, the air flow will be partly in the form of fresh air flowing towards the tobacco head through the air inlet below the charcoal tray.

The housing grooves in the charcoal trays guiding the charcoal accumulation layer function to fix the spacing and serve as air inlets. In addition to this groove guiding the char accumulation layer, there can also be other grooves in the char tray that act as air inlets. These grooves may be located outside or inside the adjustable carbon build-up layer.

In the following, the invention will be further explained with reference to the attached drawings of exemplary embodiments.

Drawings

Fig. 1 is a schematic view of the basic structure of a hookah.

Fig. 2 shows a first embodiment of a thermal conditioning system for a charcoal tray with adjustable air inlets.

Fig. 3 is a second embodiment of a thermal conditioning system for a charcoal tray with adjustable air inlets.

Fig. 4a and 4b show a first embodiment of a thermal conditioning system according to the invention by means of a height-adjustable char stack and an air inlet.

Fig. 5 is a second embodiment of a thermodynamic conditioning system based on the present invention by means of a height adjustable char stack and air inlets.

Fig. 6 is a third embodiment of a thermal conditioning system based on the present invention by means of a height adjustable char stack and air inlets.

Figures 7a and 7b show a fourth embodiment of a thermal conditioning system according to the invention with height adjustable char stacks and air inlets and with the char stacks in an upper stacking position.

Detailed Description

In the thermodynamic regulation system for a hookah, shown in fig. 1, the hookah 99 has a water tank 05, which is filled with water 03, so that there is always an air space 07 above the liquid level 04. The water tank 05 is closed with a closing head 98. A flue pipe 06 projects through the closing head 98, the lower end of the flue pipe 06 opening into the water 03 below the liquid level 04 in the water tank 05. In the region of the upper end of the flue pipe 06, a tobacco head 17 is provided, on which a charcoal tray 25 is arranged on which the hot coal 16 is placed and the tobacco to be evaporated. At the closing head 98, a flue connection 19 and a flue hose 20 are arranged in a recess through the closing head 98 into the plenum 07. As soon as a user sucks in the flue tube 20, a negative pressure is built up in the water tank 05, more precisely in the air chamber 07, and due to the negative pressure, the air mixed with the evaporated tobacco flavor is sucked out through the flue tube 06 and the water 03 and is cooled, cleaned and moistened by the flue tube 20 and transported to the user.

The exemplary embodiment of the thermal conditioning system shown in fig. 2 has a charcoal tray 25, which charcoal tray 25 has a fixed position charcoal tray holder 30. The charcoal tray 25 has some inlet openings 35 that can be closed, some inlet openings 36 that cannot be closed, and some outlet openings 38 that cannot be closed. By opening the closable air inlet 35, the air flow can be guided to the coal 16 and a temperature increase is caused at the air outlet 38. By closing the closable inlet opening 35, the air flow reaches the outlet opening 38 via the laterally non-adjustable inlet opening 36 and leads to a temperature reduction there.

The exemplary embodiment of the thermal conditioning system shown in fig. 3 has a charcoal tray 25, which charcoal tray 25 has a fixed position charcoal tray holder 30. The charcoal tray 25 has some inlet openings 35 that can be closed, one inlet opening 36 that cannot be closed and some outlet openings 38 that cannot be closed. By opening the closable air inlet 35, the air flow can be guided to the coal 16 and a temperature increase is caused at the air outlet 38. By opening the closable air inlet 35, the air flow will be conveyed to the air outlet 38 and cause a temperature drop there.

The exemplary embodiment of the thermal conditioning system of the present invention shown in fig. 4a and 4b has a charcoal tray 25, the charcoal tray 25 having an adjustable charcoal tray holder 31. The charcoal tray 25 has adjustable air inlets 34, non-closable air outlets 36, a non-closable air outlet 38 and a cover 40 by means of a charcoal tray support 31. The charcoal tray holder 31 is rotatably movable in the groove guide 32, and the height of the air outlet 38 is adjusted to maintain a certain distance from the tobacco when the hookah is used. Depending on the position of the coal pallet support 31, the air flow will be conveyed more intensively through the air inlet 34 to the coal 16 or directly to the air outlet 38.

The air temperature at the air outlet 38 will decrease as the distance between the saucer holder 31 and the air outlet 38 increases, and the air temperature at the air outlet 38 will increase as the distance between the saucer holder 31 and the air outlet 38 decreases. The adjustment of the distance between the charcoal tray holder 31 and the air outlet 38 is achieved by the rotational movement of the charcoal tray holder 31 in the nut 32. The closure 40 is lockable by a closure tab 41 located in the closure recess 33.

The second embodiment of the thermostatic regulating system according to the invention shown in fig. 5 is similar to the embodiment of fig. 4a and 4 b. The charcoal tray holder 31 is rotatably guided in the groove guide 32 and is adjustable at a distance from the air outlet 38. By means of the shape, e.g. wave-like or step-like, of the groove guide 32, the charcoal tray support 31 can be adjusted to a predetermined position at a distance from the air outlet 38.

The closure 40 may be locked by a closure tab 41 in the closure recess 33. To avoid the caps 40 from being erroneously introduced into the groove guides 42, the cap tab 41 has a width larger than the groove of the groove guides 32.

A third embodiment of the thermal conditioning system according to the invention, shown in fig. 6, is similar to the embodiment of fig. 4a and 4 b.

The adjustment of the distance between the charcoal tray holder 31 and the air outlet 38 is performed by inserting the charcoal tray holder 31 into the slot type guide 32.

The fourth embodiment of the thermostatic regulating system according to the invention shown in fig. 7a and 7b is similar to the embodiment of fig. 4a and 4 b.

The slot guide 32 opens in the placement groove 43. The coal tray bracket 31 may be inserted into the seating groove 43 to facilitate the seating of the coal 16 in the coal tray 25.

Claims (8)

1. A thermal conditioning system for a hookah, comprising a hookah (99) having a charcoal tray (25) with an air inlet (34) and one or more air outlets (38) and a charcoal tray support (31), characterized by: the charcoal tray support (31) is height adjustable relative to the one or more air outlets (38).

2. The system of claim 1, wherein the charcoal tray support (31) is height adjustable relative to one or more air outlets (38) within the range of the air inlet (34).

3. The system of claim 1, wherein the charcoal tray support (31) is inserted in a slotted guide (32), and the slotted guide (32) is shaped as an air inlet.

4. The system of claim 2, wherein the charcoal tray support (31) is inserted in a slotted guide (32), and the slotted guide (32) is shaped as an air inlet.

5. The system of claim 1, wherein the charcoal tray holder (31) is inserted in a slotted guide (32), and the slotted guide (32) determines the locking position of the charcoal tray holder (31) by its shape.

6. The system of claim 2, wherein the charcoal tray holder (31) is inserted in a slotted guide (32), and the slotted guide (32) determines the locking position of the charcoal tray holder (31) by its shape.

7. The system of claim 1 or 2, further comprising a channel-type guide (32); in the groove-shaped guide (32) there is a recess in the form of an upper resting recess (43), and the charcoal tray support (31) is fixable in an upper position in the resting recess (43) relative to the one or more air outlets (38).

8. The system of any of claims 1 to 6, further comprising a cover (40) having a cover tab (41), wherein the cover is securable in a cover recess (33) leading to a slotted guide (42), and wherein the width of the cover tab (41) is greater than the slot width of the slotted guide (42).

Images