RU2083929C1 - Portable gas water heater - Google Patents

Abstract

FIELD: heat-power engineering; domestic heaters for running water. SUBSTANCE: water heater has housing 1 made in form of vertical flame tube of rectangular section inside which water-tube sections are arranged; tube sections are assembled from straight parallel tubes 2 located in stages. Tubes 2 of sections and stages are interconnected by means of horizontal dispensing and receiving headers 3 located on two opposite walls 4 and made in form of recesses on outer surfaced of these walls closed with covers 7 on the outside. Upper and lower headers are provided with water supply and discharge branch pipes 5 and 6. Transverse horizontal partitions 8 made in form of baffle plates for zigzag flow of heat-containing gases from one stage to another through apertures 10 formed between edges of baffle plates and walls of headers are mounted in alternating pattern between stages of sections. Heat-containing gas receiver 11 made in form of contraction is provided at the bottom of housing, adjustable damper 13 for escape of used heat-containing gases being provided at the top of housing. On the outside, housing is provided with protective casing 15 with heat-insulated layer 16. EFFECT: enhanced ease and safety in use; sufficient capacity. 6 cl, 3 dwg

Description

 The invention relates to household appliances, in particular, to portable devices for heating the flowing medium from an external source of heating.

 The well-known "Water Heater" [1] containing a package of water panels with corrugated side walls, connected by a mounting device to their upper and lower sections to form the upper and lower distributing and collecting manifolds, and between the panels are openings for the passage of combustion products from the burner, and the top is corrugated the side walls of each panel are located adjacent to each other and are rigidly fastened together to form vertical channels, and the burner is formed by several fire nozzles mi, each of which is located under its opening between the panels.

 The main disadvantages of this water heater are the increased complexity of the burner formed by several fire nozzles, which is also a necessary integral part of the water heater and complicates its coordination with an external heat source, for example, a burner of a household gas stove, as well as the need for a tight connection of the corrugation tops and panels throughout their length, which is almost quite difficult. These shortcomings reduce the reliability of the water heater and complicate the technology of its manufacture, use in everyday life. In addition, the efficiency of using the thermal energy of the heating source directly depends on the length of the panels, i.e. from the height of the water heater, which leads to its bulkiness.

 Closest heat exchanger [2], comprising a body with sections of tubular spirals tiered inside, arranged around a central vertical pipe divided in two by a longitudinal partition, closest to the device according to its technical nature and method of heating a flowing medium, is installed between the tiers in an alternating the order of height of the annular peripheral and central transverse partitions to provide a zigzag movement of the heating medium.

 Significant disadvantages of this heat exchanger are the complexity of its design as a whole and the manufacturing technology of sections with tubular spirals, their layout in the device, and the complexity of the process of removing deposits that accumulate and harden on the inner walls of tubular spirals and the central pipe, practically exclude the possibility of prolonged use of a spiral heat exchanger in household conditions.

 The basis of the invention is the task of creating a compact portable (removable) running water heater, having high efficiency of using the thermal energy of the stove, sufficient performance, safe and convenient when using and caring for it in a domestic environment.

 The problem is solved in that the heater casing is made in the form of a vertical flame tube of rectangular cross section, inside of which there are installed water tube sections made of rectangular parallel and connected to each other pipe sections and sectionally connected in sequential, tiered cascades by means of horizontal distributing-collecting collectors placed along two mutually opposite walls of the housing, the upper and lower of which are equipped with branch pipes, respectively rather cold and drain hot water. In this case, the supply-collecting manifolds are made, for example, in the form of horizontal grooves on the outer surface of the corresponding walls of the housing with through holes in the housing corresponding to the diameter of the pipe sections, and the grooves themselves are closed externally with removable covers.

 Between the tiers of the cascades of the water-tube sections, one horizontal partition is installed alternating in height along a horizontal partition made of heat-resistant material in the form of a visor that is closely adjoined through heat-insulating spacers to one of the walls of the casing and directed by the edge of the visor to the opposite wall with separating-collecting collectors, and between the edge of the visor and the specified wall formed an opening to ensure a zigzag passage of heat-containing gases from a simultaneous cascade to another along the entire height of morning cavity of the body.

 A collector of heat-containing gases is installed in the lower part of the casing, made in the form of a confuser, equipped with a support platform along the lower edge, in the upper part of the casing is equipped with an adjustment valve for the outlet opening of the casing pipe, and the casing is closed from the outside with a protective casing with a heat-insulating layer.

 Figure 1 schematically shows a vertical section of a heater perpendicular to the walls of the housing with distributing-collecting collectors; figure 2 is a partial vertical section of the heater parallel to the walls of the housing with distributing-collecting collectors; figure 3 is a schematic view of the heater from above (without adjusting valve).

 A portable gas water heater comprises a housing 1 (FIG. 1 of FIG. 3), made in the form of a vertical fire tube of rectangular cross section, in which water tube sections are made, made of straight, parallel and connected to each other pipe sections 2 and sectionally connected in series located cascades by means of horizontal distributing-collecting manifolds 3 located on two mutually opposite walls 4 of the housing, the upper and lower of which are equipped with pipes 5 and 6, respectively supplying cold and draining hot water, and distributing-collecting manifolds can be made, for example, in the form of horizontal grooves on the outer surface of the corresponding walls with through holes in the housing, corresponding to the diameter of the section pipes, and closed outside by covers 7. Between the tiers of the cascades of water-pipe sections installed in alternating order of height along one horizontal partition 8 made of heat-resistant material in the form of a visor closely adjacent to the heat-insulating heat gaskets 9, to the corresponding wall with distributing-collecting manifolds and to the side walls of the housing, and directed by the edge of the visor to the opposite wall, and an opening 10 is formed between the edge of the visor and this wall to provide a zigzag passage of heat-containing gases from one stage to another over the entire height the internal cavity of the body. A collector II of heat-containing gases is installed in the lower part of the casing, made in the form of a confuser, equipped with a support pad 12 around the perimeter of the lower edge. In the upper part, the casing is equipped with an adjustment valve 13 of the outlet opening 14 of the casing pipe. Outside, the housing is closed by a protective casing 15 with a heat-insulating layer 16 (shown by dashed lines).

 Portable gas heater operates as follows.

 The heater is installed by the supporting platform 12 of the confuser collection II above a source of heat-containing gases, for example, above the burner of a kitchen gas stove. Using hoses, they connect the nozzle 5 to the cold water supply tap, and the nozzle 6 to the container for collecting hot water drains, turn on the water supply and activate the gas heat supply source. In this case, water through parallel pipes of 2 sections sequentially from top to bottom passes through all their cascades both due to water pressure and due to its own weight, and the heat-containing gases collected by collector II rush up along the inner cavity of the body along a zigzag path (thanks to partitions 8 and openings 9) from cascade to cascade, flowing from all sides of the section pipe. The heater performance and the degree of water heating are controlled by a water supply valve, a gas stove burner tap, and a gate valve 13.

The proposed gas water heater is used in domestic conditions, when there is running water, such as water supply, and domestic gas supply, but if there is a gas stove, there is no gas water heater. The heater is convenient and safe to use. Its performance is sufficient for domestic needs, for example, for washing dishes, washing and even maintaining hot pre-heated water when washing or in the bath at relatively low gas consumption (consumption of one burner of a kitchen gas stove). Estimated calculations show (confirmed by the current model of the heater) that with 10-15 consecutive sections, each of which contains 5-6 parallel brass or copper tubes with an inner diameter of 6 mm and a length of 100 mm, the performance of the heater reaches 4-5 liters per minute with temperature 70 80 ^o C.

 The specified technical result was achieved due to the most complete use of the heat output of the gas stove burner for direct heating of water due to the peculiar design of the heater. The heat-containing gases flowing around the large surface of the section pipes in close proximity to them manage to completely transfer their heat to the water during the passage along the zigzag path.

Claims (6)

 1. A portable gas water heater comprising a casing with water tube sections located inside it, characterized in that the casing is made in the form of a vertical pipe of rectangular cross-section, and the water pipe sections are made of rectilinear parallel pipes, interconnected and connected in successive tiered arranged cascades by means of distributing collecting horizontal collectors placed on two opposite walls of the housing, the upper and lower of which are equipped with nozzles, respectively o supply and drainage of water.  2. A water heater according to claim 1, characterized in that the distributing-collecting manifolds are made in the corresponding walls in the form of grooves closed by covers.  3. Water heater according to paragraphs. 1 and 2, characterized in that between the tiers of the cascades of the water tube sections, one horizontal heat-resistant guide visor is installed, each of which, alternating through one, is closely adjacent to one of the walls of the housing with distributing-collecting manifolds, as well as the side walls of the housing and is directed with a visor edge towards the opposite wall, moreover heat-resistant heat-insulating gaskets are laid between the sides of the visors and the side walls of the case, and between the edge of the visors and the corresponding openings are formed by a falsely located wall of the housing to provide a zigzag passage of heat-containing gases from one cascade to another.  4. A water heater according to claims 1 to 3, characterized in that the casing from the bottom is equipped with a collector of heat-containing gases, made in the form of a confuser, equipped with a support platform along the lower edge of the cut.  5. Water heater according to paragraphs. 1 to 4, characterized in that the housing on top is equipped with an adjustment valve of the outlet opening of the housing pipe.  6. Water heater according to paragraphs. 1 to 5, characterized in that the housing is externally closed with a protective casing with a heat-insulating layer.

Images