Tank water heater assembly and transport assembly

Abstract

A tank water heater assembly is provided including a tank water heater and a drain pan provided with a sensor holder for mounting a sensor. The sensor holder accommodates a leak detection sensor at predefined distance above an inner surface of a bottom wall of the drain pan. In this way the presence of harmless small amounts of water in the drain pan do not trigger an alarm. A transport assembly is presented for facilitating transportation of the tank water heater assembly to an installation site and subsequent installation. Finally, a method for installation of a tank water heater assembly is provided.

Claims

1. A tank water heater assembly comprising: a tank water heater; and a drain pan; wherein the drain pan is made of plastic and is provided with integrally molded support legs on its bottom side, wherein the support legs include at least a first support leg, a second support leg, a third support leg and a fourth support leg arranged on the perimeter of the drain pan, wherein the support legs are arranged at a distance from each other, the first support leg being arranged at a first distance from the second support leg, the second support leg being arranged at a second distance from the third support leg, the third support leg being arranged at a third distance from the fourth support leg, and the fourth support leg being arranged at a fourth distance from the first support leg, the support legs further including a fifth support leg being arranged in the center of the first support leg, the second support leg, the third support leg and the fourth support leg, the distance between the support legs making sufficient room for allowing a fork of a forklift to pass below the drain pan and enabling to meet two different fork sizes, wherein the first distance is equal to the third distance, the second distance is equal to the fourth distance and the first distance is larger than the second distance, and wherein the bottom side of the drain pan is provided with an iso-grid reinforcement structure, the iso-grid reinforcement structure providing a flat design for carrying the load of the tank water heater assembly using a forklift in either of the direction of the second distance and the direction of the fourth distance.

2. The tank water heater assembly according to claim 1; wherein the bottom wall of the drain pan is flat in the area on which the tank water heater rests in the drain pan.

3. The tank water heater assembly according to claim 1; wherein the drain pan is provided with a centering device on a bottom wall of the drain pan for positioning the tank water heater at a predetermined position inside the drain pan.

4. The tank water heater assembly according to claim 1; wherein the drain pan is provided with a discharge port.

5. The tank water heater assembly according to claim 1; wherein the drain pan is provided with a sensor holder configured to hold a sensor.

6. The tank water heater assembly according to claim 5; wherein the sensor holder accommodates the sensor at predefined distance above an inner surface of a bottom wall of the drain pan.

7. The tank water heater assembly according to claim 1, wherein the fifth support leg is arranged at the center of the drain pan.

8. The tank water heater assembly according to claim 1, further comprising: a packaging which is attached to the drain pan using straps.

9. The tank water heater assembly according to claim 8, further comprising: a holding device which secures the tank water heater within the packaging.

10. The tank water heater assembly according to claim 6; wherein the sensor is a leak detection sensor.

11. The tank water heater assembly according to claim 1; wherein the drain pan is provided with a socket for connecting a hose to release water out of the drain pan.

Description

BRIEF DESCRIPTION OF DRAWINGS

(1) Exemplary embodiments of the present disclosure are illustrated in the drawings and are explained in more detail in the following description. In the figures similar or same elements are referenced with the same or similar reference signs.

(2) FIG. 1 shows a schematic diagram of a conventional tank water heater assembly.

(3) FIG. 2 shows a schematic diagram of tank water heater assembly according to the present disclosure.

(4) FIG. 3A shows a perspective side view from the top on an embodiment of the drain pan.

(5) FIG. 3B shows a partial cross-section of a recess in the drain pan and a support leg.

(6) FIG. 3C shows an anchor for holding a support leg in greater detail.

(7) FIG. 4A shows a square-shaped drain pan.

(8) FIG. 4B shows a round shaped drain pan.

(9) FIG. 5A shows another embodiment of a tank water heater assembly 500 with a reinforced drain pan.

(10) FIG. 5B shows a perspective view on the drain pan of FIG. 5A.

(11) FIG. 5C shows a partial perspective view on the drain pan of FIG. 5A.

(12) FIG. 6A shows a transport assembly of the tank water heater assembly.

(13) FIG. 6B shows the transport assembly FIG. 6A in a partially dismantled state.

(14) FIG. 7A shows a side view of the transport assembly.

(15) FIG. 7B shows a schematic view from the top of the transport assembly.

(16) FIG. 8 shows a flow diagram of a method for installing a water tank assembly.

DETAILED DESCRIPTION OF EMBODIMENTS

(17) It is to be understood that the figures and descriptions of the present invention have been simplified to illustrate elements that are relevant for a clear understanding of the present invention, while eliminating, for purposes of clarity, many other elements which are conventional in this art. Those of ordinary skill in the art will recognize that other elements are desirable for implementing the present invention. However, because such elements are well known in the art, and because they do not facilitate a better understanding of the present invention, a discussion of such elements is not provided herein.

(18) The present invention will now be described in detail on the basis of exemplary embodiments.

(19) FIG. 2 schematically shows a water tank heater assembly 200 according to the present disclosure. Components of the water tank assembly 200 which are similar or identical with the water tank assembly 100 shown in FIG. 1 are labelled with the same reference signs. These components have already been described in the context of FIG. 1. The drain pan 109 of the water tank assembly 200 is provided with a socket 201 for connecting a hose 202 for releasing water out of the drain pan 109 into the grey water drainage 112. The socket 201 replaces the simple spillover 110 of the water tank assembly 100. Compared with the gutter 113, the hose 202 further enhances security that no water enters in an uncontrolled manner into the building structure if the water tank or any of its connections fails and water leaks out of the water tank 101.

(20) In addition to that, the drain pan 109 is provided with a sensor holder 203. The sensor holder 203 accommodates a leak detection sensor 204 at an elevated position above an inner surface of the drain pan 109. The leak detection sensor 204 is apt for detecting water and works on the basis of conductive, inductive or capacitive measurements indicating the presence or absence of water. This type of sensors are particularly suitable but other types of sensors could be utilized as well to implement the present disclosure. The leak detection sensor 204 is connected with a controller 206.

(21) The elevated position of the leak detection sensor 204 advantageously ignores the presence of a small amount of water inside the drain pan 109. Small amounts of water can be released by the pressure release valve 107 during normal operation of the water tank assembly 200 for instance in response to fluctuations of the operating pressure. Small amounts of water in the drain pan 109 are harmless and not indicative of a problem that needs to be addressed. Only if the water level raises to a point where the leak detection sensor 204 detects the presence of water, the controller 206 triggers an alarm, such as an optical or acoustical alarm. If the water tank assembly 200 is a connected device also an email or an SMS message could be sent out to the owner of the building or a maintenance service.

(22) FIG. 3A shows a perspective side view from the top on an embodiment of the drain pan 109 made from plastic with support legs 301. In one embodiment the support legs 301 are made of wood. For the purpose of better illustration, a portion of a front wall 302 of the drain pan 109 is broken away to increase visibility of recesses 303 provided in a bottom wall 304. The wall 304 has an inner surface 305 and an opposing outer surface 309 (FIG. 3B). The support legs 301 are provided with protrusions 306 corresponding to the recesses 303. The support legs 301 are placed below the drain pan 109 such that the protrusions enter into the recesses 303 forming a positive locking connection between the support legs 301 and the drain pan 109. In order to stabilize this positive locking connection each recess 303 is provided with an anchor 307 (FIG. 3C) entering into a corresponding hole 308 drilled into the protrusions 306 of the support legs 301. In the front wall 302 the socket 201 is provided.

(23) FIG. 3B shows a partial cross-section of one recess 303 and a mounted support leg 301. The anchor 307 penetrates into the hole 308 and secures the connection between the drain pan 109 and the support leg 301. In an advantageous embodiment the anchors 307 are moulded in one piece with the drain pan 109. It is also noted that the anchors are flush with a bottom surface 309 of the drain pan 109.

(24) FIG. 3C illustrates one anchor 307 in greater detail. Is shown in FIG. 3C the anchor 307 has a structure to increase the fixing of the anchor 307 in the hole 308.

(25) The support legs 301 are arranged at a distance from each other to make sufficient room allowing a fork of a forklift to pass below the drain pan 109.

(26) FIG. 4A shows the square-shaped drain pan 109 with four recesses 401 for accommodating individual support legs (not visible) which are secured in the same way as of the support legs 301 of FIG. 3A, i.e. anchors rigidly connected with the drain pan 109 enter into the individual support legs and securely connect them with the drain pan 109. In FIG. 4A the sensor holder 203 is visible, too.

(27) FIG. 4B illustrates an alternative embodiment of a round shaped drain pan 109 that, like the drain pan of FIG. 4A, is carried by individual support legs mounted below recesses 401, which are shown in FIG. 4B.

(28) Like the pair of elongated support legs 301, the individual support legs of the drain pan 109 shown in FIGS. 4A and 4B are spaced apart to make sufficient room for allowing a fork of a forklift to pass below the drain pan 109.

(29) Enabling the use of a forklift to move a heavy tank water heater assembly composed of a drain pan 109 in which the tank water heater 200 is already arranged has obvious advantages. In all embodiment also hooks and lifting beams of similar devices can be used instead of a fork of a forklift.

(30) It is noted that utilizing the support legs only for transportation has the advantage that a very simple flat drain pan design can be used. The flat drain pan design is advantageous because it can carry the heavy load without requiring a lot of structural reinforcements. The capability of carrying high load is important because once the water tank 101 of the tank water heater 200 is filled with water its weight increases for example by a factor of 3. Consequently, the load the plastic drain pan 109 has to carry is tripled likewise. In order to keep the costs for the drain pan low, the present disclosure suggests to dismount the support legs before the tank is filled with water. Then the flat outer surface 309 of the bottom wall 304 of the plastic drain pan 109 rests on a flat support and can easily carry also very heavy loads. Since the anchors 307 are flush with the outer surface 309 they do not exert any excessive force on the drain pan 109. The only requirement is that the flat area of the drain pan is large enough to support the bottom side of the tank water heater 200, i.e the tank water heater 200 is positioned between the recesses 303 (FIG. 3A) or the recesses 401 (FIG. 4A, 4B) to avoid that the recesses 303 and 401, respectively, break under the load of the tank water heater 200. In order to remove the support legs 301 an installation worker only has to tip over the tank water assembly to one side to get access to the support leg or support legs on the opposing side. The support legs are detachable without needing any tools.

(31) FIG. 5A shows another embodiment of a tank water heater assembly 500 with a tank water heater 501 reinforced drain pan 502. According to this embodiment support legs 503 of the drain pan 501 are permanent and integrated in the drain pan design. The installation process of this embodiment is even simpler because no support legs need to be dismantled. The drain pan 502 has a square shape and presents different distances a, b between the support legs 503 on different sides of the drain pan 521 enabling to meet two different pallet jack standards in terms of fork size and flexibility.

(32) FIG. 5B shows a perspective view on the drain pan 502 from the bottom and discloses an iso-grid structure 504 on the bottom side of the drain pan 502 providing sufficient mechanical strength allowing the drain pan 502 to carry the water tank heater filled with water. The drain pan 502 is provided with a discharge port 506 and is designed for a flat sealed screw joint like a hose fitting 507. It is noted that the support legs 503 are not only arranged on the perimeter of the drain pan 502. One support leg 503 is arranged in the central area of the drain pan 502 to increase stability of the drain pan 502.

(33) FIG. 5C shows a partial perspective view from the top on the corner of the drain pan 502 where the discharge port 506 is located. In vicinity to the discharge port 506 a leak detection sensor 508 is arranged which is kept in place by means of a sensor holder 509. The leak detection sensor 508 detects the presence of water as it has been described in the context of FIG. 2 and the sensor 204. Since the drain pan 502 is a moulded plastic component the design of the sensor holder 509 can be adapted easily to different kinds of sensors or special needs. In particular, it is possible to configure the sensor holder 509 such that the leak detection sensor 508 keeps a predetermined distance from the inner surface 511 such that the leak detection sensor 508 ignores the presence of small amounts of water in the drain pan 502.

(34) However, in other embodiments the sensor holder 509 holds the sensor 508 in direct contact with the inner surface 511 of the drain pan 502 enabling the sensor 508 to detect also small amounts of water.

(35) The drain pan 502 is also provided with a circular mechanical structure 512 providing an abutment for the tank water heater assuring that the tank water heater 501 is properly positioned in the centre of the drain pan 502 secure an equal distribution of the load of the tank water heater 501 on the drain pan 502, in particular when the tank water heater 501 is filled with water. In this sense the circular mechanical structure 512 is a centering device. Obviously, the mechanical structure 512 can take other forms as well to achieve the described purpose. In other embodiments the mechanical structure 512 is composed of a plurality of protrusions or sections which are shaped to closely follow the external shape of the tank water heater 501.

(36) In other embodiments having a flat drain pan 109 as shown e.g. in FIGS. 3A, 4A and 4B mechanical structures similar to the centering device 512 are provided to achieve the same purpose.

(37) FIG. 6A shows a transport assembly of the tank water heater assembly illustrated in FIG. 5A. A packaging, e.g. a cardboard box 601, is placed over the water heater assembly 500 and fixed with two straps 602 passing around the entire transport assembly. The straps 602 pass through openings 603 between the support legs 503 and securely hold the transport assembly together.

(38) FIG. 6B shows the transport assembly 600 of FIG. 6A in a partially dismantled state. The straps 602 have been removed and the cardboard box 601 has been lifted to the top. FIG. 6B discloses a holding device 604 which fits on the top side of the tank water heater 501 and protects it against being dented during transport. In one embodiment the holding device 604 is a Styrofoam part 604. The cardboard box 601 is dimensioned to snuggly fit that over the Styrofoam part 604 but abuts on top of the drain pan 502.

(39) In other embodiments the holding device 600 for is made from other suitable materials which are known to a person skilled in the art.

(40) In the embodiments of the drain pan 109 shown in FIGS. 3A, for a and 4B provided with detachable support legs the securing straps 602 are positioned such that also the support legs are secured by the straps 602 in the transport assembly.

(41) FIG. 7A shows a side view of the transport assembly where the straps are securing the support legs 301 together with the drain pan and the tank cardboard assembly. FIG. 7B shows a schematic view from the top of the transport assembly having for individual support legs 701. The straps 602 pass across the support legs 701 to secure them to the transport assembly.

(42) FIG. 8 exhibits a flow diagram of a method for installing a water tank assembly according to the present disclosure. In a first step S1 the transport assembly 600 is transported to an installation site. Then, the straps 602 of the transport assembly 600 are removed (step S2). After the straps 602 have been removed the installation person can remove the packaging 601 from the tank water heater assembly (step S3). In most cases the packaging 601 will be a cardboard box but other packaging materials such as plastic foils and plates might be used as well. If applicable, the installation worker dismantles detachable support legs (step S4). Finally, the installation person connects the water heater assembly with the pipework at the installation site (step S5).

(43) While this invention has been described in conjunction with the specific embodiments outlined above, it is evident that many alternatives, modifications, and variations will be apparent to those skilled in the art. Accordingly, the preferred embodiments of the invention as set forth above are intended to be illustrative, not limiting. Various changes may be made without departing from the spirit and scope of the inventions as defined in the following claims.

(44) It is noted that citation or identification of any document in this application is not an admission that such document is available as prior art to the present invention.

REFERENCE SIGNS LIST

(45) 100 tank water heater 101 water tank 102 thermal insulation material 103 housing 104-106 stubs 107 pressure relief valve 108 pipework 109 drain pan 110 spillover 111 rim of drain pan 112 grey water drainage 113 gutter 114 heater 115 temperature control 200 water tank heater assembly 201 socket 202 hose 203 sensor holder 204 leak detection sensor 206 control 301 support legs 302 front wall 303 recess 304 bottom wall 306 protrusion 307 anchor 308 hole 309 outer surface of bottom wall 401 recess 500 tank water heater assembly 501 tank water heater 502 drain pan 503 support legs 504 iso-grid structure 506 discharge port 507 hose fitting 508 leak detection sensor 509 sensor holder 511 inner surface 512 mechanical structure/holding device 600 transport assembly 601 cardboard box 602 straps 603 openings 604 holding device 701 individual support legs