JPS63176952A - Electric water heater - Google Patents

Abstract

PURPOSE:To supply hot water at a stable temperature with a good thermal efficiency by mutually connecting grooves formed in the front face of a heat generating block and heating water by electric heat generating bodies buried in the heat generating block during the process in which the water is caused to flow from the grooves on one side to the grooves on the other side. CONSTITUTION:Water supplied under pressure from a pressurized water feed device such as a pump is directed to a hole 28 drilled in the upper block 26 and enters the other end 23b of grooves 23 formed in the upper surface of a heat generating block 21 to be flowed through the grooves 23 in a spiral form. The water flows from one end 23a of the grooves 23 through a hole 25 to one end 24a of grooves 24 formed in the underside of the heat generating block 21 to be flowed through the grooves 24 in a spiral form, and is directed from the other end 24b through a hole 35 in the lower block 29 to a water outlet 36. During the process in which the water flows through the grooves 23 and 24 formed in the top surface and underside of the heat generating block 21 respectively in the spiral form, the water is heated to become hot water by the heat from cartridge heaters 22 buried in the heat generating block 21.

Description

DETAILED DESCRIPTION OF THE INVENTION FIELD OF INDUSTRIAL APPLICATION The present invention relates to an electric water boiler used for brewing coffee or the like.

Conventional technology Generally, it is said that it is preferable to extract coffee by passing high-temperature water evenly through the entire coffee grounds in a short period of time.
For this reason, a so-called Nisprerun coffee extraction device has been known, which extracts coffee liquid in a short time by passing pressurized hot water through coffee grounds using a pump or the like. In the conventional Tonodan coffee brewing device, the heat-generating block that heats the water is preheated in a short period of time, and the water pumped by a pump can be quickly heated to a specified temperature with 10 heat generation units, and it is stable. It was desired to use an electric water heater that could provide hot water.

Coffee extraction that incorporates a conventional electric water heater.

The device has a configuration as shown in Fig. 3. In the figure, 1 is a heat generating block, a groove 2 forming a spiral waterway is formed on the bottom surface, and a heat generating element 3 is formed with an insulating bagder 4 on the bottom surface. It is insulated and buried. The surface of the heat generating block 1 on which the groove 2 is formed is covered with an upper lock 6 via an O-ring 5.

7 is a through hole formed in the center of the heat generating block 1 so as to communicate with the groove 2, and the lower end vcO of this through hole 7''
A lower block 9 is attached in airtight communication via a ring 8. Below this lower block 9, a capsule A/11 containing coffee powder 10 is supported by a holder 12, and hot water made by flowing through the groove 2 of the heat generating block 1 is passed through the through hole 7 to the capsule 11.
and is configured to extract coffee liquid.

In addition, 13 is a vibrator that guides water under pressure from a pump (not shown), and is fixed to the heat generating block 1 by a joint 14 and communicated with the groove 2. Further, a thermostat 15 senses the temperature of the heat generating block 1 and controls the temperature of the heat generating block 1 by turning on/off the power supply to the heat generating element 3.

1 Problem to be Solved by the Invention In such a conventional configuration, since the heating element 3 is embedded in one side (lower surface) of the heat generating block 1, the groove 2 for heating water is only on one side (upper surface). Since the upper block 5 can only be formed into a round shape, the heat capacity of the upper block 5 has been increased to ensure that the water passing through the groove 2 can be boiled. Therefore, it takes a long time for the temperature of the water heater to rise.
When water is continuously supplied, the lower block 9 is removed from the through hole 7.
The temperature of the hot water supplied to Kadese Iv11 is low,
The drawback was that it produced bad-tasting coffee. Further, since the heat that is not consumed by the RC for heating water is radiated from the surface of the heat generating block 1 in which the heat generating element 3 is embedded, there is a problem of poor thermal efficiency.

The present invention solves these problems, and aims to provide an electric water heating device that has good thermal efficiency and can supply hot water at a stable temperature.

Means for Solving the Problem In order to solve this problem, the present invention forms grooves on both sides of a heat generating block in which an electric heating element is embedded in a good thermal conductor such as aluminum, and one end communicating with the other through a hole penetrating the heat generating block;
Both sides of the heat generating block with grooves formed therein are covered with blocks, and the block covering one side of the heat generating block is provided with a water injection hole that communicates with the other end of the groove on one side of the heat generating block. The block covering the surface of the heat generating block is provided with an outlet communicating with the other end of the groove on the other surface of the heat generating block.

Effect: With this configuration, grooves are formed on both sides of the heat generating block for water to flow through, so the length of the grooves can be made longer than before, increasing the time that water is heated. Since the electric heating element embedded in the heating element is surrounded from the 110] side, the heat of the heating element can be used efficiently, and hot water with a stable temperature can be supplied.

EXAMPLE Hereinafter, an example of the present invention will be described based on the drawings.

In Figures 1 and 2, 21 is a heat generating block;
Two parallel cartridge heaters 22, 22 are embedded inside a good thermal conductor such as aluminum. Spiral grooves 23 and 24 are formed on the upper and lower surfaces of the heat generating block 21, respectively.
One ends 23a and 24a of 4 are communicated with each other through a hole 25 that vertically passes through the heat generating Glock 21. 26 is a soil block that covers the upper surface of the heat generating block 21;
&C, and is fixed to the heat generating block 21 while being kept airtight. A hole 28 whose one end communicates with the other end 23b of the groove 23 is formed inside the upper block 26, and the other end of this hole 28 is equipped with a pressurized water injection device (not shown) such as a pump.
A female pipe thread portion 28a is formed for communicating and connecting to the pipe. A lower block 29 covers the lower surface of the heat generating block 21, and is fixed to the heat generating block 21 while being held by an O ring 30. This lower block 29
A downwardly projecting post 31 is provided at the center of the lower block 29, and a plurality of bosses 32 are provided at appropriate positions on the lower surface of the lower block 29 at positions surrounding the middle and b bosses 31.
Bring the lower end of the frame into contact with the frame 33 and fix it with the screw 34. Further, a hole 35 is formed at the center of the lower block 29 and extends upward from the lower end of the post 31, and the upper end of this hole 35 communicates with the other end 24b of the IJ groove 24. Further, this hole 35 has a large diameter inside the pot 31 and forms a spout 36 of the water heating device. A male threaded portion 31a is formed on the outer surface of the boss 31, and an upper female threaded portion 37a of the housing 37 of the coffee brewing device is screwed into the outer surface of the boss 31, so that the housing 37 is attached to the lower side of the lower block 29. This housing 37
A capsule 39 containing coffee powder 38 is inside the lower end of the capsule 39.
The lower end of the capsule/L/39 is held by a holder 40 from below the housing 37. 41 is a holder mounting base for fixing this holder 40. At the center of the interior of the housing 37, a jetting member 42 having a tapered tip with an acute angle is provided facing downward, and a pair of jetting holes 42a are formed in the tapered surface of the jetting member 42. While the capsule/L/39 is being held in the housing 37, a hole is formed in the center of the end by the jetting member 421C. By the way, the above-mentioned ← spout 36
A filter 45 is provided inside K [with a cylindrical filter 43 disposed on the outer periphery and a built-in check valve 44T], and the hot water heated by the heat generating block 21 is passed through the filter 4.
5 and is supplied to the inside of the capsule 39 through the ejection hole 42a of the ejection member 42. A thermostat 46 is attached to the heat generating block 21, and is configured to control the temperature of the heat generating Glock 21.

Next, the operation of the electric water boiler having the above configuration will be explained.

Water pumped from a pressurized water injection device (not included) such as a pump is injected into the hole 28 formed in the upper block 26tC. The water introduced into the hole 28 enters the other end 23b of the groove 23 formed on the surface of the heat generating block 2101 and flows in the groove 23 in a spiral shape. Then, the water flows from one end 23a of the groove 23 to the heat generating block 21 through the hole 25 penetrating the heat generating block 21.
reaches one end 24a of the groove 24 formed on the lower surface of the block 24, flows in the groove 24 in a spiral shape, and flows from the other end 24b of the groove 24 to the lower block 29.
Hole 35f: Guided to the spout 36 through the hole 35f. As described above, in the process in which water flows spirally through the grooves 23 and 24 formed on the upper and lower surfaces of the heat generating block 21, the water absorbs heat from the cartridge heater 22 embedded in the heat generating block 21. It is heated and turned into hot water. As described above, this hot water enters the water inlet 36 of the lower block 29 from the other end 24b of the groove 24, is filtered by the filter 45, and then passes through the spout hole 42a of the spout member 42 at a rate of It is supplied inside, passes through the coffee powder 38, and coffee liquid is extracted.

Effects of the Invention As described above, according to the present invention, grooves are formed on both sides of the heat generating block, the grooves on both sides are made to communicate with each other, and water is flowed from the grooves on one side to the grooves on the other side. In the process of water flowing, the water is heated by nine electric heating elements embedded in the heat generating block, and the length of the groove through which water flows can be made longer than before, and as a result, the water is heated. Moreover, since the groove surrounds the electric heating element provided with the heating block 1CsA from both sides, the heat of the electric heating element can be used efficiently, and the temperature can be stabilized to supply nine hot water.

[Brief explanation of the drawing]

1 and 2 show an embodiment of the present invention,
Fig. 1 is a longitudinal cross-sectional view of a coffee brewing device incorporating an electric water boiler, Fig. 2 is a top view of a heat generating Glock, and Fig. 3 is a longitudinal cross-section of a coffee brewing device incorporating a conventional electric water boiler. It is a diagram. 21...Heat generating block, 22-...Cartridge heater, 23, 24-=-groove, 23a, 24a-fA end, 23b, 24b-"other end, 25-...hole, 26...
・And block, 28...hole, 29...bottom block,
35... hole, 36... spout. Agent Hiroshi Morimoto Omote Figure 1 Ilb, 2tj*, 4t14
31r-;2025...-1L Figure 2

Claims (1)

[Claims] 1. Continuous grooves are formed on both sides of a heat generating block in which an electric heating element is embedded in a good thermal conductor such as aluminum, and one end of these grooves is connected to each other by a hole passing through the heat generating block. The block covering one side of the heat generating block is equipped with a water injection hole that communicates with the other end of the groove on one side of the heat generating block. An electric water boiler equipped with a spout in the covering block that communicates with the other end of the groove on the other side of the heat generating block.