EP3757490A1 - Temperature display and temperature control apparatus - Google Patents

Abstract

A temperature display and temperature control arrangement is specified, in particular for use in a refrigerator (100), comprising: a light source (101) which is provided in a compartment of the refrigerator (100) and has a lighting mode, a temperature display mode and a temperature control mode, one in the Compartment of the refrigerator (100) provided sensor (102), which can detect an actuation by the user and can input an actuation signal connected to the actuation by the user to a control unit (106), the control unit (106) in connection with the light source ( 101) and the sensor (102) and can control the operating mode of the light source (101), the control unit (106) being designed to control the light source (101) so that it changes to the lighting mode when a door of the Refrigerator (100) is open to control the light source (101) so that it changes to the temperature display mode when the sensor (102) an ers te the temperature-requesting actuation by the user recognizes to control the light source (101) so that it changes to the temperature control mode when the sensor (102) detects a second temperature-regulating actuation by the user to control the light source (101) control that it changes to the lighting mode if the sensor (102) does not detect any operation by the user within a predetermined period of time, and to control the light source (101) so that it switches off when the door of the refrigerator (100) is closed becomes.

Description

The present invention relates to a temperature display and temperature control arrangement, particularly for use in a refrigerator.

A refrigerator is a well-known household appliance. In an existing refrigerator design, it is common to provide a user interface at the top of the front of the refrigerator. Fig. 1 shows a schematic view of a known refrigerator. Fig. 2 shows schematically a circuit connection of the refrigerator of FIG Fig. 1. Fig. 3 FIG. 11 schematically shows a wiring of the refrigerator of FIG Fig. 1 .

In Fig. 1 a refrigerator 1 is provided with a door 2. If the door 2 is open, a user interface 3 provided on top of the refrigerator 1 is visible. The user interface 3 is able to display the current temperature in a compartment 4 of the refrigerator 1, and is provided with control buttons with which a user can set the temperature in the compartment 4.

How out Figs. 2 and 3 As can be seen, the refrigerator 1 further comprises a light source 5 for illuminating the compartment 4, a temperature sensor 6 for measuring a temperature in the compartment 4, a door sensor 7 intended to detect opening and closing of the door 2 for switching the user interface 3 on and off, a compressor 8 which is located at the bottom of the refrigerator 1 for cooling the refrigerator 1, and a plug 9 which can be connected to a socket in order to supply the refrigerator 1 with power. The User interface 3 is integrated into a control unit which is designed to control the operation of each element.

In the refrigerator 1, a cable harness leads from the plug 9 to the control unit with its user interface 3. The cable harness branching off from the control unit is also connected to the lamp 5, the temperature sensor 6, the door sensor 7 and the compressor 8, respectively. Since the compressor 8 is located at the bottom at the rear of the refrigerator 1, while the control unit is located at the top at the front of the refrigerator 1, the wiring harness connecting the compressor 8 and the control unit must be designed to be long, which results in high costs.

In daily use of the refrigerator 1, the temperature of the refrigerator 1 is not changed very often. Rather, once the user has set the temperature in the refrigerator, the temperature in many cases (e.g. when used in a hotel or a vehicle) no longer changes during the entire service life of the refrigerator 1. The user interface 3, which causes high costs, is not operated very frequently.

It is an object of the present invention to provide a temperature display and control arrangement which is capable of reducing costs.

According to the invention, the object is achieved by a temperature display and temperature control arrangement, in particular for use in a refrigerator, comprising: a light source provided in a compartment of the refrigerator, which has a lighting mode, a temperature display mode and a temperature control mode, a sensor provided in the compartment of the refrigerator, which can recognize an actuation by a user and output an actuation signal connected to the actuation by the user to a control unit, the control unit being connected to the light source and the sensor and being able to control the operating mode of the light source, the control unit being designed to use the To control the light source so that this changes to the lighting mode when a door of the refrigerator is open to control the light source so that it changes to the temperature display mode when the sensor detects a first actuation requesting the temperature by the user, to control the light source so that this changes to the temperature control mode when the sensor detects a second temperature-regulating actuation by the user, to control the light source so that it changes to the lighting mode if the sensor detects no actuation by the user within a predetermined period of time, and the light source so to control that it turns off when the refrigerator door is closed.

The control unit is preferably provided adjacent to a compressor of the refrigerator.

The sensor preferably comprises a light sensor and / or a touch sensor.

The first actuation preferably comprises tapping the sensor for a first predetermined period of time.

The second actuation preferably comprises briefly tapping the sensor as often as corresponds to the setpoint temperature regulated by the user. The sensor is tapped as often as the value of the target temperature is.

The first actuation preferably comprises tapping the sensor twice, briefly and long.

In the temperature display mode, the light source preferably shows the current temperature in the compartment by flashing; If the compartment is a cold compartment, the light source flashes briefly as often as corresponds to the temperature value of the cold compartment; If the compartment is a freezer compartment, the light source flashes once long, then briefly as often as corresponds to the units digit of the temperature value of the freezer compartment. The number of sent short light signals when flashing corresponds to the value of the target temperature of the refrigeration compartment. In the case of the freezer compartment, the short light signals following a long light signal when flashing correspond to the amount of the ones digit of the temperature value. The long light signal stands for the tens of the temperature value.

In the temperature control mode, the light source preferably outputs a message signal for changing to the temperature control mode and then indicates the setpoint temperature in the compartment by flashing; If the compartment is a cold compartment, the light source flashes briefly several times according to the target temperature value of the cold compartment; If the compartment is a freezer compartment, the light source flashes once for a long time, then briefly as often as it corresponds to the units digit of the target temperature value of the freezer compartment. The number of short light signals sent out when flashing corresponds to the value of the target temperature of the refrigeration compartment. In the case of the freezer compartment, the short light signals following a long light signal when flashing correspond to the amount of the ones digit of the temperature value. The long light signal stands for the tens of the temperature value.

The message signal is preferably darker and then lighter.

Preferably, the light source comprises a colored light source, and the notification signal changes the color of the colored light source.

Preferably the light source comprises an infrared light source and the sensor comprises an infrared light sensor.

Preferably the compartment is a first compartment and the refrigerator further comprises a second compartment, wherein the actuation by the user comprises a third actuation requesting the temperature of the second compartment, the control unit controlling the light source so that it is the current temperature of the second compartment when the user performs the third operation.

Fig. 1

eine schematische Ansicht eines bekannten Kühlschranks,

Fig. 2

schematisch eine Schaltverbindung des bekannten Kühlschranks aus Fig. 1,

Fig. 3

schematisch eine Verdrahtung des bekannten Kühlschranks aus Fig. 1,

Fig. 4

schematisch eine erste Ausgestaltung der vorliegenden Erfindung,

Fig. 5

schematisch eine Verdrahtung der ersten Ausgestaltung der vorliegenden Erfindung,

Fig. 6

schematisch eine Betätigung bei der ersten Ausgestaltung der vorliegenden Erfindung,

Fig. 7

schematisch eine zweite Ausgestaltung der vorliegenden Erfindung,

Fig. 8

schematisch eine Betätigung einer dritten Ausgestaltung der vorliegenden Erfindung,

Fig. 9

schematisch die Temperaturregelschritte der ersten Ausgestaltung der vorliegenden Erfindung.

The present disclosure is described below with reference to the accompanying drawings, which show several embodiments of the present disclosure. It is understood, however, that the present disclosure can be presented in several different ways and is not limited to the embodiments described below. In fact, the embodiments described below are intended to make the disclosure of the present disclosure more complete and to sufficiently explain the scope of protection of the present disclosure to a person skilled in the art. It is also understood that the embodiments disclosed herein can be combined in various ways in order to offer more additional embodiments. In addition, the accompanying drawings, which only show the configurations schematically, are not necessarily drawn to scale. In the accompanying drawings show:

Fig. 1

a schematic view of a known refrigerator,

Fig. 2

schematically shows a circuit connection of the known refrigerator Fig. 1 ,

Fig. 3

schematically shows a wiring of the known refrigerator Fig. 1 ,

Fig. 4

schematically a first embodiment of the present invention,

Fig. 5

schematically a wiring of the first embodiment of the present invention,

Fig. 6

schematically an actuation in the first embodiment of the present invention,

Fig. 7

schematically a second embodiment of the present invention,

Fig. 8

schematically an actuation of a third embodiment of the present invention,

Fig. 9

schematically the temperature control steps of the first embodiment of the present invention.

It should be understood that the same reference numbers represent the same elements in all of the accompanying drawings. The wording in the description only serves to describe specific configurations and is not intended to restrict the present disclosure. Unless otherwise defined, all terms used in the description (including technical terms and scientific terms) have the meaning as normally understood by a person skilled in the art. For the sake of brevity and / or accuracy, known functions or constructions may not be described again in detail.

Fig. 4 shows schematically a first embodiment. Fig. 5 shows schematically a wiring in a first embodiment. Fig. 6 shows schematically an actuation in a first embodiment. Fig. 9 shows schematically the temperature control steps in a first embodiment.

How out Figures 4 to 6 As can be seen, a light source 101, a light sensor 102, a temperature sensor 103 and a door sensor 104 are provided in the compartment of the refrigerator 100. A compressor 105, a control unit 106, and a connector 107 are provided at the bottom of the rear of the refrigerator 100. The control unit 106 is connected to the light source 101, the light sensor 102, the temperature sensor 103 and the door sensor 104 via the cable harness 108. With such a structure, the user interface required in a conventional refrigerator is eliminated, so that the number of parts is reduced and costs are reduced. Preferably, the control unit 106 is disposed adjacent to the compressor 105 in order to shorten the length of the required wiring harness 108 and make wiring easy, thereby further reducing the cost and manufacturing is simplified. Alternatively, the control unit 106 can also be integrated together with the light source 101 and / or the light sensor 102, instead of these being connected to one another with the aid of a cable harness 108.

The temperature display and control arrangement comprises a light source 101, a light sensor 102 and a control unit 106. The light source 101 is arranged on a side wall of the compartment. The light source 101 comprises a multiplicity of lamps 101a, which emit visible light in the first compartment and illuminate the compartment, provided the door of the refrigerator 100 is open. The light sensor 102 is a visible light sensor located under the light source 101 and placed in the same transparent housing as the light source 101 with an opaque wall 109 provided between the light sensor 102 and the light source 101. The light sensor 102 can detect a change in the amount of light caused by an actuation by the user, and output an actuation signal to the control unit 106.

If the user performs an operation, as in Fig. 6 as shown by, the user can tap the light sensor 102 with a finger F. At this moment, the visible light emitted from the light source 101 is blocked by the finger F, so that the amount of light detected by the light sensor 102 changes markedly. The light sensor 102 outputs such an actuation signal to the control unit 106. The control unit 106 can control an operating mode of the light source according to the operation by the user and according to the operation signals of the door sensor 104 and the light sensor 102. Preferably, the user does not touch the light sensor 102 with his finger, thereby avoiding contamination of the compartment of the refrigerator 100 by the user's finger F and improving the cleaning property.

The modes of operation of the light source 101 include: (1) The lighting mode in which the light source 101 is constantly switched on for lighting purposes. (2) The temperature display mode in which the light source 101 is the current Temperature in the compartment by flashing. Generally, the compartment in the refrigerator 100 is divided into a cold compartment and a freezer compartment. The temperature of the freezer is, for example, 2 to 6 ° C, and the temperature of the freezer is, for example, -15 to -19 ° C. If the temperature of the cold compartment is displayed, the light source 101 flashes briefly as often as it corresponds to the temperature value of the cold compartment. If the temperature of the freezer compartment is displayed, the light source 101 flashes long once and then briefly flashes as often as the units digit corresponds to the temperature of the freezer compartment. If the current temperature in the compartment is 3 ° C., for example, the light source 101 flashes three times briefly. If the current temperature in the compartment is -16 ° C, the light source 101 flashes long once and then flashes briefly six times. (3) The temperature control mode in which the light source 101 displays a target temperature in the compartment of the refrigerator 100. When changing to the temperature control mode, the light source 101 first sends an indication signal to the user to change to the temperature control mode (e.g. it gets darker before it gets light) and then informs the user that the temperature of the compartment needs to be controlled by similarly to flashes in temperature display mode.

It goes without saying that the display signal for changing to the temperature control mode, which is sent from the light source 101, can be changed by those skilled in the art as necessary. As described above, the light source 101 as such a display signal first becomes darker and then bright. However, it is also possible to use, for example, a colored light source 101 and to use a color change of the light source 101 as such a display signal.

The actuation by the user comprises a first actuation to retrieve the temperature at which the user touches the light sensor 102 with a finger for a predetermined period of time (e.g. three seconds) when the light sensor 102 is sent to the control unit 106 with the first actuation User-connected actuation signal outputs, a second actuation for regulating the temperature, at which the user briefly presses the light sensor 102 several times taps a finger when the light sensor 102 outputs an actuation signal connected to the second actuation by the user to the control unit 106.

In such a process, the user's finger taps the light sensor 102 briefly as often as corresponds to the setpoint temperature to be regulated by the user. For example, if the current temperature in the compartment is 3 ° C and the user intends to regulate it to 5 ° C, the user taps the sensor 102 briefly twice. If the current temperature in the compartment is -16 ° C and the user intends to regulate it to -15 ° C, the user taps the light sensor 102 four times (i.e. -16. ° C to -19 ° C and then further to - 15 ° C) briefly. It goes without saying that the first actuation and the second actuation are predetermined. The above description of the first actuation by the user is only exemplary. It is easily conceivable for those skilled in the art that a different first actuation can be determined with a preset program. It has been described above that a first actuation must be tapped for a first predetermined period of time (e.g. three seconds). However, it is also possible to tap a specified number of times (e.g. three times) as the first actuation or to tap twice as the first actuation, once briefly and once long.

The temperature regulating steps according to the first embodiment of the present disclosure are described below with reference to FIG Fig. 9 described. If the door sensor 104 detects that the door is open (S101), the control unit 106 controls the light source 101 so that it switches to the lighting mode (S102). The light sensor 102 then continuously detects whether the user is performing the first actuation (S103). If the user does not perform the first operation (No in S103), the light source 101 is always in the lighting mode (S102). If the user performs the first operation (Yes in S103), the control unit 106 controls the light source 101 so that it changes to the temperature display mode (S104). The light sensor 102 then detects whether the user has made the first actuation within a predetermined period of time (e.g. 20 seconds) performs (S103). If the user does not perform the second actuation within a predetermined period of time (No in S105), the control unit 106 controls the light source 101 so that it returns to the lighting mode (S102). If the user performs the second actuation (Yes in S105), the control unit 106 controls the light source 101 so that it changes to the temperature control mode (S106). If, in the temperature control mode, the temperature indicated by the light source 101 by flashing does not correspond to the temperature to be controlled by the user, the user can repeat the second actuation (Yes in S105) until the temperature indicated by the light source 101 by flashing which corresponds to the temperature to be regulated by the user. If the light sensor 102 cannot detect the actuation by the user within a predefined period of time (for example twenty seconds), the temperature control process is continued with S107. In S107, the control unit 106 controls the light source 101 to return to the lighting mode, and at the same time, the control unit 106 controls the operation of the compressor 105 so that the temperature in the compartment is regulated to the temperature set by the user, and thus is the temperature control of the refrigerator 100 ends. If the door is closed, the control unit 106 controls the light source 101 in such a way that it switches off.

The conventional user interface is omitted due to the temperature control steps of the temperature display and temperature control arrangement. It is still possible for the user to query and set the temperature in the compartment. Compared to the conventional user interface, the present invention significantly reduces costs. In addition, this configuration is particularly useful in certain cases (e.g. in a hotel or a vehicle) because in these cases the user only sets the temperature of the compartment once during the entire life of the refrigerator. In addition, an unintentional change in temperature, for example by a hotel guest, is largely excluded.

Those skilled in the art can modify the above temperature control steps as needed. For example, a refrigerator that has two compartments (e.g. a cold compartment and a freezer compartment), the third operation can also be set in advance by the user. When the user performs the first operation, the light source 101 displays the current temperature of the first compartment, and when the user performs the third operation, the light source 101 displays the current temperature of the second compartment.

Fig. 7 shows schematically a second embodiment of the present invention. The second embodiment differs from the first embodiment in that the light source 201 is arranged on the upper wall of the compartment and the light sensor 202 and the temperature sensor 203 are both arranged on the side wall of the compartment. Among other things, the operating mode and the temperature control mode of the second embodiment are identical to those of the first embodiment. It is also conceivable that the positions of the light source 201 and the light sensor 202 are not limited thereto. The positions of the light source 201 and the light sensor 202 may be different as needed. For example, the light source 201 can be on the side wall while the light sensor 202 is on the top wall.

Fig. 8 shows schematically an actuation in a third embodiment of the present invention. The third embodiment differs from the first embodiment in that the light source 301 and the light sensor 302 in the third embodiment are each different from the light source 101 and the light sensor 102 in the first embodiment. The light source 301 includes a plurality of visible light sources 301a and an infrared light source 301b. The infrared light source 301b is closest to the light sensor 302 in the light source 301 and is separated from the light sensor 302 by a wall 309 which is impermeable to infrared light. The light sensor 302 is an infrared light sensor. When the light source 301 has been turned on and the user does not perform any operation, the visible light emitted from the visible light source 301a is used for illumination, the infrared light emitted from the infrared light source 301b is absorbed by the inner wall of the compartment, and the light sensor 302 receives less Infrared light. If the user taps the light sensor 302, the finger reflects this from the Infrared light source 301b emitted infrared light to the light sensor 302, so that the infrared light received by the light sensor 302 changes markedly, thereby achieving the same operating effect as in the first embodiment.

Although the light sensor has been described as an example of the above sensor, the light sensor in the first to third embodiments can also be replaced by a touch sensor, such as a capacitive touch sensor, a piezoelectric touch sensor or an inductive touch sensor. When the touch sensor is operated by the user (e.g., the first operation by tapping the touch sensor for a predetermined period of time and the like), the same effect as the embodiment described above can be obtained.

It goes without saying that changes and modifications to the exemplary embodiments of the present invention are possible without substantially departing from the spirit and scope of the present invention. Accordingly, all changes and modifications are included within the scope of the present invention as defined in the claims. The present invention is defined by the appended claims and the equivalents of those claims are included therein.

Claims (12)

Temperature display and temperature control arrangement, in particular for use in a refrigerator (100), comprising: a light source (101) provided in a compartment of the refrigerator (100), which has a lighting mode, a temperature display mode and a temperature control mode, a sensor (102) provided in the compartment of the refrigerator (100) which can detect an actuation by the user and can input an actuation signal connected to the actuation by the user to a control unit (106), wherein the control unit (106) is in connection with the light source (101) and the sensor (102) and can control the operating mode of the light source (101), characterized in that the control unit (106) is designed to control the light source (101) such that it changes to the lighting mode when a door of the refrigerator (100) is open, to control the light source (101) such that it changes to the temperature display mode when the sensor (102) detects a first actuation by the user requesting the temperature, to control the light source (101) in such a way that it changes into the temperature control mode when the sensor (102) detects a second actuation by the user to regulate the temperature, to control the light source (101) in such a way that it changes to the lighting mode if the sensor (102) does not detect any actuation by the user within a predetermined period of time, and to control the light source (101) so that it switches off when the door of the refrigerator (100) is closed. Temperature display and temperature control arrangement according to claim 1, wherein the control unit (106) is provided adjacent to a compressor (105) of the refrigerator (100). Temperature display and temperature control arrangement according to claim 1 or 2, wherein the sensor (102) comprises a light sensor and / or a touch sensor. Temperature display and temperature control arrangement according to one of the preceding claims, wherein the first actuation comprises tapping the sensor (102) for a first predetermined period of time. Temperature display and temperature control arrangement according to one of the preceding claims, wherein the second actuation comprises tapping the sensor (102) briefly as often as corresponds to the setpoint temperature controlled by the user. Temperature display and temperature control arrangement according to one of the preceding claims, wherein the first actuation comprises tapping the sensor (102) twice, short and long. Temperature display and temperature control arrangement according to one of the preceding claims, wherein the light source (101) in the temperature display mode displays the current temperature in the compartment by flashing; If the compartment is a cold compartment, the light source (101) flashes briefly as often as it corresponds to the temperature value of the cold compartment; If the compartment is a freezer compartment, the light source (101) flashes once for a long time, then briefly as often as corresponds to the units digit of the temperature value of the freezer compartment. Temperature display and temperature control arrangement according to one of the preceding claims, wherein the light source (101) in the temperature control mode a message signal for changing to Outputs temperature control mode and then flashes the target temperature in the compartment; If the compartment is a cold compartment, the light source (101) flashes briefly as often as it corresponds to the target temperature value of the cold compartment; If the compartment is a freezer compartment, the light source (101) flashes once for a long time, then briefly as often as it corresponds to the ones digit of the setpoint temperature value of the freezer compartment. A temperature display and control arrangement as claimed in claim 8, wherein the notification signal becomes darker and then lighter. Temperature display and temperature control arrangement according to claim 8 or 9, wherein the light source (101) comprises a colored light source and the notification signal changes the color of the colored light source. Temperature display and temperature control arrangement according to one of the preceding claims, wherein the light source (101) comprises an infrared light source and the sensor (102) comprises an infrared light sensor. A temperature display and temperature control arrangement according to any one of the preceding claims, wherein the compartment is a first compartment and the refrigerator (100) further comprises a second compartment, wherein the actuation by the user comprises a third actuation requesting the temperature of the second compartment, wherein the control unit ( 106) controls the light source (101) so that it displays the current temperature of the second compartment when the user carries out the third actuation.

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