CN220967103U - Milk mixer with waste water tank - Google Patents

Abstract

The utility model discloses a milk mixer with a waste water tank, which comprises a machine body, a liquid heater arranged on the machine body, a water outlet system, the waste water tank and a liquid level sensing mechanism, wherein the input end of the water outlet system is connected with the liquid heater, the output end of the water outlet system is provided with the water outlet mechanism, the waste water tank collects waste water discharged by the water outlet mechanism, and the liquid level sensing mechanism sends out a prompt signal after the liquid level of the waste water tank reaches a preset height. The milk mixer is provided with the waste water tank, the waste water tank is used for collecting waste water discharged by the water outlet mechanism, and when the water level of the waste water tank reaches a preset height, the liquid level sensing mechanism sends out a prompt signal to avoid overflow of the waste water tank. Compared with the prior art, the milk mixer can discharge residual water in a water supply system to the waste water tank through the water outlet mechanism, and the problems that the discharged waste water cannot be recycled and the water cost is increased are solved.

Description

Milk mixer with waste water tank

Technical Field

The utility model relates to the technical field of household appliances, in particular to a milk mixer with a waste water tank.

Background

The existing pumping type milk mixer comprises a machine body, a liquid heater arranged on the machine body and a water outlet system, wherein the input end of the water outlet system is connected with the liquid heater, and the output end of the water outlet system is provided with a water outlet nozzle. The output end of the liquid heater is provided with a temperature sensor, and the control unit of the machine body calculates the heating power of the liquid heater when the liquid heater is started according to the water inlet temperature, the water outlet temperature and the set temperature, so that the water outlet at the first time is the set temperature. Because the pipeline between the instant heating type heater and the water outlet is provided with the waste water which is discharged last time, after a certain time, the water quality can be influenced on one hand, and on the other hand, the water temperature of the actual water is inaccurate.

In order to solve the problems, the prior milk mixer discharges waste water before use, and can be directly discharged through a drinking water port or discharged through a waste water discharge port, and the discharged waste water is not recycled, so that the water cost is high.

Disclosure of Invention

The utility model aims to solve the problem that the waste water discharged by the existing milk mixer is not recycled, so that the water cost is high, and provides a milk mixer with a waste water tank.

In order to achieve the above object, the present utility model adopts the following technical scheme:

The utility model provides a transfer milk ware with waste water tank, includes organism and locates liquid heater, play water system, waste water tank and liquid level sensing mechanism on the organism, the input and the liquid heater of play water system are connected, and the output is equipped with out water mechanism, waste water tank collects out water mechanism exhaust waste water, liquid level sensing mechanism sends prompt signal after the liquid level height reaches the preset height.

The milk mixer is provided with the waste water tank, the waste water tank is used for collecting waste water discharged by the water outlet mechanism, and when the water level of the waste water tank reaches a preset height, the liquid level sensing mechanism sends out a prompt signal to avoid overflow of the waste water tank. Compared with the prior art, the milk mixer can discharge residual water in a water supply system to the waste water tank through the water outlet mechanism, and the problem of high water cost caused by the fact that discharged waste water cannot be recycled is solved.

Further, the water outlet system further comprises a water suction pump, an electromagnetic valve, a water supply pipeline and a drainage pipeline, the water outlet mechanism is provided with a water inlet, a water outlet and a water outlet, the water inlet of the water outlet mechanism is connected with the liquid heater through the water supply pipeline, the water outlet is connected with the wastewater tank through the drainage pipeline, the water suction pump is arranged on the water supply pipeline, and the electromagnetic valve is arranged on the drainage pipeline. The water outlet mouth of this scheme can be respectively through delivery port, outlet drainage, during the use, can be with remaining water through the outlet drainage to the waste water tank after the rethread delivery port go out water, make the quality of water of adjusting milk water or drinking water better, and make the temperature of actual play water more accurate, and the waste water of drainage is retrieved through the waste water tank.

Further, the organism includes base and side casing, and the side casing is connected with the lateral part of base, forms installation space between the lateral wall of side casing and the upside of base, and in the installation space was located to the liquid heater, in the water outlet system was located the side casing, the outer wall of side casing was equipped with the connector, and water outlet mechanism assembled on the connector is equipped with electric control device in the base, liquid level sensing mechanism and electric control device communication connection. The scheme is a concrete structural scheme of the whole milk mixer, in the scheme, a liquid level sensing mechanism is in communication connection with an electric control device, when the liquid level sensing mechanism sends out a prompt signal, the electric control device can control a water suction pump to stop pumping water or control an electromagnetic valve to disconnect a drainage channel, and water level of a waste water tank is prevented from rising continuously, and water overflows from the waste water tank. Simultaneously, through the display screen display prompt message of adjusting the milk ware, remind the user to change the waste water tank.

Preferably, the water outlet mechanism comprises a split box and a water outlet nozzle, the water inlet, the water outlet and the water outlet are arranged on the split box, the water inlet and the water outlet are respectively connected with the liquid heater and the water outlet nozzle through water supply pipelines, and the water outlet is arranged between the water inlet and the water outlet and is connected with the wastewater tank through a water drainage pipeline.

Alternatively, the water outlet mechanism is a water outlet nozzle, the water outlet nozzle comprises a split box, the water inlet, the water outlet and the water outlet are arranged on the split box, the water outlet is positioned between the water inlet and the water outlet, the split box is provided with a baffle wall between the water outlet and the water outlet, the upper side of the baffle wall is provided with a diversion through hole, a drainage channel is formed between the water inlet and the diversion through hole, a water outlet channel is formed between the diversion through hole and the water outlet, the water outlet is positioned on the drainage channel, and the water outlet channel is communicated with the water inlet through the drainage channel. In this scheme, the retaining wall has the effect of blockking to rivers, when the solenoid valve switches on the drain passage, and rivers are discharged through the outlet after getting into the reposition of redundant personnel box, and when solenoid valve disconnection drain passage, the water level in the drain passage rises, to the height that surpasss the retaining wall, can get into the water outlet from the water conservancy diversion passageway, exports from the delivery port. Compared with the scheme of the water outlet mechanism, the scheme integrates the split box onto the water outlet nozzle, so that the pipeline structural design of the water supply system is simplified, and the convenience of assembly can be improved.

Further, the liquid level sensing mechanism comprises a liquid level sensor which is arranged on the upper side of the waste water tank.

Preferably, the liquid level sensor is a resistance type float liquid level switch, the liquid level sensor is arranged on the upper side of the outer wall of the waste water tank, the liquid level sensing mechanism further comprises a floating ball and a mounting bracket, the mounting bracket is arranged in the waste water tank, and the floating ball can longitudinally float through the mounting bracket and is arranged in the waste water tank. When the intelligent water level sensor works, the water source of the waste water tank can continuously rise, the floating ball synchronously rises due to buoyancy, when the floating ball reaches the magnetic flux area sensed by the liquid level sensor, the liquid level sensor sends a prompt signal to the electric control device, the program can stop water outlet, and the display screen of the milk regulator prompts a consumer to replace the water of the waste water tank.

Alternatively, the liquid level sensor is a capacitive liquid level switch, which is arranged on the outer wall of the waste water tank. When the water level reaches the capacitance value sensed by the capacitive proximity switch and changes, the signal is fed back to the electric control device, the program can stop water outlet, and the display screen of the milk regulator prompts a user to replace the water of the waste water tank.

Alternatively, the liquid level sensor is a water level probe. When the water level sensor is used, the water level sensor sends a prompt signal to the electric control device, the program stops water outlet, and the display screen of the milk regulator prompts a user to replace the water of the waste water tank.

Alternatively, the liquid level sensor is an infrared water level probe assembly. When the intelligent milk regulator works, the water level of the waste water tank can continuously rise, when the waste water tank reaches the preset height, the signal fed back by the infrared component reaches the set value, the liquid level sensor sends a prompt signal to the electric control device, the program can stop water outlet, and the display screen of the milk regulator prompts a user to replace the water of the waste water tank.

Further, one side of the lower part of the side shell is provided with a clearance concave position, and the waste water tank is detachably assembled at the clearance concave position.

Drawings

FIG. 1 is an overall schematic view 1 of a milk mixer in accordance with an embodiment I;

FIG. 2 is an exploded schematic view 1 of a milk mixer in accordance with the first embodiment;

FIG. 3 is an exploded view of the milk mixer of the first embodiment 2;

FIG. 4 is an overall schematic view 2 of a milk mixer in accordance with the first embodiment;

FIG. 5 is section A-A of FIG. 4, FIG. 1;

FIG. 6 is section A-A of FIG. 4, FIG. 2;

FIG. 7 is section A-A of FIG. 4, FIG. 3;

FIG. 8 is section A-A of FIG. 4, FIG. 4;

FIG. 9 is a schematic diagram of a milk mixer in accordance with the first embodiment;

FIG. 10 is a sectional view of the cartridge of the second embodiment 1;

FIG. 11 is a sectional view 2 of the flow distribution box in the second embodiment;

FIG. 12 is an overall schematic view of a water distribution nozzle in the second embodiment;

fig. 13 is an exploded view of a water dividing nozzle in the second embodiment.

Description of the reference numerals:

The water tap 1, the split box 2, the lower shell 21, the upper cover 22, the water inlet 211, the water outlet 212, the water outlet 213, the baffle wall 214, the diversion through hole 221, the water discharge channel 23, the water discharge channel 24, the convex wall 222, the outer shell 3, the milk mixer 4, the machine body 40, the liquid heater 5, the water discharge system 6, the water pump 61, the electromagnetic valve 62, the water supply pipeline 63, the water discharge pipeline 64, the base 41, the side shell 42, the installation space 43, the connection port 44, the wastewater tank 45, the liquid level sensing mechanism 46, the resistance type float liquid level switch 461, the float 462, the installation bracket 463, the electric control device 47 and the empty-keeping concave 48.

Detailed Description

The following further describes the technical scheme of the utility model according to the attached drawings:

In the description of the present utility model, it should be understood that the directions or positional relationships indicated by the "upper", "lower", "left", "right", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present utility model and simplifying the description, and do not indicate or imply that the devices or elements referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus should not be construed as limiting the present utility model.

Embodiment one:

Referring to fig. 1-8, the embodiment discloses a milk mixer 4 with a waste water tank, which comprises a machine body 40, a liquid heater 5 arranged on the machine body 40, a water outlet system 6, a waste water tank 45 and a liquid level sensing mechanism 46, wherein the input end of the water outlet system 6 is connected with the liquid heater 5, the output end is provided with the water outlet mechanism, the waste water tank 45 collects waste water discharged by the water outlet mechanism, and when the liquid level reaches a preset height, the liquid level sensing mechanism 46 sends out a prompt signal.

The water outlet system 6 further comprises a water suction pump 61, an electromagnetic valve 62, a water supply pipeline 63 and a drainage pipeline 64, wherein the water outlet mechanism is provided with a water inlet 211, a water outlet 212 and a water outlet 213, the water inlet 211 of the water outlet mechanism is connected with the liquid heater 5 through the water supply pipeline 63, the water outlet 212 is connected with the waste water tank 45 through the drainage pipeline 64, the water suction pump 61 is arranged on the water supply pipeline 63, and the electromagnetic valve 62 is arranged on the drainage pipeline 64. The water outlet nozzle 1 of this scheme can be respectively through delivery port 213, outlet 212 play water, during the use, can be with remaining water through outlet 212 drain to waste water tank 45 after the rethread delivery port 213 play water, make the quality of adjusting milk water or drinking water better, and make the temperature of actual play water more accurate, and the waste water of drainage passes through waste water tank 45 recycle.

The body 40 includes a base 41 and a side casing 42, the side casing 42 is connected with the side of the base 41, an installation space 43 is formed between the side wall of the side casing 42 and the upper side of the base 41, the liquid heater 5 is arranged in the installation space 43, the water outlet system 6 is arranged in the side casing 42, a connection port 44 is arranged on the outer wall of the side casing 42, the water outlet mechanism is assembled on the connection port 44, an electric control device 47 is arranged in the base 41, and the liquid level sensing mechanism 46 is in communication connection with the electric control device 47. The scheme is a concrete structural scheme of the whole milk mixer 4, in the scheme, a liquid level sensing mechanism 46 is in communication connection with an electric control device 47, when the liquid level sensing mechanism 46 sends out a prompt signal, the electric control device 47 can control a water suction pump 61 to stop pumping water or control an electromagnetic valve 62 to disconnect a drainage channel 23, so that the water level of a waste water tank 45 is prevented from continuously rising, and water overflows from the waste water tank 45.

To facilitate replacement of the waste water tank 45, a space-avoiding recess 48 is provided at one side of the lower portion of the side housing 42, and the waste water tank 45 is detachably mounted at the space-avoiding recess 48.

The water outlet mechanism comprises a split box 2 and a water outlet nozzle 1, wherein a water inlet 211, a water outlet 212 and a water outlet 213 are formed in the split box 2, the water inlet 211 and the water outlet 213 are respectively connected with the liquid heater 5 and the water outlet nozzle 1 through water supply pipelines 63, and the water outlet 212 is formed between the water inlet 211 and the water outlet 213 and is connected with the wastewater tank 45 through a water drainage pipeline 64.

The liquid level sensing mechanism 46 includes a liquid level sensor provided on the upper side of the waste water tank 45.

As a preferable solution of the liquid level sensor, the liquid level sensor is a resistance type float liquid level switch 461, the liquid level sensor is disposed on the outer wall of the waste water tank 45, the liquid level sensing mechanism 46 further comprises a float ball 462 and a mounting bracket 463, the mounting bracket 463 is disposed on the waste water tank 45, and the float ball 462 is longitudinally floatably disposed in the waste water tank 45 through the mounting bracket 463. When the water level sensor works, the water source of the waste water tank can continuously rise, the floating ball synchronously rises due to buoyancy, when the water level sensor senses a magnetic flux area, the signal feedback electric control device 47 stops water outlet, and the display screen of the milk regulator 4 prompts a consumer to replace water of the waste water tank 45.

As a second preferred solution of the liquid level sensor, the liquid level sensor is a capacitive liquid level switch, which is provided on the outer wall of the waste water tank 45. When the water level reaches the capacitance value sensed by the capacitive proximity switch and changes, the signal is fed back to the electric control device 47, the program stops water outlet, and the display screen of the milk regulator 4 prompts the user to replace the water in the waste water tank 45.

As a third preferred embodiment of the liquid level sensor, the liquid level sensor is a water level probe. When the water level rises, the water source of the waste water tank continuously rises, and when the water level reaches the water level probe, the signal feedback electric control device 47 stops water outlet, and the display screen of the milk regulator prompts a user to replace the water of the waste water tank 45.

As a fourth preferred solution of the liquid level sensor, the liquid level sensor is an infrared water level probe assembly. When the milk dispenser works, the water level of the waste water tank 45 can continuously rise, when the water level reaches the preset height, the signal fed back by the infrared component reaches the set value, the electric control device 47 controls the liquid heater to stop water outlet, and the display screen of the milk dispenser 4 prompts a user to replace the water of the waste water tank 45.

The water supply pipe 63 is provided with a temperature sensor (not shown) at the output end of the suction pump 61, and the thermometer is an NTC sensor.

The water supply pipe 63 is provided with a flowmeter (not shown) at the output end of the water pump 61, and the flowmeter is a high temperature resistant flowmeter.

The milk mixer 4 of this embodiment is equipped with waste water tank 45, and waste water tank 45 is used for collecting the waste water of water outlet mechanism discharge, and when waste water tank 45's water level reaches the preset height, liquid level sensing mechanism 46 sends the prompt signal, avoids the problem of waste water tank 45 overflow. Compared with the prior art, the milk mixer 4 can discharge the residual water in the water supply system to the wastewater tank 45 through the water outlet mechanism, and solves the problem of resource waste caused by the fact that the discharged wastewater cannot be recycled.

Embodiment two:

Referring to fig. 8 to 13, this embodiment differs from the first embodiment in that: the water outlet mechanism is a water outlet nozzle 1, the water outlet nozzle 1 comprises a diversion box 2, a water inlet 211, a water outlet 212 and a water outlet 213 are formed in the diversion box 2, the water outlet 212 is located between the water inlet 211 and the water outlet 213, a baffle wall 214 is arranged between the water outlet 212 and the water outlet 213, a water guide through hole 221 is formed between the baffle wall 214 and the upper side of the inner cavity of the diversion box 2, a water drainage channel 23 is formed between the water inlet 211 and the water outlet 212, a water outlet channel 24 is formed between the water guide through hole 221 and the water outlet 213, and the water outlet channel 24 is communicated with the water inlet 211 through the water drainage channel 23. In this scheme, the blocking wall 214 has a blocking effect on water flow, when the electromagnetic valve 62 is conducted with the water drain channel 23, the water flow is discharged through the water drain 212 after entering the diversion box 2, when the electromagnetic valve 62 is disconnected with the water drain channel 23, the water level in the water drain channel 23 rises to a height exceeding the blocking wall 214, and the water can enter the water outlet channel 24 from the diversion channel and be output from the water outlet 213.

The blocking wall 214 is inclined to one side of the drain port 212. In this embodiment, when the water flows to the water outlet channel 24 through the flow guiding opening 221, the water flows downward to the water outlet 213 along the blocking wall 214.

The above-mentioned flow dividing box 2 includes a lower case 21 and an upper cover 22, the upper side of the lower case 21 is opened, the upper cover 22 closes the opening, and a blocking wall 214 is integrally formed with the lower case 21. The convex wall 222 of the present embodiment has blocking and buffering effects on water flow, and during actual manufacturing, the height of the convex wall 222 is designed to be greater than the height of the diversion through hole 221, so that water flow is prevented from entering the water outlet channel 24 directly through the diversion through hole 221 after exiting the water nozzle 1 from the water inlet 211.

In order to further enhance the buffering effect, a height difference is provided between the bottom of the water outlet channel 24 and the bottom of the water outlet channel 23, so that the bottom of the water outlet channel 23 forms a sinking platform 215.

To simplify the structural design of the cartridge 2, the blocking wall 214 is formed by the height difference between the bottom of the water outlet channel 24 and the water discharge channel 23.

The water outlet nozzle 1 further comprises an outer shell 3, and the outer shell 3 is covered outside the split box 2. The outer shell 3 of this scheme has the isolation effect to reposition of redundant personnel box 2, when avoiding the user to use, touches water outlet nozzle 1. The outer shell 3 of this scheme has the isolation effect to reposition of redundant personnel box 2, when avoiding the user to use, touches water outlet nozzle 1.

In the present specification, each embodiment is described in a progressive manner, and each embodiment is mainly described in a different point from other embodiments, and identical and similar parts between the embodiments are all enough to refer to each other. Variations and modifications to the above would be obvious to persons skilled in the art to which the utility model pertains from the foregoing description and teachings. Therefore, the utility model is not limited to the specific embodiments disclosed and described above, but some modifications and changes of the utility model should be also included in the scope of the claims of the utility model. In addition, although specific terms are used in the present specification, these terms are for convenience of description only and do not limit the present utility model in any way.

Claims (10)

1. A milk mixer (4) with a waste water tank (45), characterized in that: the device comprises a machine body (40) and a liquid heater (5), a water outlet system (6), a wastewater tank (45) and a liquid level sensing mechanism (46) which are arranged on the machine body (40), wherein the input end of the water outlet system (6) is connected with the liquid heater (5), the output end of the water outlet system is provided with a water outlet mechanism, the wastewater tank (45) is used for collecting wastewater discharged by the water outlet mechanism, and the liquid level sensing mechanism (46) is used for sending a prompt signal after the liquid level of the wastewater tank (45) reaches a preset height.

2. The milk mixer (4) according to claim 1, characterized in that: the water outlet system (6) further comprises a water suction pump (61), an electromagnetic valve (62), a water supply pipeline (63) and a water discharge pipeline (64), the water outlet mechanism is provided with a water inlet (211), a water outlet (212) and a water outlet (213), the water inlet (211) of the water outlet mechanism is connected with the liquid heater (5) through the water supply pipeline (63), the water outlet (212) is connected with the wastewater tank (45) through the water discharge pipeline (64), the water suction pump (61) is arranged on the water supply pipeline (63), and the electromagnetic valve (62) is arranged on the water discharge pipeline (64).

3. The milk mixer (4) according to claim 1, characterized in that: the machine body (40) further comprises a base (41) and a side shell (42), the side shell (42) is connected with the side part of the base (41), an installation space (43) is formed between the side wall of the side shell (42) and the upper side of the base (41), the liquid heater (5) is arranged in the installation space (43), the water outlet system (6) is arranged in the side shell (42), a connecting port (44) is arranged on the outer wall of the side shell (42), the water outlet mechanism is assembled on the connecting port (44), an electric control device (47) is arranged in the base (41), and the liquid level sensing mechanism (46) is in communication connection with the electric control device (47).

4. The milk mixer (4) according to claim 2, characterized in that: the water outlet mechanism comprises a split box (2) and a water outlet nozzle (1), wherein the water inlet (211), a water outlet (212) and a water outlet (213) are formed in the split box (2), the water inlet (211) and the water outlet (213) are respectively connected with the liquid heater (5) and the water outlet nozzle (1) through water supply pipelines (63), and the water outlet (212) is formed between the water inlet (211) and the water outlet (213) and connected with the wastewater tank (45) through drainage pipelines (64).

5. The milk mixer (4) according to claim 2, characterized in that: the water outlet mechanism is a water outlet nozzle (1), the water outlet nozzle (1) comprises a water inlet box (2), a water outlet (211) and a water outlet (213) are formed in the water outlet box (2), the water outlet (212) is located between the water inlet (211) and the water outlet (213), the water outlet box (2) is provided with a baffle wall (214) between the water outlet (212) and the water outlet (213), a water guide through hole (221) is formed in the upper side of the baffle wall (214), a water drainage channel (23) is formed between the water inlet (211) and the water guide through hole (221), a water outlet channel (24) is formed between the water guide through hole (221) and the water outlet (213), and the water outlet (212) is located on the water drainage channel (23), and the water outlet channel (24) is communicated with the water inlet (211) through the water drainage channel (23).

6. The milk mixer (4) according to claim 1, characterized in that: the liquid level sensing mechanism (46) comprises a liquid level sensor which is arranged on the upper side of the wastewater tank (45).

7. The milk mixer (4) according to claim 6, characterized in that: the liquid level sensor is a resistance type float liquid level switch (461), the liquid level sensor is arranged on the outer wall of the wastewater tank (45), the liquid level sensing mechanism (46) further comprises a floating ball (462) and a mounting bracket (463), the mounting bracket (463) is arranged in the wastewater tank (45), and the floating ball (462) is longitudinally floatably arranged in the wastewater tank (45) through the mounting bracket (463).

8. The milk mixer (4) according to claim 6, characterized in that: the liquid level sensor is a capacitive liquid level switch.

9. The milk mixer (4) according to claim 6, characterized in that: the liquid level sensor is a water level probe; or, the liquid level sensor is an infrared water level probe assembly.

10. A milk mixer (4) according to claim 3, characterized in that: one side of the lower part of the side shell (42) is provided with a clearance concave position (48), and the wastewater tank (45) is detachably assembled at the clearance concave position (48).