CN203244296U - Stirring machine - Google Patents

Abstract

A stirring machine comprises a base body and a cup body arranged on the base body. The base body comprises a host and a circuit module group connecting with the host, wherein the host comprises a drive module group, a stirring module group connecting with the drive module group and a heating module group; the host is provided with a combination switch; the combination switch comprises a heat transferring probe, temperature-sensitive components connecting with the heat transferring probe and a micro-switch; the temperature-sensitive components and the micro-switch are respectively electrically connected with the circuit module group; when the cup body is placed on the base body, the cup body is abutted against one lateral side of the heat transferring probe, thereby driving the heat transferring probe to start the micro-switch and to transmit heat of the cup body to the temperature-sensitive components; and when a cup body temperature surpasses a preset value, the circuit module group is disconnected under a control of the temperature-sensitive assembly. The stirring machine integrates the micro-switch with heat probe by arranging combination switch connecting temperature-sensitive components of heat transferring probe with micro-switch, thereby simplifying stirring machine structure and reducing manpower cost.

Description

Mixer

Technical field

The utility model relates to a kind of kitchen appliance, particularly relates to a kind of mixer.

Background technology

Mixer in the market often arranges microswitch by the bottom at cup, when the cup of the liquid of packing into is being put on the main frame, to start heater and the agitating device of main frame, then the side at cup arranges a heat probe, main control system stopped heating when reaching setting value with the temperature that detects cup continues follow-up stirring action.Yet this microswitch and heat probe are installed respectively comparatively loaded down with trivial details, and the simple production theory of inapplicable manufacturing has increased manufacturing cost and assembling manpower.

The utility model content

Based on this, the purpose of this utility model provides a kind of microswitch and the integrated mixer of heat probe.

A kind of mixer, comprise a pedestal and be arranged on cup on this pedestal, this pedestal comprises a main frame and connects the circuit module of this main frame, this main frame comprises that one drives module, the stirring module that connects this driving module, reach a heating module, this main frame is provided with a stacked switch, this stacked switch comprises a heat transfer probe, the temperature-sensitive assembly and the microswitch that connect this heat transfer probe, described temperature-sensitive assembly and microswitch are electrically connected respectively described circuit module, one side of popping one's head in against described heat transfer when described cup is inserted described pedestal is to promote the described microswitch of heat transfer promoter probe, and the heat of cup is passed to described temperature-sensitive assembly disconnects when the cup temperature surpasses preset value to control described circuit module.

Further, described heat transfer probe comprise a contact site against described cup, connect this contact site other end the resettlement section, and connect the pushing part of this resettlement section.

Further, described resettlement section is provided with groove, this temperature-sensitive assembly comprises that one installs heat-conducting block, the thermistor that be connected this heat-conducting block and the spring interior with the groove of described resettlement section, this spring housing is located on this thermistor and is resisted against on the heat-conducting block, when described cup breaks away from described pedestal, thereby promoting described heat transfer probe, this spring disconnects this microswitch away from microswitch.

Further, the contact site of described heat transfer probe is resisted against the sidewall of described cup near the position of bottom.

Further, described heating module comprises a heat-generating disc and the covering between heat-generating disc and cup of being sticked, and this covering is provided with some circular grooves and is sent to equably on the described cup with the heat that this heat-generating disc is produced.

Further, described driving module comprises a motor and connects the rotating turret of motor, described heat-generating disc be around in this rotating turret around, be provided with fixed mount between described heat-generating disc and the motor, be provided with heat insulating mattress between this fixed mount and the motor.

Further, described stirring module is installed in the described cup, comprise that orthogonal the first rotatable lamella and the second rotatable lamella and wear the rotating shaft of this first rotatable lamella and the second rotatable lamella, the rotating turret of described driving module is provided with magnet, and this first rotatable lamella is provided with magnet.

Further, the two ends of described the second rotatable lamella are the dentation setting, establish one with Connection Card and stir spring.

The beneficial effects of the utility model are to have simultaneously the probe that conducts heat by arranging, connect the temperature-sensitive assembly of this heat transfer probe and the stacked switch of microswitch, so that microswitch and heat probe are integrated, have simplified the structure of mixer, have reduced human cost.

Description of drawings

Fig. 1 is the cutaway view of the mixer of the first embodiment of the present utility model.

Fig. 2 is the stereogram of main frame of the mixer of Fig. 1.

Fig. 3 is the inverted view of the main frame of Fig. 2.

Fig. 4 is the cutaway view of the stacked switch of Fig. 2.

Fig. 5 is the enlarged drawing of circle A among Fig. 1.

Fig. 6 is the top view of stirring wheel among Fig. 1.

Fig. 7 is the upward view of the stirring wheel among the second embodiment of the present utility model.

The specific embodiment

For the technical solution of the utility model can more clearly be showed, the utility model is described in further detail below in conjunction with accompanying drawing.

Please refer to Fig. 1 to Fig. 3, the first embodiment mixer of the present utility model comprises that a pedestal 100 and is installed in the cup 900 on this pedestal 100.This pedestal 100 comprise a framework and be arranged on main frame 10 on this framework, circuit module 70, by key control module 80.This main frame 10 comprises that mainly a stacked switch 20, drives module 40, and stirs module 60, reaches a heating module 50.

See also Fig. 4, this stacked switch 20 is used for the electric power control of this mixer and temperature control.This stacked switch 20 comprise one conduct heat probe 21, connect these heat transfer probe 21 1 ends temperature-sensitive assembly 22, and connect the pop one's head in microswitch 26 of 21 other ends of this heat transfer.In the present embodiment, this stacked switch 20 is installed in cup 900 sidewalls near the position of bottom, thereby can detect exactly the temperature of the cup 900 that liquid food is housed.In other embodiments, this stacked switch 20 can be installed in the bottom of cup 900.

This heat transfer probe 21 comprises a contact site 210 against described cup 900 sidewalls, connects the resettlement section 215 of these contact site 210 other ends, reaches the pushing part 217 that connects this resettlement section 215.This contact site 210 is cylindric setting.This resettlement section 215 is provided with groove.Extend from a side of this resettlement section 21 this pushing part 217.This pushing part 217 is connected with described microswitch 26.This microswitch 26 is communicated with described circuit module 70, when being placed on the heat transfer that is squeezed in stacked switch 20 on the pedestal 100, cup 900 pops one's head in (as shown in Figure 4) 21 the time, this heat transfer probe 21 is promoted by cup 900, thereby starts microswitch 26, and then Automatic-heating stirs.

This temperature-sensitive assembly 22 comprises the interior heat-conducting block 23 of the groove of an installation and described resettlement section 215, is connected the thermistor 24 of this heat-conducting block 23, reaches spring 25.This thermistor 24 is communicated with described circuit module 70, and when the temperature that spreads out of when cup 900 was higher than preset temperature, this thermistor 24 played on-off action, temporarily disconnects the heating function of pedestal 100.This spring 25 is set on this thermistor 24 and is resisted against on the heat-conducting block 23.This spring 25 is promoting heat-conducting block 23 transmission of heat by contacts probe 21, and probe 21 stretches out so that microswitch 26 disconnects thereby promote to conduct heat simultaneously when described cup 900 takes out.

Because the Integral design of temperature-sensitive assembly 22 and microswitch 26, all being arranged on the same side of the probe 21 that conducts heat, therefore only need a probe 21 of conducting heat to contact the effect that then can play simultaneously power switch and overtemperature protection with cup 900, simple and practical.

See also Fig. 5, described driving module 40 and heating module 50 place cup 900 belows, and described stirring module 60 places in the cup 900.

This driving module 40 comprises a motor 42 and connects the rotating turret 43 of the rotating shaft of motor 42.This rotating turret 43 is provided with magnet, and this magnet rotates with the rotation of rotating turret 43.Described heating module 50 comprises a heat-generating disc 54 and the covering 55 on heat-generating disc 54 of being sticked.This heat-generating disc 54 be installed in gear frame 43 around.Thereby the heat that this covering 55 and heat-generating disc 54 and cup 900 are sticked heat-generating disc 54 is sent on the cup 900 equably.This covering 55 is provided with some circular grooves, thereby has strengthened heat transfer area.Be provided with fixed mount 540 between described heat-generating disc 54 and the motor 42 to fix this heat-generating disc 54.Be provided with heat insulating mattress 420 between this fixed mount 540 and the motor 42, be provided with the ceramics pole (not shown) between this fixed mount 540 and the heat-generating disc 54.This heat insulating mattress 420 separates heat-generating disc 54 and motor 42 with ceramics pole, avoids the heat effects of heat-generating disc 54 to the normal operation of motor 42.

See also Fig. 6, described stirring module 60 and motor 42 separate type settings.This stirring module 60 comprises orthogonal the first rotatable lamella 61 and the second rotatable lamella 62.The middle part of this first rotatable lamella 61 and the second rotatable lamella 62 wears connection by rotating shaft 64.This rotating shaft 64 embeds the center of described cup 900 hermetically, and correspondence is embedded in the described covering 55.This first rotatable lamella 61 comprises two magnet 63 of being located at rotating shaft 64 both sides, attracts magnet on the described rotating turret 43 with correspondence.Two free ends of described the second rotatable lamella 62 form the dentation breach, establish one with card and stir spring 65.This axis that stirs spring 65 is around described the first rotatable lamella 61 and the second rotatable lamella 62.These stirring spring 65 inner rings are provided with a rotary head steelframe 66.When described motor 42 drove rotating turret 43 rotation, the first rotatable lamella 61 that the magnet on the rotating turret 43 stirs module 60 by the magnetic drive rotates, thereby rotates when control stirring module 60 is isolated, and was simple in structure, safe and reliable.

See also Fig. 7, be the stirring module 60a of the utility model the second embodiment.The difference of the stirring module 60 of this stirring module 60a and the first embodiment is, stirs module 60a and includes only the first rotatable lamella 61a and the second rotatable lamella 62a, does not have the stirring spring 65 among the first embodiment.

The above embodiment has only expressed a kind of embodiment of the present utility model, and it describes comparatively concrete and detailed, but can not therefore be interpreted as the restriction to the utility model claim.Should be pointed out that for the person of ordinary skill of the art without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (8)

1. mixer, comprise a pedestal and be arranged on cup on this pedestal, this pedestal comprises a main frame and connects the circuit module of this main frame, this main frame comprises that one drives module, the stirring module that connects this driving module, reach a heating module, it is characterized in that: this main frame is provided with a stacked switch, this stacked switch comprises a heat transfer probe, the temperature-sensitive assembly and the microswitch that connect this heat transfer probe, described temperature-sensitive assembly and microswitch are electrically connected respectively described circuit module, one side of popping one's head in against described heat transfer when described cup is inserted described pedestal is to promote the described microswitch of heat transfer promoter probe, and the heat of cup is passed to described temperature-sensitive assembly disconnects when the cup temperature surpasses preset value to control described circuit module.

2. mixer according to claim 1 is characterized in that: described heat transfer probe comprises a contact site against described cup, connects the resettlement section of this contact site other end, and connect the pushing part of this resettlement section.

3. mixer according to claim 2, it is characterized in that: described resettlement section is provided with groove, this temperature-sensitive assembly comprises that one installs heat-conducting block, the thermistor that be connected this heat-conducting block and the spring interior with the groove of described resettlement section, this spring housing is located on this thermistor and is resisted against on the heat-conducting block, when described cup breaks away from described pedestal, thereby promoting described heat transfer probe, this spring disconnects this microswitch away from microswitch.

4. mixer according to claim 1 is characterized in that: the contact site of described heat transfer probe is resisted against the sidewall of described cup near the position of bottom.

5. mixer according to claim 1, it is characterized in that: described heating module comprises a heat-generating disc and the covering between heat-generating disc and cup of being sticked, and this covering is provided with some circular grooves and is sent to equably on the described cup with the heat that this heat-generating disc is produced.

6. mixer according to claim 5, it is characterized in that: described driving module comprises a motor and connects the rotating turret of motor, described heat-generating disc be around in this rotating turret around, be provided with fixed mount between described heat-generating disc and the motor, be provided with heat insulating mattress between this fixed mount and the motor.

7. mixer according to claim 6, it is characterized in that: described stirring module is installed in the described cup, comprise that orthogonal the first rotatable lamella and the second rotatable lamella and wear the rotating shaft of this first rotatable lamella and the second rotatable lamella, the rotating turret of described driving module is provided with magnet, and this first rotatable lamella is provided with magnet.

8. mixer according to claim 7, it is characterized in that: the two ends of described the second rotatable lamella are the dentation setting, establish one with Connection Card and stir spring.

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