CN203926642U - A kind of rotating speed COMM communication - Google Patents

Abstract

The utility model relates to a kind of rotating speed COMM communication, comprise: with the large helical gear of a driving mechanism engagement driving, the 3rd bearing with another driving mechanism rotation transmission, large helical gear middle part is provided with groove, in groove, be provided with the first driving cog, in the time that the 3rd bearing rotates, large helical gear does not rotate with the 3rd bearing, the first driving cog rotates with the 3rd bearing, the opening of groove is fixed with the 3rd driving cog, between the 3rd driving cog and the first driving cog, be provided with the second driving cog, between second driving cog the first driving cog, be provided with spring, pto＝power take-off is fixedly connected with the second driving cog.Rotating speed COMM communication described in the utility model, simple in structure, easy to operate, user is required low, adopt Purely mechanical to realize rotating speed and switch, do not need complicated automatically controlled design and structure, not only can effectively reduce the volume of device, and effectively reduce manufacturing cost.

Description

A kind of rotating speed COMM communication

Technical field

The utility model relates to rotational speed regulation control gear, is a kind of rotating speed COMM communication specifically.

Background technique

Along with the continuous research and development of small household appliances, universal, kitchen small household appliances make rapid progress, and constantly weed out the old and bring forth the new, and the work of a lot of loaded down with trivial details kitchens is simplified, and have brought facility to user.

Noodle maker, juicer are very common kitchen small household appliances, the in use rotating speed difference of the mixing component of the two, and rotational speed regulation, control mode and principle are also variant, therefore the driving mechanism of existing noodle maker, juicer (referring to the driving mechanism of mixing component) can not be general.

When hope realize noodles, while squeezing the juice integrated machine, in machine, need to arrange two cover driving mechanisms, meet respectively and face, extruding noodles function and the function of squeezing the juice, this has caused manufacturing cost large, rotational speed regulation control complexity, and the noodles of two cover driving mechanisms are set, the integrated machine volume of squeezing the juice is large, be not easy to put, use.

Development can meet simultaneously and face, while pushing the driving mechanism of noodles function and the function of squeezing the juice, the switching of two kinds of power outputs of high speed low torque and low speed and large torque is one of key, and how simple, convenient, efficient, stable realization is switched is necessary further further investigation.

Model utility content

For the defect existing in prior art, the purpose of this utility model is to provide a kind of rotating speed COMM communication, simple in structure, easy to operate, user is required low, adopt Purely mechanical to realize rotating speed and switch, do not need complicated automatically controlled design and structure, not only can effectively reduce the volume of device, and effectively reduce manufacturing cost.

For reaching above object, the technological scheme that the utility model is taked is:

A kind of rotating speed COMM communication, is characterized in that, comprising:

With the large helical gear 20 of a driving mechanism engagement driving,

Described large helical gear 20 middle parts are the boss 152 that is provided with groove 151, and upward, the bottom surface 154 of boss 152 is fixed with the 3rd upper bearing bracket 19 to the opening 153 of groove 151,

The 3rd upper bearing bracket 19 and the 3rd bearing 18 upper ends are rotationally connected,

The 3rd bearing 18 rotates transmission with another driving mechanism,

In groove 151, be provided with the first driving cog 21, the first driving cogs 21 and be fixedly connected with the 3rd bearing 18 upper ends,

In the time that the 3rd bearing 18 rotates, large helical gear 20 does not rotate with the 3rd bearing 18, and the first driving cog 21 rotates with the 3rd bearing 18,

Opening 153 places are provided with the 3rd driving cog 23, the three driving cogs 23 and are fixedly connected with large helical gear 20,

Between the 3rd driving cog 23 and the first driving cog 21, be provided with the second driving cog 22,

Between the second driving cog 22 first driving cogs 21, be provided with spring 26,

Pto＝power take-off 24 is fixedly connected with the second driving cog 22.

On the basis of technique scheme, exert pressure when giving pto＝power take-off 24, when it is moved downward vertically, pto＝power take-off 24 drives the second driving cog 22 to move downward vertically, now the second driving cog 22 engages with the first driving cog 21, and spring 26 is compressed, and rotating speed COMM communication is connected with described another driving mechanism, another driving mechanism drives pto＝power take-off 24 through the first driving cog 21, the second driving cog 22, realizes the output of high speed low torque power or the output of low speed and large torque power.

On the basis of technique scheme, be cancelled when exerting pressure to pto＝power take-off 24, spring 26 provides reseting elasticity for pto＝power take-off 24, when it is upwards vertically moved, the second driving cog 22 separates with the first driving cog 21, under the promotion of spring force, the second driving cog 22 engages with the 3rd driving cog 23, rotating speed COMM communication is connected with a described driving mechanism, a driving mechanism drives pto＝power take-off 24 through large helical gear 20, the 3rd driving cog 23, the second driving cog 22, realizes power output switching.

On the basis of technique scheme, the 3rd driving cog 23, its upper surface is step surface, upwards depression of lower surface middle part, teeth 71 can be located on the bottom surface of this recess,

The second driving cog 22, its teeth 71 are located at gear side, and the height of teeth is higher than the height of gear body, and gear body can be located at the middle part of teeth, makes teeth exceed the upper and lower surface of gear body,

The first driving cog 21, its teeth 71 are located at upper surface.

Rotating speed COMM communication described in the utility model, simple in structure, easy to operate, user is required low, adopt Purely mechanical to realize rotating speed and switch, do not need complicated automatically controlled design and structure, not only can effectively reduce the volume of device, and effectively reduce manufacturing cost.

Brief description of the drawings

The utility model has following accompanying drawing:

The explosive view of Fig. 1 specific embodiment of the utility model,

The sectional drawing of Fig. 2 specific embodiment of the utility model,

Fig. 3 large helical gear stereogram,

Fig. 4 large helical gear sectional drawing,

Fig. 5 the 3rd driving cog stereogram,

Fig. 6 the 3rd driving cog sectional drawing,

Fig. 7 the second driving cog stereogram,

Fig. 8 the second driving cog sectional drawing,

Fig. 9 the first driving cog stereogram,

Figure 10 the first driving cog sectional drawing.

Embodiment

Below in conjunction with accompanying drawing, the utility model is described in further detail.

As shown in Fig. 1～10, rotating speed COMM communication described in the utility model, comprise: with the large helical gear of a driving mechanism engagement driving, the 3rd bearing with another driving mechanism rotation transmission, large helical gear middle part is provided with groove, in groove, be provided with the first driving cog, in the time that the 3rd bearing rotates, large helical gear does not rotate with the 3rd bearing, the first driving cog rotates with the 3rd bearing, the opening of groove is fixed with the 3rd driving cog, between the 3rd driving cog and the first driving cog, be provided with the second driving cog, between second driving cog the first driving cog, be provided with spring, pto＝power take-off is fixedly connected with the second driving cog.Comprise in particular:

With the large helical gear 20 of a driving mechanism engagement driving,

Described large helical gear 20 middle parts are the boss 152 that is provided with groove 151, and upward, the bottom surface 154 of boss 152 is fixed with the 3rd upper bearing bracket 19 to the opening 153 of groove 151,

The 3rd upper bearing bracket 19 and the 3rd bearing 18 upper ends are rotationally connected,

The 3rd bearing 18 rotates transmission with another driving mechanism,

In groove 151, be provided with the first driving cog 21, the first driving cogs 21 and be fixedly connected with the 3rd bearing 18 upper ends,

In the time that the 3rd bearing 18 rotates, large helical gear 20 does not rotate with the 3rd bearing 18, and the first driving cog 21 rotates with the 3rd bearing 18,

Opening 153 places are provided with the 3rd driving cog 23, the three driving cogs 23 and are fixedly connected with large helical gear 20,

Between the 3rd driving cog 23 and the first driving cog 21, be provided with the second driving cog 22,

Between the second driving cog 22 first driving cogs 21, be provided with spring 26 (referring to Fig. 2),

Pto＝power take-off 24 is fixedly connected with the second driving cog 22.

On the basis of technique scheme, exert pressure when giving pto＝power take-off 24, when it is moved downward vertically, pto＝power take-off 24 drives the second driving cog 22 to move downward vertically, and now the second driving cog 22 engages with the first driving cog 21, and spring 26 is compressed, rotating speed COMM communication is connected with described another driving mechanism, another driving mechanism drives pto＝power take-off 24 through the first driving cog 21, the second driving cog 22, realizes the output of high speed low torque power or the output of low speed and large torque power

Be cancelled when exerting pressure to pto＝power take-off 24, spring 26 provides reseting elasticity for pto＝power take-off 24, when it is upwards vertically moved, the second driving cog 22 separates with the first driving cog 21, under the promotion of spring force, the second driving cog 22 engages with the 3rd driving cog 23, and rotating speed COMM communication is connected with a described driving mechanism, a driving mechanism drives pto＝power take-off 24 through large helical gear 20, the 3rd driving cog 23, the second driving cog 22, realizes power output switching.

For example: become low speed and large torque power output (without pressure time power output) by high speed low torque power output (the power output while having pressure), otherwise or.

On the basis of technique scheme, large helical gear 20 can by shown in Fig. 3,4 implement,

The 3rd driving cog 23 can be by implementing shown in Fig. 5,6, and its upper surface is step surface, upwards depression of lower surface middle part, and teeth 71 can be located on the bottom surface of this recess,

The second driving cog 22 can be by implementing shown in Fig. 7,8, its teeth 71 are located at gear side (side of gear body), the height of teeth (as shown in the figure, teeth vertical direction is its height) higher than the height of gear body, gear body can be located at the middle part of teeth, make teeth exceed the upper and lower surface of gear body

The first driving cog 21 can be by implementing shown in Fig. 9,10, and its teeth 71 are located at the upper surface of the first driving cog 21.

The content not being described in detail in this specification belongs to the known prior art of professional and technical personnel in the field.

Claims (5)

1. a rotating speed COMM communication, it is characterized in that, comprise: with the large helical gear of a driving mechanism engagement driving, the 3rd bearing with another driving mechanism rotation transmission, large helical gear middle part is provided with groove, in groove, be provided with the first driving cog, in the time that the 3rd bearing rotates, large helical gear does not rotate with the 3rd bearing, the first driving cog rotates with the 3rd bearing, the opening of groove is fixed with the 3rd driving cog, between the 3rd driving cog and the first driving cog, be provided with the second driving cog, between second driving cog the first driving cog, be provided with spring, pto＝power take-off is fixedly connected with the second driving cog.

2. rotating speed COMM communication as claimed in claim 1, is characterized in that, specifically comprises:

With the large helical gear (20) of a driving mechanism engagement driving,

Described large helical gear (20) middle part is for being provided with the boss (152) of groove (151), the opening (153) of groove (151) upward, the bottom surface (154) of boss (152) is fixed with the 3rd upper bearing bracket (19)

The 3rd upper bearing bracket (19) is rotationally connected with the 3rd bearing (18) upper end,

The 3rd bearing (18) rotates transmission with another driving mechanism,

In groove (151), be provided with the first driving cog (21), the first driving cog (21) is fixedly connected with the 3rd bearing (18) upper end,

In the time that the 3rd bearing (18) rotates, large helical gear (20) does not rotate with the 3rd bearing (18), and the first driving cog (21) rotates with the 3rd bearing (18),

Opening (153) locates to be provided with the 3rd driving cog (23), and the 3rd driving cog (23) is fixedly connected with large helical gear (20),

Between the 3rd driving cog (23) and the first driving cog (21), be provided with the second driving cog (22),

Between the second driving cog (22) first driving cogs (21), be provided with spring (26),

Pto＝power take-off (24) is fixedly connected with the second driving cog (22).

3. rotating speed COMM communication as claimed in claim 2, it is characterized in that: when exerting pressure to pto＝power take-off (24), when it is moved downward vertically, pto＝power take-off (24) drives the second driving cog (22) to move downward vertically, now the second driving cog (22) engages with the first driving cog (21), spring (26) is compressed, rotating speed COMM communication is connected with described another driving mechanism, another driving mechanism is through the first driving cog (21), the second driving cog (22) drives pto＝power take-off (24), realize the output of high speed low torque power or the output of low speed and large torque power.

4. rotating speed COMM communication as claimed in claim 3, it is characterized in that: when exerting pressure and be cancelled to pto＝power take-off (24), spring (26) provides reseting elasticity for pto＝power take-off (24), when it is upwards vertically moved, the second driving cog (22) separates with the first driving cog (21), under the promotion of spring force, the second driving cog (22) engages with the 3rd driving cog (23), rotating speed COMM communication is connected with a described driving mechanism, a driving mechanism is through large helical gear (20), the 3rd driving cog (23), the second driving cog (22) drives pto＝power take-off (24), realize power output switching.

5. rotating speed COMM communication as claimed in claim 4, is characterized in that: the 3rd driving cog (23), and its upper surface is step surface, upwards depression of lower surface middle part, teeth (71) can be located on the bottom surface of this recess,

The second driving cog (22), its teeth (71) are located at gear side, and the height of teeth is higher than the height of gear body, and gear body can be located at the middle part of teeth, makes teeth exceed the upper and lower surface of gear body,

The first driving cog (21), its teeth (71) are located at upper surface.