CN216020672U - Food processing machine - Google Patents

Abstract

The utility model discloses a food processor, which comprises a host, a stirring cup arranged on the host, and a stirring knife arranged in the stirring cup and driven by a motor of the host, wherein the host comprises a microswitch connected with the motor in series, the microswitch is triggered by the stirring cup to control the on-off of a power supply loop of the motor, the host also comprises a shell, a motor bracket for mounting the motor, and a microswitch bracket for mounting the microswitch, the motor bracket is arranged on the shell, and the motor bracket is flexibly connected with the microswitch bracket. Adopt flexonics between motor support and micro-gap switch support, the vibrations that make the motor are through flexible connection structure shock attenuation to reduce the amplitude that the motor vibrations transmitted to the micro-gap switch support, make the motor vibrations to micro-gap switch trigger state's influence greatly reduced, avoided micro-gap switch to trigger badly and cause the problem of outage, make micro-gap switch can stably trigger.

Description

Food processing machine

Technical Field

The utility model relates to the technical field of food processing devices, in particular to a food processing machine.

Background

Along with the improvement of living standard and the acceleration of life rhythm of people, food processor as a food processor who smashes efficient is loved by the user deeply.

Most current food preparation machines set up the micro-gap switch that control motor return circuit switched on usually to ensure that food preparation machine can open work under the condition that stirring cup and host computer installation target in place, current be used for installing micro-gap switch's micro-gap switch support most with motor support an organic whole or lug connection fixed, the vibrations of motor are obvious through the effect of support transmission, when the too big micro-gap switch that can appear of vibration range triggers bad problem, cause the outage.

Disclosure of Invention

The utility model aims to provide a food processor which is used for reducing the influence of the vibration of a motor on the trigger state of a microswitch.

In order to achieve the purpose, the utility model provides a food processing machine which comprises a main machine, a stirring cup arranged on the main machine, and a stirring knife arranged in the stirring cup and driven by a motor of the main machine, wherein the main machine comprises a microswitch connected with the motor in series, the microswitch is triggered by the stirring cup to control the on-off of a power supply loop of the motor, the main machine also comprises a shell, a motor bracket for mounting the motor, and a microswitch bracket for mounting the microswitch, the motor bracket is arranged on the shell, and the motor bracket is flexibly connected with the microswitch bracket.

According to the food processor provided by the utility model, the motor bracket for mounting the motor and the micro switch bracket for mounting the micro switch are flexibly connected, so that the vibration of the motor is damped through the flexible connection structure, the amplitude of the vibration of the motor transmitted to the micro switch bracket is reduced, the influence of the vibration of the motor on the trigger state of the micro switch is greatly reduced, the problem of power failure caused by poor trigger of the micro switch is avoided, and the micro switch can be stably triggered.

In a preferred implementation manner of the food processor, the main machine further comprises a damping piece, and the micro-switch bracket is connected with the motor bracket in a matching manner through the damping piece.

The shock-absorbing part is simple in structure and is arranged at the contact joint of the micro-switch bracket and the motor bracket, so that the amplitude of the vibration of the motor transmitted to the micro-switch bracket is reduced, the micro-switch is guaranteed to be in a stable triggering environment, and the problem that the micro-switch is badly triggered is avoided.

In the preferred implementation mode of the food processor, the shell comprises an upper cover, the upper cover is provided with a support mounting column, the damping piece is fixedly arranged on the motor support, a first mounting hole for the support mounting column to penetrate through is formed in the damping piece, a second mounting hole for the support mounting column to penetrate through is also formed in the microswitch support corresponding to the first mounting hole, and the motor support is sleeved on the support mounting column through the damping piece and clamped between the upper cover and the microswitch support.

Set up the first mounting hole that can supply the support mounting post to wear to establish on the bumper shock absorber, so that locate the support mounting post with the motor support indirect cover of bumper shock absorber fixed connection, the support mounting post is located through the second mounting hole cover to the micro-gap switch support, reduce the amplitude of motor vibrations to the support mounting post transmission through the bumper shock absorber, and then reduce the influence of motor vibrations to micro-gap switch support stability, and simultaneously, the support mounting post is located through the indirect cover of bumper shock absorber to the motor support, make the bumper shock absorber not occupy the axial position of host computer, assembly structure is compact firm, do benefit to the axial height who shortens the host computer.

In the preferred realization of food preparation machine, the support erection column corresponds and is equipped with spacing platform, and spacing platform aligns the butt with the shock attenuation piece axial to make support erection column align with the trompil of shock attenuation piece and peg graft.

Spacing platform auxiliary stand erection column aligns with the trompil axial of damper, and convenience of customers counterpoints the assembly, and spacing platform can increase the axial height of the motor support of installing the motor at the inside assembly position of reserving of host computer, makes the assembly layout in the host computer more reasonable.

In the preferred implementation mode of the food processor, the shell further comprises a main body located below the upper cover, the main body is provided with screw holes corresponding to the first mounting hole and the second mounting hole, the bottom of the support mounting column is provided with threaded holes, the screw holes, the first mounting hole, the second mounting hole and the threaded holes form assembling holes for mounting screws, and the screws lock the main body, the microswitch support and the motor support to the upper cover.

The main body, the micro switch bracket, the motor bracket and the upper cover are integrally fixed through one screw, the structure is simple and compact, the assembly is time-saving, and the assembly difficulty and cost are reduced.

In a preferred implementation of the food processor, the micro-switch bracket includes a body disposed around the motor, the middle of the body being hollow to allow the micro-switch bracket to be nested from the motor tail and to cross the bracket mounting post.

The body middle part of the micro-gap switch support is kept away to make the micro-gap switch support be sleeved around the motor, and when assembling, the micro-gap switch support is sleeved around the motor from the tail part of the motor through the body with the middle part kept away, so that the axial height of the micro-gap switch in the installation position of the main machine is shortened, and the micro-gap switch support is compact in structure and convenient to assemble.

In the preferred realization of food preparation machine, the micro-gap switch support still includes and locates the through-hole of body along the axon, is equipped with the spring in the through-hole and wears to locate the connecting rod of spring, and the connecting rod reciprocates in the through-hole under the effect of spring force to trigger micro-gap switch.

The through hole of the micro-switch bracket has a guiding effect on the connecting rod, the spring generates elastic force for driving the connecting rod after being extruded and deformed by the stirring cup, the position of the connecting rod determines the trigger state of the micro-switch, and when the stirring cup is installed in place to the host machine, the micro-switch is triggered, a power supply loop of the motor is conducted, so that the use safety of the food processor is enhanced.

In a preferred embodiment of the food processor, the connecting rod is provided with a sealing ring along the circumference, which is clamped between the through hole and the housing.

The sealing washer presss from both sides and locates between through-hole and the casing to the breach of opening upside behind the through-hole is adorned to the shutoff connecting rod, prevents that liquid from flowing into micro-gap switch and causing the short circuit from the through-hole, has strengthened the waterproof sealing effect of connecting rod department.

In a preferred implementation of the food processor, the mounting position of the microswitch is located at the side of the movement trajectory of the connecting rod, so that the microswitch is laterally triggered by the connecting rod.

The micro switch is located on the side of the moving track of the connecting rod, so that the micro switch is triggered laterally by the connecting rod, short circuit caused by liquid entering the micro switch along the connecting rod after sealing failure is avoided, and the waterproof effect of the micro switch is enhanced.

In a preferred embodiment of the food processor, the through-hole is provided with a rib extending in the direction of movement of the connecting rod for guiding.

The fender muscle is used for prescribing a limit to the moving direction of connecting rod, and the connecting rod triggers through the direction effect of fender muscle at micro-gap switch's lateral part and micro-gap switch butt, has ensured the accurate nature that micro-gap switch triggered.

Drawings

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a cross-sectional view of a food processor in one embodiment.

FIG. 2 is an exploded view of a main frame of a food processor in one embodiment.

FIG. 3 is a cross-sectional view of a main frame of a food processor in one embodiment.

Fig. 4 is a schematic structural view of an upper cover of a food processor according to an embodiment.

FIG. 5 is a schematic view of a microswitch rack of a food processor according to one embodiment.

FIG. 6 is a schematic view of an embodiment of a motor mount and motor assembly for a food processor.

Wherein:

1-a main machine, 11-a motor, 12-a motor bracket, 121-a clamping jaw, 13-a microswitch, 131-a connecting rod, 132-a spring, 14-a microswitch bracket, 141-a second mounting hole, 142-a body, 143-a through hole, 144-a mandril through hole, 145-a mandril, 146-a mounting part, 147-a positioning column, 148-a blocking rib, 15-a shock absorption piece, 151-a first mounting hole, 16-an upper cover, 161-a bracket mounting column, 162-a limiting table, 17-a main body, 171-a screw hole and 18-a sealing ring;

2-stirring cup.

Detailed Description

In order to more clearly explain the overall concept of the present invention, the following detailed description is given by way of example in conjunction with the accompanying drawings.

It should be noted that in the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the scope of the present invention is not limited by the specific embodiments disclosed below.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "horizontal", "top", "bottom", "inner", "outer", "axial", "radial", "circumferential", and the like, indicate orientations and positional relationships based on those shown in the drawings, and are used merely for convenience in describing the present invention and for simplicity in description, and do not indicate or imply that the referenced devices or elements must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

In the present invention, unless otherwise expressly stated or limited, the terms "mounted," "connected," "secured," and the like are to be construed broadly and can, for example, be fixedly connected, detachably connected, or integrally formed; either directly or indirectly through intervening media, either internally or in any other relationship. However, the direct connection means that the two bodies are not connected to each other by the intermediate structure but connected to each other by the connecting structure to form a whole. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

First, the technical concept of the technical solution disclosed in the present invention will be explained. Food preparation machine among the prior art sets up the micro-gap switch that control motor return circuit switched on usually for the micro-gap switch support of installation micro-gap switch is most integrative with motor support or lug connection is fixed, and the effect that the vibrations of motor pass through the support transmission is obvious, can appear micro-gap switch when vibration amplitude is too big and trigger bad problem, causes the outage.

In order to solve the above problems, as shown in fig. 1 to 3, the present invention provides a food processor, which includes a main machine 1, a stirring cup 2 installed in the main machine 1, and a stirring blade disposed in the stirring cup 2 and driven by a motor 11 of the main machine 1, wherein the main machine 1 includes a micro switch 13 connected in series with the motor 11, the micro switch 13 is triggered by the stirring cup 2 to control the on/off of a power supply circuit of the motor 11, the main machine 1 further includes a housing, a motor bracket 12 installed with the motor 11, and a micro switch bracket 14 installed with the micro switch 13, the motor bracket 12 is installed in the housing, and the motor bracket 12 is flexibly connected with the micro switch bracket 14.

Motor 11 passes through motor support 12 and installs in the casing, the micro-gap switch 13 of control motor 11 power supply loop break-make is installed in micro-gap switch support 14, adopt flexonics between motor support 12 and micro-gap switch support 14, make the vibrations of motor 11 come the shock attenuation through flexible connection structure, thereby reduce the amplitude that motor 11 vibrations transmitted to micro-gap switch support 14, make the influence greatly reduced of motor 11 vibrations to micro-gap switch 13 trigger state, the problem of the outage caused by micro-gap switch 13 triggering badly has been avoided, make micro-gap switch 13 can stably trigger.

As a preferred embodiment of the present invention, as shown in fig. 1 to 3, the main body 1 further includes a shock absorbing member 15, and the micro switch bracket 14 is cooperatively connected with the motor bracket 12 through the shock absorbing member 15.

Set up damper 15 in micro-gap switch support 14 and motor support 12 contact junction, damper 15 is simple structure's flexible gasket, can reduce the amplitude that motor 11 vibrations transmitted to micro-gap switch support 14, has guaranteed that micro-gap switch 13 is in stable trigger environment, avoids micro-gap switch 13 to trigger bad problem.

As a more preferred embodiment of the present invention, as shown in fig. 2 to 6, the housing includes an upper cover 16, the upper cover 16 is provided with a bracket mounting post 161, the damping member 15 is fixedly mounted on the motor bracket 12, a hole is formed in the damping member 15 to form a first mounting hole 151 for the bracket mounting post 161 to penetrate through, a second mounting hole 141 for the bracket mounting post 161 to penetrate through is also formed in the microswitch bracket 14 corresponding to the first mounting hole 151, and the motor bracket 12 is sleeved on the bracket mounting post 161 through the damping member 15 and is sandwiched between the upper cover 16 and the microswitch bracket 14.

The shock absorbing member 15 is fixed on the side part of the motor support 12, and the motor support 12 is indirectly sleeved on the support mounting column 161 through the shock absorbing member 15, so that the shock absorbing member 15 does not occupy the axial position of the host 1, the assembly structure is compact and firm, and the axial height of the host 1 is favorably shortened. In a preferred embodiment, as shown in fig. 6, a jaw 121 for fixing the shock absorber 15 is radially extended from a side portion of the motor bracket 12, the jaw 121 forms an assembly position on the side portion of the motor bracket 12, the shock absorbing bracket is fixedly arranged in the assembly position formed by the jaw 121, a first mounting hole 151 capable of allowing the bracket mounting post 161 to penetrate through is formed in the shock absorber 15, so that the motor bracket 12 fixedly connected with the shock absorber 15 is indirectly sleeved on the bracket mounting post 161, a second mounting hole 141 allowing the bracket mounting post 161 to penetrate through is also formed in the microswitch bracket 14 corresponding to the first mounting hole 151, and the microswitch bracket 14 is sleeved on the bracket mounting post 161 through the second mounting hole 141; the vibration amplitude of the vibration of the motor 11 transmitted to the bracket mounting post 161 is reduced through the vibration-absorbing piece 15, and therefore the influence of the vibration of the motor 11 on the stability of the micro-switch bracket 14 is reduced.

It should be noted that, the fixing form of the shock absorbing member 15 and the motor bracket 12 is not specifically limited in the present invention, and the shock absorbing member 15 and the motor bracket 12 may be fixed by using the claws 121 in the above embodiments, in another embodiment, the body 142 of the motor bracket 12 is provided with an assembling groove for the shock absorbing member 15 to be embedded in, and the shock absorbing member 15 is embedded in the assembling groove so that the shock absorbing member 15 is not isolated from the body 142 of the motor bracket 12, thereby making the installation of the motor bracket 12 on the bracket mounting post 161 more stable; the damping piece 15 and the motor bracket 12 can also be fixed by screws, and the structure is simple and reliable.

As a more preferred embodiment of the present invention, as shown in fig. 2 to 4, the bracket mounting post 161 is correspondingly provided with a limit stop 162, and the limit stop 162 is axially aligned and abutted with the shock absorbing member 15, so that the bracket mounting post 161 is aligned and inserted into the opening of the shock absorbing member 15.

Protruding spacing platform 162 of establishing in the bottom surface of upper cover 16, support mounting post 161 sets up from the axial downwardly extending of spacing platform 162, and spacing platform 162 can assist support mounting post 161 and the trompil axial of damper 15 to align, and convenience of customers counterpoints the assembly, and spacing platform 162 can increase the axial height of the assembly position of installing motor 11's motor support 12 inside reservation at host computer 1, makes the assembly layout in the host computer 1 more reasonable.

As a more preferable embodiment of the present invention, as shown in fig. 3, the housing further includes a main body 17 located below the upper cover 16, the main body 17 is provided with screw holes 171 corresponding to the first mounting hole 151 and the second mounting hole 141, the bottom of the bracket mounting post 161 is provided with screw holes, the screw holes 171, the first mounting hole 151, the second mounting hole 141 and the screw holes form mounting holes for mounting screws, and the screws lock the main body 17, the microswitch bracket 14 and the motor bracket 12 to the upper cover 16.

When the host 1 is assembled, the first mounting hole 151 and the second mounting hole 141 are sequentially arranged on the support mounting post 161 in a penetrating manner, the screw hole 171 of the main body 17 is axially aligned with the first mounting hole 151 and the second mounting hole 141, so that the screw hole 171, the first mounting hole 151, the threaded hole formed in the bottom of the second mounting hole 141 and the support mounting post 161 form a mounting hole of a mounting screw, and the screw is screwed in the mounting hole, so that the main body 17, the microswitch bracket 14 and the motor bracket 12 are locked on the upper cover 16, and further the main body 17, the microswitch bracket 14, the motor bracket 12 and the upper cover 16 are integrally fixed.

As a preferred embodiment of the present invention, as shown in fig. 2 and 5, the micro-switch bracket 14 includes a body 142 disposed around the motor 11, and the middle of the body 142 is free, so that the micro-switch bracket 14 is sleeved on the rear portion of the motor 11 and passes through the bracket mounting post 161.

The middle part of the body 142 of the micro-switch support 14 is kept away, so that the micro-switch support 14 is sleeved around the motor 11, when the micro-switch support 14 is assembled, the micro-switch support 14 is sleeved around the motor 11 from the tail part of the motor 11 through the middle part of the body 142, the axial height of the assembling position of the micro-switch 13 in the host 1 is shortened, the structure is compact, and the assembly is convenient.

It should be noted that the positional relationship between the micro switch bracket 14 and the motor 11 is not limited to the surrounding relationship in the above embodiments, in another embodiment, the micro switch bracket 14 is mounted on the side of the motor bracket 12, a shock absorbing member 15 having a shock absorbing effect is disposed between the micro switch bracket 14 and the motor bracket 12, the micro switch 13 is fixed on the micro switch bracket 14 in a direction away from the motor 11, the micro switch 13 is triggered by the connecting rod 131 pushed by the stirring cup 2, and the influence of the vibration of the motor 11 on the triggering state of the micro switch 13 is reduced to the maximum. The position relationship between the micro switch bracket 14 and the motor 11 can be in other forms, such as the motor 11 is arranged at the tail part of the motor bracket 12, the middle part of the motor bracket 12 is free to provide assembly space for the micro switch bracket 14, the micro switch 13 is arranged at the middle part of the motor bracket 12 along with the micro switch bracket 14, and the like.

As a more preferable embodiment of the present invention, as shown in fig. 3, the micro switch bracket 14 further includes a through hole 143 protruding from the body 142 along the axis, the through hole 143 is provided with a spring 132 and a link 131 penetrating the spring 132, and the link 131 moves up and down in the through hole 143 by the elastic force of the spring 132 to trigger the micro switch 13.

The body 142 of the micro bracket is convexly provided with a through hole 143 along the axis, the through hole 143 corresponding to the upper cover 16 forms a track for the connecting rod 131 to move telescopically, the connecting rod 131 is driven by the stirring cup 2 to move downwards along the direction of the through hole 143 under the driving of the stirring cup 2 in the state that the stirring cup 2 is assembled on the main machine 1 so as to trigger the micro switch 13, at the moment, the spring 132 is in a squeezed state, when the stirring cup 2 is taken down from the main machine 1, the connecting rod 131 is reset under the elastic force of the spring 132, and the micro switch 13 is not triggered. The through hole 143 provides a guiding function for the connecting rod 131, so that the micro switch 13 is accurately triggered when the stirring cup 2 is installed in place, and the use safety of the food processor is enhanced.

As a preferred example of the above embodiment, as shown in fig. 2 and 5, the body 142 of the micro switch bracket 14 is further provided with two push rod through holes 144, the two push rod through holes 144 and the through hole 143 of the connecting rod 131 are spaced by 120 ° in the circumferential direction, the push rod through holes 144 are both provided with the spring 132 and the push rod 145 penetrating the spring 132, and during the assembly of the mixing cup 2 to the main machine 1, the push rod 145 and the connecting rod 131 simultaneously abut against the bottom of the mixing cup 2, so that the force applied to the bottom of the mixing cup 2 in the circumferential direction is balanced, and the mixing cup 2 can smoothly drive the connecting rod 131 to move and trigger the micro switch 13.

As a more preferable embodiment of the present invention, as shown in fig. 2 and 3, the connecting rod 131 is provided with a seal ring 18 along the periphery thereof, and the seal ring 18 is interposed between the through hole 143 and the housing.

The sealing ring 18 is clamped between the through hole 143 and the housing, and the upper end of the through hole 143 surrounds the circumference of the connecting rod 131 to block the gap on the upper side of the rear opening of the through hole 143 where the connecting rod 131 is installed, so as to prevent liquid from flowing into the micro switch 13 from the through hole 143 to cause short circuit, and enhance the waterproof sealing effect of the connecting rod 131.

As a more preferable embodiment of the present invention, as shown in fig. 2, 3 and 5, the installation position of the micro switch 13 is located at a side of the moving track of the link 131 so that the micro switch 13 is laterally triggered by the link 131.

The micro switch 13 is located at the side part of the moving track of the connecting rod 131, so that the micro switch 13 is triggered laterally by the connecting rod 131, short circuit caused by liquid entering the micro switch 13 along the connecting rod 131 after sealing failure is avoided, and the waterproof effect of the micro switch 13 is enhanced. In a preferred embodiment, as shown in fig. 5, a mounting portion 146 for fixing the microswitch 13 is arranged on the microswitch bracket 14, the mounting portion 146 is provided with a positioning column 147 for mounting and positioning the microswitch 13, and the microswitch 13 is mounted on the positioning column 147 so as to be limited at the side of the moving track of the connecting rod 131, so that the microswitch 13 is triggered by the connecting rod 131 in the side direction.

As a more preferable embodiment of the present invention, as shown in fig. 2 and 5, the through hole 143 is extended with a stopper rib 148 for guiding in the moving direction of the link 131.

The blocking rib 148 extends along the moving direction of the connecting rod 131 at the bottom of the through hole 143 to limit the moving direction of the connecting rod 131, the connecting rod 131 abuts against and is triggered with the micro switch 13 at the side of the micro switch 13 through the guiding action of the blocking rib 148, and the triggering accuracy of the micro switch 13 is ensured.

The technical solutions protected by the present invention are not limited to the above embodiments, and it should be noted that the combination of the technical solution of any one embodiment and the technical solution of one or more other embodiments is within the protection scope of the present invention. Although the utility model has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the utility model. Accordingly, such modifications and improvements are intended to be within the scope of the utility model as claimed.

Claims (10)

1. The utility model provides a food processor, includes the host computer, install in the stirring cup of host computer and set up in receive in the stirring cup the motor drive's of host computer stirring sword, the host computer include with the micro-gap switch of motor series connection, micro-gap switch receives the stirring cup triggers with control the break-make of motor power supply circuit, the host computer still includes casing, installation the motor support of motor and installation micro-gap switch's micro-gap switch support, its characterized in that, motor support install in the casing, just motor support with micro-gap switch support flexible connection.

2. A food processor as defined in claim 1,

the host computer still includes the shock attenuation piece, the micro-gap switch support pass through the shock attenuation piece with the motor support cooperation is connected.

3. A food processor as claimed in claim 2,

the casing includes the upper cover, the upper cover is equipped with the support mounting post, the damper sets firmly in motor support the last trompil of damper is in order to form the confession the first mounting hole that the support mounting post wore to establish, the micro-gap switch support corresponds the second mounting hole that confession support mounting post wore to establish is also seted up to first mounting hole, motor support passes through the damper cover is located the support mounting post to press from both sides and locate the upper cover with between the micro-gap switch support.

4. A food processor as claimed in claim 3,

the support mounting column is correspondingly provided with a limiting table, and the limiting table is axially aligned and abutted with the damping piece so that the support mounting column is aligned and spliced with the open hole of the damping piece.

5. A food processor as claimed in claim 3,

the casing is still including being located the main part of upper cover below, the main part be equipped with the screw hole that first mounting hole and second mounting hole correspond, the bottom of support mounting post is equipped with the screw hole, the screw hole first mounting hole, second mounting hole with the screw hole forms the pilot hole of installation screw, the screw will the main part the micro-gap switch support with the motor support lock in the upper cover.

6. A food processor as claimed in claim 3,

the micro-switch bracket comprises a body surrounding the motor, and the middle part of the body is kept clear, so that the micro-switch bracket is sleeved in the tail part of the motor and is connected with the bracket mounting post in a penetrating manner.

7. A food processor as defined in claim 6,

the micro-gap switch support still includes to be located along the axon the through-hole of body, be equipped with the spring in the through-hole and wear to locate the connecting rod of spring, the connecting rod is in under the effect of spring force the through-hole is interior to reciprocate to trigger micro-gap switch.

8. A food processor as claimed in claim 7,

the connecting rod is provided with a sealing ring along the periphery, and the sealing ring is clamped between the through hole and the shell.

9. A food processor as claimed in claim 7,

the installation position of the micro switch is positioned at the side part of the moving track of the connecting rod, so that the micro switch is triggered by the side direction of the connecting rod.

10. A food processor as claimed in claim 7,

and the through hole is provided with a blocking rib for guiding in the moving direction of the connecting rod.

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