CN110876572A - Safe and sanitary anti-overflow food processor - Google Patents

Abstract

The invention discloses a safe and sanitary anti-overflow food processor, which comprises a base, a heating body and a stirring cup arranged on the base, wherein a motor is arranged in the base, the stirring cup comprises a cup body and a cup cover, a crushing cutter is arranged in the cup body, an anti-overflow device is arranged on the cup cover, the anti-overflow device comprises an electric conductor and an anti-overflow electrode, the cup cover comprises a plastic cover and a glass cover, the upper end of the plastic cover is provided with a feed inlet, the upper end of the glass cover is provided with a through hole, the edge of the lower end of the plastic cover is hermetically connected with the edge of the lower end of the glass cover, the electric conductor is embedded on the plastic cover, the upper end of the anti-overflow electrode is embedded on the plastic cover and connected with the electric conductor, the lower end of the anti-overflow. The cup cover is easy to clean, safe and sanitary, is not easy to break and is easy to install the anti-overflow device.

Description

Safe and sanitary anti-overflow food processor

Technical Field

The invention belongs to the field of food processing, and particularly relates to a safe and sanitary anti-overflow food processing machine.

Background

Present anti-overflow food preparation machine generally includes the frame, the heating member, stirring cup and anti-overflow device, at the heating process, when the foam that thick liquid or thick liquid produced in the stirring cup contacted anti-overflow device, the control unit who sets up in food preparation machine can produce a signal and make the heating member stop heating, anti-overflow device generally sets up on the bowl cover of stirring cup, the bowl cover is the individual layer bowl cover usually and is the plastics bowl cover, the plastics bowl cover contacts the back with food, easy dyeing, and also be easily by food oxidation discoloration, lead to the outward appearance to wash unclean, it is unhygienic, in addition, the ageing problem of plastics bowl cover is also very serious. In order to realize sanitary demand, among the prior art, five metals bowl cover or glass bowl cover have also appeared, the relative plastics bowl cover of five metals bowl cover is easy to be washd, but the five metals bowl cover has increased the weight of bowl cover, it is inconvenient to make the bowl cover operation, still be unfavorable for anti-overflow device's installation, and the five metals bowl cover can electrically conduct and can make anti-overflow device send wrong anti-overflow signal, lead to the unable normal work of anti-overflow food preparation machine, the relative plastics bowl cover of glass bowl cover is also easy to be washd, also can not dyed by food, but glass is easy broken, the security is poor, and be unfavorable for anti-.

Disclosure of Invention

The invention aims to provide a safe and sanitary anti-overflow food processor.

In order to solve the technical problem, the invention provides a safe and sanitary anti-overflow food processing machine, which comprises a machine base, a heating body and a stirring cup arranged on the machine base, wherein a motor is arranged in the machine base, the stirring cup comprises a cup body and a cup cover, the cup cover covers the upper part of the cup body, a crushing cutter is arranged in the cup body, the motor drives the crushing cutter to rotate, an anti-overflow device is arranged on the cup cover, the anti-overflow device comprises a conductive body and an anti-overflow electrode, the cup cover comprises a plastic cover and a glass cover, the plastic cover is covered outside the glass cover, a feeding port is arranged at the upper end of the plastic cover, a through hole is arranged at the upper end of the glass cover, a feeding channel is arranged between the feeding port and the through hole, the lower end edge of the plastic cover is hermetically connected with the lower end edge of the glass cover, the conductive body is embedded on the plastic, the glass cover is provided with a through hole for the anti-overflow electrode to pass through, and a sealing element is arranged between the through hole and the anti-overflow electrode.

Further, the plastic cover comprises a plastic cover top wall and a plastic cover side wall, the glass cover comprises a glass cover top wall and a glass cover side wall, the lower end edge of the plastic cover side wall is connected with the lower end edge of the glass cover side wall in a sealing mode, and the upper end of the anti-overflow electrode and the electric conductor are all embedded on the plastic cover top wall.

Furthermore, the electric conductor is embedded in the top wall of the plastic cover, the electric conductor and the top wall of the plastic cover are integrally molded by injection, and the upper end of the anti-overflow electrode extends into the top wall of the plastic cover and is connected with the electric conductor.

Further, the lower surface of the top wall of the plastic cover is provided with a mounting groove, and the upper end of the anti-overflow electrode and the electric conductor are embedded in the mounting groove.

Furthermore, an abutting piece for abutting the conductor in the installation groove is arranged between the plastic cover top wall and the glass cover top wall in a clamped mode, the abutting piece is located below the installation groove, the top of the abutting piece abuts against the conductor, and the bottom of the abutting piece abuts against the upper surface of the glass cover top wall.

Furthermore, the electric conductor is installed in the installation groove through a screw, the top wall of the plastic cover is provided with a screw hole for the screw to pass through, and the screw passes through the screw hole and then is connected with the electric conductor.

Further, the lower end of the side wall of the plastic cover is fixedly connected with the lower end of the side wall of the glass cover through a plastic ring, the plastic ring is ultrasonically welded or adhered to the lower end of the side wall of the plastic cover, and a sealing ring is arranged between the lower end of the side wall of the glass cover and the plastic ring.

Further, the feeding port extends downwards to a through hole to form the feeding channel.

Further, the through hole extends upwards to a feeding port to form the feeding channel.

Further, the plastic cover is a transparent plastic cover, and the glass cover is a transparent glass cover.

The invention has the beneficial effects that:

1. be equipped with the anti-overflow device on the bowl cover, the anti-overflow device includes electric conductor and anti-overflow electrode, the bowl cover includes plastics cover and glass cover, the outside at the glass cover is established to plastics cover, the upper end of plastics cover is equipped with the dog-house, the upper end of glass cover is equipped with the through-hole, be equipped with between dog-house and the through-hole and throw the material passageway, the lower extreme edge of plastics cover and the lower extreme edge sealing connection of glass cover, the electric conductor inlays to be located on the plastics cover, the upper end of anti-overflow electrode inlays to be located on the plastics cover and is connected with the electric conductor, the lower extreme of anti-overflow electrode runs through the glass cover and stretches into the cup downwards, the glass cover. The cup cover is arranged into a double-layer cup cover, the inner part of the cup cover is a glass cover which is not dyed when being contacted with food, the surface hydrophobicity of the glass cover is good, the cup cover can not be adhered with food, the cup cover is easy to clean and safe and sanitary, the outer part of the cup cover is a plastic cover which has plasticity and can protect the glass cover on the inner layer, so that the glass cover is not easy to break, the electric conductor is embedded on the plastic cover, the upper end of the anti-overflow electrode is embedded on the plastic cover and is connected with the electric conductor, the lower end of the anti-overflow electrode penetrates through the glass cover and then extends into the cup body downwards, the glass cover is provided with a through hole for the anti-overflow electrode to pass through, a sealing part is arranged between the through hole and the anti-overflow electrode, the lower end edge of the plastic cover is connected with the lower end edge of the glass cover in a sealing way, thus, the security is good, and in addition, the double-deck bowl cover that plastics cover and glass cover formed thermal-insulated effectual, and the material of plastics cover and glass cover is different moreover, is unfavorable for the sound transmission, and the effect that gives sound insulation is fabulous.

2. The plastic cover comprises a plastic cover top wall and a plastic cover side wall, the glass cover comprises a glass cover top wall and a glass cover side wall, the lower end edge of the plastic cover side wall is connected with the lower end edge of the glass cover side wall in a sealing mode, the upper end of the anti-overflow electrode and the electric conductor are both embedded in the plastic cover top wall, so that the installation of the anti-overflow electrode and the electric conductor is convenient, the reason is that the plastic cover is simpler in secondary processing compared with the glass cover, and the anti-overflow electrode and the electric conductor are not convenient to install due to the fragility of the.

3. The electric conductor inlays and locates in the plastics cover roof, and the electric conductor and the integrative injection moulding of plastics cover top wall, the upper end of anti-overflow electrode stretches into in the plastics cover roof and is connected with the electric conductor, the electric conductor inlays completely like this and establishes in plastics cover roof, can not receive external pollution on the one hand, electric conductive property obtains effectively to be ensured, and still can not contact with glass cover and scratch glass cover, on the other hand, the electric conductor pushes up the integrative injection moulding of wall with plastics cover, makes things convenient for the installation of electric conductor.

4. The plastic cover top wall lower surface is equipped with the mounting groove, and the upper end and the electric conductor of anti-overflow electrode all inlay and locate the mounting groove in, through setting up the mounting groove of installing electric conductor and anti-overflow electrode upper end specially for in using, the aversion can not take place for electric conductor and anti-overflow electrode, and the anti-overflow is more reliable.

5. The plastic cover roof and the glass cover roof are sandwiched with the abutting part for abutting the electric conductor in the mounting groove, the abutting part is located below the mounting groove, the top of the abutting part abuts against the electric conductor, the bottom of the abutting part abuts against the upper surface of the glass cover roof, the abutting part is arranged, the possibility of displacement of the electric conductor and the anti-overflow electrode is further reduced, the anti-overflow reliability is greatly improved, and the electric conductor can be prevented from being in contact with the glass cover to scratch the glass cover.

6. The electric conductor passes through the screw installation in the mounting groove, and plastics cover roof is equipped with the screw hole that supplies the screw to pass, and the screw passes behind the screw hole and is connected with the electric conductor, so also can realize fixing being connected between electric conductor and the plastics cover through the screw, and mounting structure is also comparatively simple.

7. Through plastic ring fixed connection between the lower extreme of plastic casing lateral wall and the lower extreme of glass casing lateral wall, plastic ring ultrasonic welding or paste at plastic casing lateral wall lower extreme, be provided with the sealing washer between the lower extreme of glass casing lateral wall and the plastic ring, so can realize the lower extreme of plastic casing lateral wall and the lower extreme sealing connection of glass casing lateral wall, regard as intermediate junction spare through the plastic ring moreover for the lower extreme of plastic casing lateral wall and the lower extreme of glass casing lateral wall are easily connected.

8. The feeding port extends downwards to form the feeding channel, or the through hole extends upwards to the feeding port to form the feeding channel. The two schemes can realize the positioning between the plastic cover and the glass cover and also realize the feeding function of the cup cover.

9. The plastic cover is transparent, and the glass cover is transparent glass cover for the bowl cover is visual, and the user can see through the bowl cover and observe the crushing situation of food in the stirring cup, and user experience feels good.

Drawings

The accompanying drawings are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the example serve to explain the principles of the invention and not to limit the invention.

Fig. 1 is a schematic overall structure diagram of a first embodiment of the present invention;

FIG. 2 is a cross-sectional view of the lid of FIG. 1;

FIG. 3 is an enlarged view of portion B of FIG. 2;

FIG. 4 is a cross-sectional view of the lid in a second embodiment of the present invention;

FIG. 5 is a schematic partial exploded view of FIG. 4;

FIG. 6 is a partial cross-sectional view of the cup cover in the third embodiment of the present invention;

FIG. 7 is an enlarged view of the portion C of FIG. 6;

fig. 8 is an enlarged view of a portion D in fig. 6.

Detailed Description

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. It should be noted that the embodiments and features of the embodiments of the present invention may be arbitrarily combined with each other without conflict.

The first embodiment is as follows:

the structure of the anti-overflow food processor of the embodiment is shown in fig. 1 to 3, and comprises a base 1, a heating body (not shown) and a stirring cup 2 arranged on the base 1, wherein a motor (not shown) and a circuit board, i.e. a control unit (not shown), are arranged in the base 1, the stirring cup 2 comprises a cup body 21 and a cup cover 22, the heating body heats the cup body 21, the heating body of the embodiment is a heating plate with a heating pipe, the heating plate is arranged at the lower part of the cup body 21, the side wall of the cup body 21 is provided with a handle 211, the cup cover 22 covers the upper part of the cup body 21, a crushing knife (not shown) is arranged in the cup body 21, the bottom of the cup body 21 is provided with an upper connector (not shown), the top of the base 1 is provided with a lower connector (not shown), a motor shaft of the motor is connected, make the motor can drive the rotatory food in order to smash stirring cup 2 of crushing sword, be equipped with anti-overflow device 3 on the bowl cover 22, anti-overflow device 3 includes electric conductor 31 and anti-overflow electrode 32, anti-overflow electrode 32 is the bar-type, handle 211 upper end is equipped with the metalwork (not shown) that is used for transmitting the anti-overflow signal, the metalwork is connected with the circuit board electricity, the cup 21 bottom sets up coupler (not shown), 1 top of frame is equipped with down coupler (not shown), the metalwork passing signal line is connected with last coupler electricity, the signal line sets up in handle 211, lower coupler is connected with the circuit board electricity, and thus, when bowl cover 22 lid closes the back that targets in place on cup 21, switch on between electric conductor 31 and the metalwork, so realize switching on.

In this embodiment, the cup cover 22 includes the plastic cover 221 and the glass cover 222, the plastic cover 221 covers the outside of the glass cover 222, the glass cover 222 is not stained when contacting with food, and the glass cover 222 has good surface hydrophobicity, and is not adhered to food, so that the glass cover 222 is easy to clean, safe and sanitary, the plastic cover 221 has plasticity to protect the glass cover 222, so that the glass cover 222 is not easy to break, the minimum thickness of the plastic cover is a, wherein a is not less than 1.5mm and not more than 3mm, a in this embodiment is 2mm, so that the glass cover 222 can be well protected, the weight of the cup cover 22 can not be increased, the cup cover 22 is convenient to operate and use, and the use experience of a user is improved. The upper end of the plastic cover 221 is provided with a feeding port 41, the upper end of the glass cover 222 is provided with a through hole 42, the feeding port 41 is communicated with the through hole 42 through a feeding channel 43, the feeding channel 43 of the embodiment is formed by downward extension of the feeding port 41, and the bottom of the feeding channel 43 is lower than the through hole 42. The plastic cover 221 of the embodiment is a transparent plastic cover, and the glass cover 222 is a transparent glass cover, so that the cup cover 22 is visible, a user can observe the crushing condition of food in the stirring cup 2 through the cup cover 22, and the user experience is good.

The conductor 31 is embedded on the plastic cover 221, the upper end of the anti-overflow electrode 32 is embedded on the plastic cover 221 and connected with the conductor 31, the lower end of the anti-overflow electrode 32 penetrates through the glass cover 222 and then extends downwards into the cup body 21, the glass cover 222 is provided with a through hole for the anti-overflow electrode 32 to pass through, a sealing member 321 is arranged between the through hole and the anti-overflow electrode 32, the sealing member 321 is an I-shaped sealing ring, and the lower end edge of the plastic cover 221 is connected with the lower end edge of the glass cover 222 in a sealing manner, so that the installation problem of the anti-overflow device 3 is solved, the anti-overflow device 3 is easy to install, in addition, slurry cannot enter an interlayer formed between the plastic cover 221 and the glass cover 222 in the installation manner, the safety is good, in addition, the double-layer cup cover formed by the plastic cover 221 and the glass cover 222 has a good heat insulation effect, the plastic cover 221 and, different media are not beneficial to sound transmission, and the sound insulation effect is excellent.

In this embodiment, the plastic cover 221 includes a plastic cover top wall 2211 and a plastic cover side wall 2212, the material inlet 41 is located on the plastic cover top wall 2211, the glass cover 222 includes a glass cover top wall 2221 and a glass cover side wall 2222, the perforation is located on the glass cover top wall 2221, the lower end edge of the plastic cover side wall 2212 is connected with the lower end edge of the glass cover side wall 2222 in a sealing manner, the lower end of the side wall 2212 of the plastic cover is fixedly connected with the lower end of the side wall 2222 of the glass cover through a plastic ring 5, the plastic ring 5 is annular, the plastic ring 5 is ultrasonically welded at the lower end of the side wall 2212 of the plastic cover, a sealing ring 51 is arranged between the lower end of the side wall 2222 of the glass cover and the plastic ring 5, this enables the lower end of the plastic housing sidewall 2212 to be sealingly connected to the lower end of the glass housing sidewall 2222, but also allows for easy connection of the lower end of the plastic housing sidewall 2212 to the lower end of the glass housing sidewall 2222 by the plastic ring 5 acting as an intermediate connection. The reason why the upper end of the anti-overflow electrode 32 and the conductive body 31 in this embodiment are embedded in the top wall 2211 of the plastic cover is that the installation of the anti-overflow electrode 32 and the conductive body 31 is facilitated because the secondary processing of the plastic cover 221 is simpler than that of the glass cover 222, and the glass cover 222 is fragile and inconvenient to install the anti-overflow electrode 32 and the conductive body 31. The conductor 31 is embedded in the plastic cover top wall 2211, the conductor 31 and the plastic cover top wall 2211 are integrally injection-molded, the conductor 31 is secondarily injection-molded in the plastic cover top wall 2211, the upper end of the anti-overflow electrode 32 extends into the plastic cover top wall 2211 to be connected with the conductor 31, the anti-overflow electrode 32 is embedded in the plastic cover top wall 2211 by secondary injection molding, so that the forming is convenient and the installation is firm, the conductor 31 is completely embedded in the plastic cover top wall 2211, on one hand, the external pollution is avoided, the electric conductivity is effectively guaranteed, the glass cover is not scratched by contacting with the glass cover 222, on the other hand, the conductor 31 and the plastic cover top wall 2211 are integrally injection-molded, the installation of the conductor 31 is convenient, the mounting seat 2213 is arranged on the side wall 2212 of the plastic cover, the mounting seat 2213 and the side wall 2212 are integrally molded, after the cup cover 22 is mounted on the cup body 21, the mounting seat 2213 is positioned right above, the mounting seat 2213 is provided with a conducting strip, the upper part of the conducting strip extends into the mounting seat 2213 and then is connected with the conductor 31, when the cup cover 22 covers the cup body 21 in place, the conducting strip is contacted with the metal piece to conduct the conductor 31 and the metal piece, so that the conduction of an anti-overflow signal is realized.

It can be understood that the heating body can also be a magnetic conductive disc, and the top of the machine base is correspondingly provided with an electromagnetic heating disc, namely, the stirring cup is heated by adopting an electromagnetic heating mode.

It can be understood that A can also be 1.5mm or 1.8mm or 2.3mm or 2.6mm or 3mm, and as long as 1.5mm-3mm is met, the glass cover can better protect the glass cover and the weight of the cup cover cannot be increased.

It will be appreciated that the feed passage may also be formed by a bore extending upwardly to the feed opening.

It will be appreciated that the plastic ring may also be adhered to the lower end of the side wall of the plastic cover.

It is understood that the anti-flooding electrode may also be a sheet.

It will be appreciated that the plastic cover may also be opaque.

It can be understood that the electric conductor can also be embedded in the top wall of the plastic cover through double-shot injection molding, and the anti-overflow electrode can also be embedded in the top wall of the plastic cover through double-shot injection molding.

Example two:

the present embodiment is different from the first embodiment in that the installation structure of the anti-overflow device is different, and as shown in fig. 4 to 5, in the present embodiment, the lower surface of the top wall 2211 of the plastic cover is provided with an installation groove 2214, the upper end of the anti-overflow electrode 32 and the conductive body 31 are both embedded in the installation groove 2214, and by providing the installation groove 2214 for specially installing the upper ends of the conductive body 31 and the anti-overflow electrode 31, the conductive body 31 and the anti-overflow electrode 32 are not displaced during use, and the anti-overflow is more reliable.

In order to further prevent the displacement of the conductor 31 and the anti-overflow electrode 32 in the mounting groove 2214, in this embodiment, an abutting piece 2215 for abutting the conductor 31 in the mounting groove 2214 is interposed between the plastic cover top wall 2211 and the glass cover top wall 2221, the abutting piece 2215 is located below the mounting groove 2214, the top of the abutting piece 2215 abuts against the conductor 31, the bottom of the abutting piece 2215 abuts against the upper surface of the glass cover top wall 2221, and the arrangement of the abutting piece 2215 further reduces the possibility of displacement of the conductor 31 and the anti-overflow electrode 32, so that the anti-overflow reliability is greatly improved, and the glass cover 222 is prevented from being scratched due to the contact between the conductor 31 and the glass cover 222.

It will be appreciated that where the cover is opaque, the abutment member may also be an opaque member.

It will be appreciated that the abutment may also be a rubber member.

It can be understood that the abutting part is not arranged, the electric conductor is installed in the installation groove through the screw, the top wall of the plastic cover is provided with a screw hole for the screw to pass through, the screw passes through the screw hole and then is connected with the electric conductor, and therefore the fixation of the electric conductor in the installation groove can be achieved.

Other structures and advantages of the present embodiment are the same as those of the first embodiment, and are not described herein again.

Example three:

the difference between this embodiment and the first and second embodiments is that the connection and fixation structure between the plastic cover and the glass cover is different, as shown in fig. 6 to 7, in this embodiment, the lower end of the side wall 2212 of the plastic cover and the lower end of the side wall 2222 of the glass cover are not fixedly connected by a plastic ring, but the lower end of the side wall 2222 of the glass cover extends outward to form a flange for installing the sealing ring 51, so that the sealing ring 51 is clamped between the lower end of the side wall 2212 of the plastic cover and the lower end of the side wall 2222 of the glass cover, and the top wall 2211 of the plastic cover and the top wall 2221 of the glass cover are fixedly connected by the screw 61, the top wall 2211 of the plastic cover is provided with the screw column 62 extending downward, the top wall 2221 of the glass cover is provided with the screw column hole for the screw column 62 to pass through, after the screw 61 is sleeved with the sealing pad 63, the screw column 62 extends into the screw column 62 from bottom to top and is screwed, this achieves the connection and fixation between the plastic cover 221 and the glass cover 222.

It can be understood that the top wall of the glass cover is provided with a screw column which extends upwards, the top wall of the plastic cover is provided with a screw column hole for the screw column to pass through, and the screw is sleeved with a sealing pad and then is connected with the screw column through threads after extending into the screw column from top to bottom.

It can be understood that the screw column also can be extended inwards from the side wall of the plastic cover, the side wall of the glass cover is provided with a screw column hole for the screw column to pass through, and the screw sleeve is provided with a sealing pad and then is connected with the screw column through threads after extending into the screw column from inside to outside.

It can be understood that the screw column can also be extended outwards from the side wall of the glass cover, the side wall of the plastic cover is provided with a screw column hole for the screw column to pass through, and the screw sleeve is provided with a sealing pad and then is connected with the screw column through threads after extending into the screw column from outside to inside.

It will be appreciated that the lower end of the side wall of the plastic cover and the lower end of the side wall of the glass cover may also be adhered together by a sealant.

Other structures and advantages of this embodiment are the same as those of the first and second embodiments, and are not described herein again.

The above description is only a preferred embodiment of the present invention, and is not intended to limit the scope of the present invention, i.e. all equivalent variations and modifications made by the present invention are covered by the scope of the claims of the present invention, which is not limited by the examples herein.

Claims (10)

1. A safe and sanitary anti-overflow food processor comprises a base, a heating body and a stirring cup arranged on the base, wherein a motor is arranged in the base, the stirring cup comprises a cup body and a cup cover, the cup cover covers the upper part of the cup body, a crushing cutter is arranged in the cup body, the motor drives the crushing cutter to rotate, an anti-overflow device is arranged on the cup cover and comprises an electric conductor and an anti-overflow electrode, the anti-overflow food processor is characterized in that the cup cover comprises a plastic cover and a glass cover, the plastic cover is arranged outside the glass cover, a feeding port is arranged at the upper end of the plastic cover, a through hole is arranged at the upper end of the glass cover, a feeding channel is arranged between the feeding port and the through hole, the lower end edge of the plastic cover is hermetically connected with the lower end edge of the glass cover, the electric conductor is embedded on the plastic cover and connected with the electric conductor, the lower end of the anti-overflow electrode, a sealing element is arranged between the perforation and the anti-overflow electrode.

2. The spill-resistant food processor as recited in claim 1, wherein the plastic housing comprises a plastic housing top wall and plastic housing side walls, the glass housing comprises a glass housing top wall and glass housing side walls, the lower end edges of the plastic housing side walls are sealingly connected to the lower end edges of the glass housing side walls, and the upper end of the spill-resistant electrode and the electrical conductor are embedded in the plastic housing top wall.

3. The spill-resistant food processor defined in claim 2 wherein the electrical conductor is embedded in the top wall of the plastic housing and is injection molded integrally with the top wall of the plastic housing, the upper end of the spill-resistant electrode extending into the top wall of the plastic housing for connection with the electrical conductor.

4. The spill-resistant food processor as recited in claim 2, wherein the plastic housing has a mounting groove in a lower surface of a top wall thereof, and wherein the upper end of the spill-resistant electrode and the electrical conductor are embedded in the mounting groove.

5. The spill-resistant food processor as recited in claim 4, wherein an abutment member for abutting the electrical conductor in the mounting slot is interposed between the plastic cover top wall and the glass cover top wall, the abutment member being located below the mounting slot, a top of the abutment member abutting the electrical conductor, and a bottom of the abutment member abutting an upper surface of the glass cover top wall.

6. The spill-resistant food processor as recited in claim 4, wherein the electrical conductor is mounted in the mounting slot by a screw, the plastic housing top wall being provided with a screw hole for the screw to pass through, the screw passing through the screw hole and being connected to the electrical conductor.

7. The spill-resistant food processor as claimed in claim 2, wherein the lower end of the side wall of the plastic housing is fixedly connected to the lower end of the side wall of the glass housing by means of a plastic ring, the plastic ring being ultrasonically welded or bonded to the lower end of the side wall of the plastic housing, and a sealing ring being provided between the lower end of the side wall of the glass housing and the plastic ring.

8. The spill-resistant food processor as recited in claim 1, wherein the feed port extends downwardly to form the feed channel.

9. The spill-resistant food processor as recited in claim 1, wherein the through hole extends upwardly to a feed port to form the feed channel.

10. The spill-resistant food processor as recited in claim 1, wherein the plastic cover is a transparent plastic cover and the glass cover is a transparent glass cover.

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