CN217364454U - Food processor - Google Patents

Abstract

The utility model discloses a food processor, which comprises a frame and a water tank and a dough barrel assembly arranged on the frame; the water tank is positioned beside the noodle barrel assembly, and the water tank is communicated with the noodle barrel assembly through a waterway communicating assembly arranged in the base; be provided with the water guide structure in the frame, at least part the water guide structure is located the below of water tank, in order with the water tank or the water that water route intercommunication subassembly was revealed is derived to predetermineeing the position to when the water tank or be used for the water route coupling assembling that feeds through water tank and face bucket subassembly to take place to leak, water can directly drip to the water guide structure of water tank below, and derive through the water guide structure, thereby avoid water directly to drip to the electrical part in the frame on, cause the damage to the electrical part.

Description

Food processor

Technical Field

The present disclosure relates to the field of food processing technology, and more particularly, to a food processor.

Background

Food processors typically include a base, a water tank, and a dough barrel assembly, among other things, that are mounted on the base and in communication such that water from the water tank can be delivered into the dough barrel assembly and mixed with flour in the dough barrel assembly to form a dough wadding.

However, in the related art, water in the water tank may leak into the housing, and the leaked water may cause damage to electric devices in the housing.

SUMMERY OF THE UTILITY MODEL

To solve the above technical problem or at least partially solve the above technical problem, the present disclosure provides a food processor.

The present disclosure provides a food processor, comprising a base, and a water tank and a dough barrel assembly arranged on the base;

the water tank is positioned beside the noodle barrel assembly, and the water tank is communicated with the noodle barrel assembly through a waterway communicating assembly arranged in the base; the water guide structure is arranged in the base, and at least part of the water guide structure is located below the water tank so as to guide water leaked from the water tank or the water path communication assembly to a preset position.

In this technical scheme, through setting up the water guide structure in the frame, and at least part of water guide structure sets up the below at the water tank, thereby when the water tank or the water route coupling assembling that is used for communicateing water tank and face bucket subassembly takes place to leak, water can directly drip to the water guide of water tank below structural, and derive to predetermineeing the position through the water guide structure, promptly, will leak to the water in the frame in time derive through the water guide structure, thereby avoid water directly to drip on the electrical part in the frame downwards or avoid leaking to the electrical part in the frame ponding rivers in the frame, and lead to the condition that the electrical part takes place the damage to appear, effectively protect the part in the frame, the life of food processor has been guaranteed.

According to an embodiment of the present disclosure, the water guide structure includes a first water guide plate located below the water tank, and the first water guide plate is inclined toward the bottom of the base in a width direction of the base;

the base is provided with a drain hole communicated with the outside, so that water is led out through the first water guide plate and the drain hole.

In this technical scheme, through making the water guide structure include first water guide plate, and first water guide plate downward sloping sets up, makes it can carry out the water conservancy diversion effect to water, makes things convenient for water to flow fast and derive through the wash port after dropping on first water guide plate.

According to an embodiment of the present disclosure, an angle between the first water deflector and the horizontal direction is in a range of 2 ° to 60 °.

In this technical scheme, through the first water guide board of reasonable setting and the ascending contained angle scope of horizontal direction to be convenient for water rapid water conservancy diversion on first water guide board.

According to one embodiment of the disclosure, a water guide opening is formed between one end, close to the water drain hole, of the first water guide plate and the inner wall of the machine base, and the water drain hole is formed in the bottom wall of the machine base and is communicated with the water guide opening.

In the technical scheme, a water guide opening is formed between one end, close to the drain hole, of the first water guide plate and the inner wall of the machine base, so that water guided by the first water guide plate can flow downwards along the inner wall of the machine base and is discharged through the drain hole, and the electric device in the machine base is prevented from being damaged by the water. A water guide gap is formed between one end of the first water guide plate and the inner wall of the machine base, and the drain hole is formed in the bottom wall of the machine base, so that the structure is simple, and the drainage is convenient; because the drain hole is positioned on the bottom wall of the machine base, the drain hole is hidden when water is drained, and the aesthetic feeling of the appearance of the food processor is improved.

According to an embodiment of the present disclosure, the drain hole coincides with a central axis of the water guide port.

In the technical scheme, the drain holes and the water guide port are arranged on the same vertical line, so that water discharged from the water guide port can directly flow downwards along the inner wall of the machine base and can be discharged from the drain holes below, the accumulated water in the machine base can be discharged more quickly, and the electric device in the machine base cannot be influenced.

According to an embodiment of the present disclosure, in a length direction along the base, both side edges of the first water deflector have water blocking flanges extending toward a top of the base.

In the technical scheme, the two side edges of the first water guide plate extend upwards to form the water retaining flanging, so that water drops on the first water guide plate cannot flow out from the two side edges of the first water guide plate to drop on the electric device to influence the electric device, and the water guide effect is further improved.

According to an embodiment of the present disclosure, a water chute is formed on the first water deflector, and the water chute extends along a width direction of the machine base.

In the technical scheme, in order to facilitate the rapid directional discharge of water dropping on the first water guide plate to the water guide opening, a water guide groove can be arranged on the first water guide plate, so that the flow of water is facilitated, and the water discharge speed is further improved.

According to one embodiment of the present disclosure, the base includes a first mounting portion and a second mounting portion located beside the first mounting portion, and the dough barrel assembly is disposed on the first mounting portion; the water tank is arranged at the top of the second mounting part; the waterway communicating component is arranged between the water tank and the side wall of the base, which is far away from the drain hole;

the water guide structure further comprises a second water guide plate connected with the first water guide plate, and the second water guide plate is arranged on one side, away from the water guide hole, of the water path communication assembly.

In this technical scheme, still including locating the second water guide board that deviates from one side in water guide hole of water route intercommunication subassembly through setting up the water guide structure, can wrap up water route intercommunication subassembly through first water guide board and second water guide board jointly, can block that the water droplet that water route intercommunication subassembly was revealed causes the influence to the electrical part in arriving the frame.

According to an embodiment of the present disclosure, the second water guide plate is vertically disposed between the waterway communication assembly and a side wall of the base, the side wall being far away from the drain hole, and a bottom end of the second water guide plate is connected to an end of the first water guide plate, the end being far away from the drain hole.

In the technical scheme, the second water guide plate is vertically arranged, so that the space between the waterway communication assembly and the side wall of the base, which is far away from the drain hole, can be fully utilized, and the arrangement space of the waterway communication assembly in the base is saved.

According to an embodiment of the present disclosure, the first water deflector and the second water deflector are integrally formed.

In the technical scheme, the first water guide plate and the second water guide plate are integrally formed, so that the manufacturing process can be saved, and the structural strength of the water guide plate can be enhanced.

According to an embodiment of the present disclosure, a first mounting hole is formed in the water guide structure, a second mounting hole is formed in a position, corresponding to the first mounting hole, on the base, and the water guide structure is fixed on the base through a mounting member penetrating through the first mounting hole and the second mounting hole.

In this technical scheme, pass through installed part fixed connection through setting up water guide structure and frame for the connection of water guide structure and frame is more firm reliable.

According to one embodiment of the present disclosure, the food processor is a noodle maker; the noodle maker further comprises a stirring structure and a noodle extruding structure, wherein the stirring structure is arranged in the noodle barrel assembly, and the noodle extruding structure is arranged on the noodle barrel assembly and communicated with the noodle barrel assembly.

In this technical scheme, be used for stirring flour and water through setting up stirring structure and mix and form the dough after, extrude the dough through crowded face structure and carry out extrusion to obtain required noodless fast.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate embodiments consistent with the present disclosure and together with the description, serve to explain the principles of the disclosure.

In order to more clearly illustrate the embodiments or technical solutions in the prior art of the present disclosure, the drawings used in the description of the embodiments or prior art will be briefly described below, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without inventive exercise.

FIG. 1 is a front perspective view of a food processor according to an embodiment of the present disclosure;

FIG. 2 is a rear perspective view of a food processor according to an embodiment of the present disclosure;

FIG. 3 is a front view of a food processor according to an embodiment of the present disclosure;

FIG. 4 is a rear view of a food processor according to an embodiment of the present disclosure;

FIG. 5 is a right side view of a food processor according to an embodiment of the present disclosure;

FIG. 6 is a left side view of a food processor according to an embodiment of the present disclosure;

FIG. 7 is an exploded view of a food processor according to an embodiment of the present disclosure;

FIG. 8 is an exploded view of a base and an operating display panel assembly of the food processor according to the embodiment of the present disclosure;

FIG. 9 is an internal schematic view of a food processor according to an embodiment of the present disclosure;

FIG. 10 is a front view of an operating display panel assembly of the food processor of the present disclosure;

FIG. 11 is a cross-sectional view at A-A of FIG. 10;

FIG. 12 is a schematic view of a water tank and power system of a food processor according to an embodiment of the present disclosure;

FIG. 13 is a front view of the food processor with the dough barrel assembly removed according to the disclosed embodiment;

FIG. 14 is a rear view of the food processor with the flour bucket assembly and base removed according to the disclosed embodiment;

FIG. 15 is a top view of the food processor of the disclosed embodiment with the dough barrel assembly removed;

FIG. 16 is a top view of a food processor according to an embodiment of the present disclosure.

100, a machine base; 101. a noodle outlet; 102. an air outlet; 103. a heat generating film; 104. a decorative member; 105. a side decorative plate; 106. an electronic scale; 107. a bottom cover; 110. a first mounting portion; 120. a second mounting portion; 1201. a first sub-mount section; 1202. a second sub-mount section; 1203. mounting holes; 1204. sinking a groove; 130. an accommodating cavity; 140. a mounting cavity; 150. a second fastening hole; 160. a power panel; 170. a water guide structure; 1701. a first water guide plate; 1702. a second water guide plate; 1703. a water guide port; 1704. a drain hole; 200. a noodle bucket assembly; 210. a dough barrel; 220. a cylinder cover; 300. operating the display panel assembly; 310. a control panel; 3101. a second connection hole; 320. a baffle plate; 3201. a third connection hole; 330. a support; 3301. a first connection hole; 3302. a first fastening hole; 340. operating the display screen; 400. a water tank; 500. a power system; 600. a wind guide and drainage system; 610. a drawer assembly; 620. a drawer support; 630. a fan; 640. a fan guard; 700. stirring a knife; 800. a noodle extruding structure; 810. a dough outlet screw; 820. a die piece; 900. the water route intercommunication subassembly.

Detailed Description

In order that the above objects, features and advantages of the present disclosure may be more clearly understood, aspects of the present disclosure will be further described below. It should be noted that the embodiments and features of the embodiments of the present disclosure may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure, but the present disclosure may be practiced in other ways than those described herein; it is to be understood that the embodiments disclosed in the specification are only a few embodiments of the present disclosure, and not all embodiments.

Referring to fig. 1 to 16, the present embodiment provides a food processor, such as a noodle maker, for noodle preparation. Specifically, the food processor includes: the machine base 100, the water tank 400, the flour bucket assembly 200 and the waterway communication assembly 900.

In this embodiment, the water tank 400 and the tub assembly 200 are both disposed on the frame 100. In particular, the water tank 400 can be arranged beside the flour bucket assembly 200. The waterway communicating component 900 is disposed in the base 100, and the flour bucket component 200 on the base 100 is communicated with the water tank 400 through the waterway communicating component 900. If water leaks from the water tank 400 or the waterway connection assembly 900, the water may drop into the housing 100 and damage electric devices in the housing 100.

Therefore, in this embodiment, as shown in fig. 9 and 12, the water guide structure 170 is disposed in the housing 100, and a part of the water guide structure 170 is disposed below the water tank 400, so that when water leaks from the water tank 400 or the water path communication assembly 900 for communicating the water tank 400 with the dough barrel assembly 200, water may directly drip on the water guide structure 170 below the water tank 400, and be guided out to a preset position through the water guide structure 170, for example, may be guided out of the housing 100 or guided into a collection container in the housing 100, thereby preventing water from directly dripping down on electric devices in the housing 100 to damage the electric devices.

In particular, the mounting position of the flour bucket assembly 200 on the base 100 may be: referring to the drawing direction shown in fig. 1, the right half of the housing 100 is defined as a first mounting portion 110, the left half of the housing 100 is defined as a second mounting portion 120, and the second mounting portion 120 may be higher than the first mounting portion 110. That is, referring to the z direction shown in fig. 1, the top of the second mounting portion 120 is higher than the top of the first mounting portion 110, and the bottoms of the first mounting portion 110 and the second mounting portion 120 are flush, so that the first mounting portion 110 and the second mounting portion 120 jointly enclose the accommodating cavity 130 in an L-shaped structure, and the accommodating cavity 130 can be used for mounting the surface bucket assembly 200.

Still specifically, referring to fig. 1 and 2, the left second mounting part 120 may include a first sub-mounting part 1201 on one side of the first mounting part 110 and a second sub-mounting part 1202 on a back side of the first sub-mounting part 1201. That is, the first sub-mounting part 1201 and the second sub-mounting part 1202 are located at the same side of the first mounting part 110, and the first sub-mounting part 1201 and the second sub-mounting part 1202 are sequentially arranged in the width direction of the food processor, that is, in the y direction shown in fig. 2.

In addition, by disposing the top of the portion of the second mounting part 120 to be downwardly concave, the top of the portion of the second mounting part 120 is higher than the top of the remaining portion of the second mounting part 120, that is, the second mounting part 120 itself forms an L-shaped structure as shown in fig. 2, that is, an L-shaped mounting cavity 140 for mounting the water tank 400.

Therefore, in the present embodiment, the housing 100 is divided into the left second mounting portion 120 and the right first mounting portion 110, and further, when viewed from the front of the housing 100 (both the front and the rear are viewed from fig. 4), the housing 100 is L-shaped as a whole, and after the flour barrel assembly 200 is mounted on the L-shaped receiving cavity 130, when viewed from the front of the housing 100, the outer contour formed by the housing 100 and the flour barrel assembly 200 together is smooth and regular as a whole. On the other hand, the second mounting portion 120 of the housing 100 is configured to have an L-shaped mounting cavity 140, so that the housing 100 is L-shaped as a whole when viewed from a side surface of the housing 100 (the side surface referred to herein and hereinafter is the viewing angle shown in fig. 5), and after the water tank 400 is mounted on the L-shaped mounting cavity 140, an outer contour formed by the housing 100 and the water tank 400 together is smooth and regular when viewed from the side surface of the housing 100.

In conclusion, the food processor of the embodiment reasonably sets the structure of the machine base 100, so that the arrangement positions of the noodle barrel assembly 200 and the water tank 400 are more reasonable, the water tank 400 can be vertically installed from top to bottom, and the water tank 400 can be installed and disassembled more conveniently.

Compared with the mode that the water tank 400 is embedded in the base 100 from the side surface of the base 100, the water tank 400 is directly vertically installed from the top of the base 100, so that the alignment, installation and disassembly of the water tank 400 are convenient and feasible, and the arrangement position of the water tank 400 is more reasonable.

In addition, as shown in fig. 2, the second sub-mount 1202 is disposed at the back side of the first sub-mount 1201, so that the space of the second mount 120 can be better utilized, and the water path connection between the water tank 400 and the noodle bucket assembly 200 is more convenient because the second sub-mount 1202 is also disposed at the side of the first mount 110.

It should be noted that, referring to fig. 1, 2 and 4, the above description of dividing the machine base 100 into the first mounting portion 110 and the second mounting portion 120 into the first sub-mounting portion 1201 and the second sub-mounting portion 1202 are both for convenience of describing the respective arrangement positions of the water tank 400 and the tub assembly 200, and should not be understood that the machine base 100 is divided into separate parts, that is, the machine base 100 itself is a separate whole. In addition, an arc-shaped decorative plate can be further arranged at the top of the first sub-mounting portion 1201, and a vertical decorative plate can be further mounted on the side face of the first sub-mounting portion.

In this embodiment, the water guide structure 170 may be provided with a first water guide plate 1701 arranged obliquely, and the first water guide plate 1701 is located below the water tank 400 and arranged obliquely downward along the width direction of the base 100, for example, referring to the y direction shown in fig. 9, that is, the direction from right to left, the first water guide plate 1701 is arranged obliquely downward, so that the first water guide plate 1701 may guide water, and water may flow rapidly after dropping on the first water guide plate 1701 and be led out of the base 100 through a water discharge hole 1704 in the base 100.

Specifically, referring to the drawing direction shown in fig. 9, the first water guide plate 1701 is inclined downward to the left so that water dropped onto the first water guide plate 1701 quickly flows to the drain holes 1704 in the housing and is discharged through the first water guide plate 1701.

During specific implementation, the included angle range between the first water guide plate 1701 and the horizontal direction can be set to be 2-60 degrees, so that rapid water guide is realized by reasonably setting the included angle range between the first water guide plate 1701 and the horizontal direction.

For example, the angle between the first water guide plate 1701 and the horizontal direction may be 2 °, so that the present invention is suitable for the case where the amount of the leaked water is large, and at this time, the water itself may be guided to the water discharge hole 1704 rapidly by the dual action of gravity and the inclined first water guide plate 1701.

For example, the first water guide panel 1701 may have an angle of 30 ° with the horizontal direction, so that it may be suitable for a case where the amount of the leaked water is moderate. At this time, since the amount of the leaked water is moderate, the water can be guided to the drain hole 1704 quickly by the dual action of gravity and the inclined first water guide plate 1701.

For example, the first water guide panel 1701 may have an angle of 60 ° with the horizontal direction, so that it may be applied to a case where the amount of the leakage water is small. At this time, since the amount of leaked water is small, the force of gravity acting on the water to flow is small, and thus the inclination angle of the first water guide plate 1701 needs to be set large in order to accelerate the flow of water. The specific angle between the first water guide plate 1701 and the horizontal direction may be set according to actual needs, and this embodiment does not set this specifically.

In a specific implementation, a water guide port 1703 may be formed between an end of the first water guide plate 1701 near the water discharge hole 1704 and an inner wall of the housing 100, so that water guided through the first water guide plate 1701 may flow downward along the inner wall of the housing 100 and be discharged through the water discharge hole 1704, thereby preventing the water from damaging electric devices in the housing 100.

Specifically referring to the drawing direction shown in fig. 9, a water guide opening 1703 is formed in a gap between the left end of the first water guide plate 1701 and the inner wall of the engine base 100, and the size of the water guide opening 1703 may be set according to actual needs.

In addition, a drain hole 1704 may be formed in the bottom wall of the housing 100, so that the water guided by the first water guide plate 1701 flows downward along the inner wall of the housing 100 after flowing out through the water guide port 1703 and is discharged through the drain hole 1704 formed in the bottom wall of the housing 100. The drain holes 1704 are formed in the bottom wall of the base 100, so that the appearance of the base 100 is attractive, the problem of poor appearance caused by the fact that the drain holes 1704 are exposed outside is solved, the drain holes 1704 are formed in the bottom wall of the base 100, water can be drained through the drain holes 1704 after the water directly slides to the bottom wall through the inner wall of the base 100, and the water can be drained more quickly.

During specific implementation, the central axis of the drain hole 1704 and the water guide port 1703 can be overlapped, that is, the drain hole 1704 and the water guide port 1703 are located on the same vertical line, so that water drained through the water guide port 1703 directly flows downwards along the inner wall of the engine base 100 and is drained through the drain hole 1704, drainage of accumulated water in the engine base 100 is faster, and influence on electric devices in the engine base 100 is avoided.

In this embodiment, in order to ensure that the water dropping on the first water guide plate 1701 is guided to the water guide port 1703 and slides down to the bottom of the housing 100 along the inner wall of the housing 100 and is discharged through the water discharge hole 1704, the water does not slide out from both sides of the first water guide plate 1701 and drops on the electric devices in the housing 100.

Therefore, in the first embodiment, the first water guide plate 1701 may be provided with a water blocking flange. In a specific implementation, the water blocking flange is formed by extending two side edges in the longitudinal direction (refer to the x direction shown in fig. 1) of the machine base 100. The specific upward extending height of the water retaining flanging is set according to actual needs.

In the second implementation manner, a water guide groove may be formed in the first water guide plate 1701 to extend along the width direction of the housing (see the y direction shown in fig. 9), that is, in the drawing direction shown in fig. 9, and the water guide groove extends from the left end of the first water guide plate 1701 to the right end of the first water guide plate 1701, so as to ensure that water dropping on the first water guide plate 1701 is directly guided to the left end of the first water guide plate 1701 by the water guide groove, discharged through the water guide port 1703, slides along the inner wall of the housing 100, and is discharged through the water discharge hole 1704 in the bottom wall of the housing 100.

The cross section of the water chute may be square or arc, and the depth of the water chute along the height direction (refer to the z direction of fig. 2) of the housing 100 may be set according to actual needs.

The connection between the water guide structure 170 and the housing 100 may be: the water guide structure 170 is provided with a first mounting hole, a second mounting hole is formed at a position corresponding to the first mounting hole on the base 100, and the mounting member is disposed in the first mounting hole and the second mounting hole, so that the water guide structure 170 is stably and reliably connected to the base 100.

In a specific implementation, the first installation hole may be formed on the first water guide plate 1701, so that the water guide structure 170 is fixed in the housing 100 by the connection of the first water guide plate 1701 and the housing 100. For example, the first and second mounting holes may be threaded holes, and the mounting member may be a screw or a threaded rod. In addition, the first mounting hole and the second mounting hole may be provided in plurality, and the mounting member may also be provided in plurality accordingly, so that the connection between the water guide structure 170 and the machine base 100 is more stable and reliable.

During specific implementation, the water guide structure 170 may further include a second water guide plate 1702 located on a side of the waterway communication assembly 900 away from the drain hole 1704, and the waterway communication assembly 900 may be wrapped by the first water guide plate 1701 and the second water guide plate 1702 together, so that water leaked from the waterway communication assembly 900 may be prevented from dripping into the base 100 to affect the electric device.

That is to say, the second water guide plate 1702 is disposed on the right side of the waterway communicating component 900, and the second water guide plate 1702 and the first water guide plate 1701 are connected to form an L shape as shown in fig. 9, so as to wrap the water tank 400 and the waterway communicating component 900, so that water leaked from the water tank 400 and the waterway communicating component 900 can be guided out, and the influence of water dropped from the water tank 400 and the waterway communicating component 900 on electric devices in the base 100 is avoided.

In specific implementation, the second water guide plate 1702 may be vertically disposed, and a space between the waterway communication assembly 900 and a side wall of the base 100 far away from the drain hole 1704 may be fully utilized, so as to save a disposing space in the base 100.

Specifically, the bottom of the second water guide plate 1702 is connected to the right end of the first water guide plate 1701, for example, by welding or bonding or fastening.

In specific implementation, the first water guide plate 1701 and the second water guide plate 1702 may be integrally formed, so that not only the manufacturing process may be saved, but also the structural strength thereof may be enhanced.

In specific implementation, as shown in fig. 1 to 16, the food processor of the present embodiment further includes an operation display panel assembly 300. Here, the operation display panel assembly 300 is disposed on an outer sidewall of the second mounting part 120, which may particularly refer to a front sidewall of the second mounting part 120 from the perspective shown in fig. 1. In a specific implementation, referring to fig. 8, the operation display panel assembly 300 may specifically include an operation display screen 340, where the operation display screen 340 is specifically provided with a plurality of keys, and the food processor may execute corresponding instructions, such as a dough mixing instruction, a dough waking instruction, a dough outputting instruction, and the like, by pressing the corresponding keys.

In a concrete implementation, the operation display screen 340 is disposed to be inclined rearward, i.e., inclined in a direction away from the front side wall of the second mounting portion 120, in a direction from the bottom surface to the top surface of the second mounting portion 120, i.e., in the z direction shown with reference to fig. 1 and 2. That is, referring to the direction shown in fig. 2, the operation display screen 340 is inclined in the upper left direction, so that the operation display screen 340 may form a certain angle with the vertical direction, thereby facilitating the user to view the keys on the operation display screen 340. That is to say, compared with the manner in which the operation display screen 340 is vertically arranged in the prior art, the operation display screen 340 is arranged in an inclined manner, so that the user can conveniently watch the operation display screen 340 and perform corresponding operations.

During specific implementation, the included angle range of the operation display screen 340 relative to the vertical direction can be set to be 1 to 45 degrees, so that the inclination angle of the operation display screen 340 is reasonably set, and a user can conveniently watch the operation display screen 340 and perform corresponding operation.

For example, the included angle of the operation display screen 340 with respect to the vertical direction may be 10 °, 20 °, 30 ° or 45 °, and the specific inclination angle of the operation display screen 340 may be set according to actual needs, which is not limited in this embodiment.

In this embodiment, as a preferred scheme, an included angle between the operation display screen 340 and the vertical direction may be set to be 45 °, which is more favorable for a user to completely view the operation display screen 340.

In specific implementation, in order to facilitate the installation smoothness of the inclined operation display screen 340 on the second installation part 120, the outer wall surface of the second installation part 120 can be inclined, so that after the operation display screen 340 is arranged on the second installation part 120, the outer wall surface of the second installation part 120 is parallel to the operation display screen 340, so that no included angle is formed between the outer wall surface and the operation display screen 340, the inclined arrangement of the operation display screen 340 can be ensured, and the smooth overall outer surface of the food processor can be ensured.

In particular, the operation display panel assembly 300 is further provided with a baffle 320 and a control panel 310. As shown in fig. 7 and 8, the operation display screen 340 is connected to the outer side of the bracket 330, the control board 310 is disposed on the side of the bracket 330 away from the operation display screen 340, and the baffle 320 is connected to the side of the control board 310 away from the bracket 330. That is, the barrier 320, the operation display 340, the bracket 330 and the operation display 340 are sequentially disposed along the inside of the housing 100 to the outside.

During specific assembly, referring to fig. 7, an installation hole 1203 matched with the bracket 330 is formed on the outer side wall of the second installation portion 120, the bracket 330 is arranged in the installation hole 1203, and the edge of the bracket 330 is in sealing fit with the hole wall of the installation hole 1203, so that water, flour, mosquitoes and the like outside the base 100 are prevented from entering the base 100, and further, electric devices in the base 100 are prevented from being damaged.

In addition, in this embodiment, the control panel 310, the baffle 320 and the bracket 330 may be connected to form an integral and then installed at the installation hole 1203 of the first sub-installation part 1201. Since the operation display screen 340 is disposed obliquely as described above, the bracket 330, the baffle 320, the control board 310 and the operation display screen 340 may be disposed obliquely and parallel to each other.

The connection structure for the bracket 330, the control plate 310, and the baffle 320 is: the bracket 330 is provided with a first connection hole 3301, the control board 310 is provided with a second connection hole 3101 at a position corresponding to the first connection hole 3301, and the blocking plate 320 is provided with a third connection hole 3201 at a position corresponding to the second connection hole 3101. The connection members are sequentially disposed in the first connection hole 3301, the second connection hole 3101 and the third connection hole 3201, thereby sequentially connecting the bracket 330, the control board 310 and the blocking plate 320 to form a whole.

In a specific implementation, the connecting member may be a screw or a bolt, and the first connecting hole 3301 and the second connecting hole 3101 may be threaded holes engaged with the screw or the bolt. In addition, the first connection hole 3301 may be plural, and a plurality of first connection holes 3301 are provided along the circumferential direction of the rack 330 at intervals. Similarly, the second connection holes 3101 may be provided in plurality, and the second connection holes 3101 correspond to the first connection holes 3301 one by one. Similarly, the number of the third connection holes 3201 may be plural, and the third connection holes 3201 correspond to the second connection holes 3101 one to one. By providing a plurality of first, second and third connection holes 3301, 3101 and 3201, the connection of the bracket 330, the control board 310 and the barrier 320 is more reliable.

In other embodiments, the operation display panel assembly 300 may be integrally connected to the base 100 in a snap-fit manner. For a specific connection manner, reference may be made to the two examples, which are not limited in this embodiment.

In addition, as shown in fig. 7 to 9, the baffle 320 is provided to prevent mosquitoes and water drops on the outer wall of the base 100 from entering the base 100, thereby damaging the power panel 160 in the base 100, and the baffle 320 is provided to prevent water and insects.

Referring to fig. 7 to 9, the connection structure between the operation display panel assembly 300 and the base 100 specifically includes: after the bracket 330, the control panel 310 and the barrier 320 are integrally coupled in the above manner, the operation display panel assembly 300 is integrally coupled to the housing 100. Specifically, the bracket 330 is provided with a first fastening hole 3302, a second fastening hole 150 is provided on a hole wall of the mounting hole 1203 at a position corresponding to the first fastening hole 3302, and the operation display panel assembly 300 is fixed in the mounting hole 1203 by fasteners provided in the first fastening hole 3302 and the second fastening hole 150.

In a specific implementation, the fastening members may be screws or bolts, and the first fastening hole 3302 and the second fastening hole 150 may be threaded holes engaged with the screws or bolts. In addition, the first fastening hole 3302 may be plural, and a plurality of the first fastening holes 3302 are provided on four sides at intervals along the circumference of the bracket 330. Similarly, the second fastening holes 150 may be provided in plurality, and the second fastening holes 150 correspond to the first fastening holes 3302 one to one. The first fastening holes 3302 and the second fastening holes 150 are provided in a plurality, so that the connection between the bracket 330 and the housing 100 is more reliable.

In other embodiments, the operation display panel assembly 300 may be integrally connected to the base 100 in a snap-fit manner. For a specific connection manner, reference may be made to the two examples, which are not limited in this embodiment.

In a specific implementation, referring to fig. 7 and 8, the front surface of the second mounting portion 120 may be recessed to form a sink 1204, i.e., the front surface of the second mounting portion 120 is recessed to form the sink 1204 in a direction close to the water tank assembly. The mounting hole 1203 is formed in the sinking groove 1204, and the operation display screen 340 is flush with the notch of the sinking groove 1204, so that the overall outer wall surface of the food processor is smoother.

In this embodiment, referring to fig. 8 and 9, the food processor further includes a power board 160 disposed in the base 100, a lead hole through which a signal line can pass is disposed at the bottom of the control board 310, and the power board 160 is connected to the control board 310 through the signal line; and the lead hole is provided with a sealant, so that the operation display panel assembly 300 is integrally sealed, and water or mosquitoes outside the base 100 can be prevented from entering the base 100 through the operation display panel assembly 300 to affect the power panel 160.

During the concrete realization, to the connection structure of water tank 400 and installation cavity 140 specifically be: can set up first joint portion on the bottom of water tank 400, the position that corresponds with first joint portion on installation cavity 140 can set up second joint portion, and the joint cooperation through first joint portion and second joint portion to fix water tank 400 in installation cavity 140, can ensure that water tank 400 can not take place to rock or drop, also can easily dismantle water tank 400.

For example, in this embodiment, the first clamping portion may be a clamping rib, and the second clamping portion is a clamping groove, so that when the water tank 400 is installed from top to bottom, the clamping rib at the bottom of the water tank is inserted into the clamping groove in the installation cavity 140, thereby realizing detachable connection. Or, the first clamping portion is a clamping groove, the second clamping portion is a clamping rib, and the clamping rib of the installation cavity 140 is clamped through the clamping groove in the bottom of the water tank 400, so that detachable connection is achieved.

In addition, in this embodiment, for being more convenient for from the top down install water tank 400, when setting up the card muscle, the card muscle can be followed the bottom of frame 100 and extended to the direction at top (being the z direction shown in fig. 5) to when from the top down joint water tank 400, water tank 400 directly realizes its fixed connection on installation cavity 140 through the card muscle and the draw-in groove cooperation of vertical extension.

Certainly, in other implementation manners, the clamping rib may also extend in the horizontal direction, at this time, the water tank 400 may be inclined a little relatively, and after the clamping rib is clamped into the clamping groove, the water tank 400 is mounted in the mounting cavity 140.

Specifically, referring to fig. 7, the food processor may further include a power system 500, a waterway connection assembly 900, and a noodle-squeezing structure. The bottom of the base 100 is provided with a bottom cover 107, so as to form a closed chamber together with the base 100 for placing the power system 500, the waterway connection assembly 900 and the like.

When dough making is carried out, the water path communicating component 900 is used for communicating the dough barrel component 200 and the water tank 400, so that water in the water tank 400 is conveyed into the dough barrel component 200 through the water path communicating component 900, then proper amount of flour can be added into the dough barrel component 200, then the power system 500 drives the stirring knife 700 in the dough barrel component 200 to rotate so as to carry out dough making or dough kneading, and after the dough making or dough kneading is finished, the power system 500 drives the dough extruding structure 800 to extrude and send out dough, so that one-time dough making can be finished.

That is, an electronic scale 106 may be disposed outside the housing 100 of the food processor of this embodiment for weighing the noodles, so that the flour can be accurately mixed with water to prepare the noodles. The food processor may be provided with an operation display panel assembly 300, so that the operation display panel assembly 300 may be operated to perform control of dough making, dough standing and dough outlet, specifically, by operating menu keys on the operation display panel assembly 300.

The specific operation flow is as follows: the electronic scale 106 is connected to the food processor through bluetooth or signal lines. When the electronic scale 106 weighs flour, a menu button on the operation display panel assembly 300 is pressed to select a corresponding control command, and then the weighed flour is poured into the flour bucket 210 of the flour bucket assembly 200, and then the cover 220 of the flour bucket assembly 200 is closed. The corresponding instruction is selected, the program is started, the food processor starts to operate and execute the corresponding instruction, and the water path communication assembly 900 transfers the water in the water tank 400 into the flour bucket 210. The power system 500 drives the stirring knife 700 of the stirring device to rotate, the stirring knife 700 stirs the flour and the water to form cotton wool, and then the power system 500 drives the flour outlet screw 810 of the flour extruding structure 800 to convey the cotton wool to the die head sheet 820 of the flour extruding structure 800 for extrusion molding, thereby completing primary flour making.

In a specific implementation, the power system 500 is disposed in the base 100 and below the water tank 400. Specifically, the power system 500 is composed of a motor, a gear box and related connecting bushings. The motor may particularly provide two forces in vertical and equilibrium directions. Providing force in the vertical direction to a stirring knife to stir the flour and water (or other liquid) into dough wadding; the balance direction provides force to give the face screw extrusion molding.

In specific implementation, the waterway communicating component 900 is located in the base 100 and above the power system 500 and is located at one side of the water tank 400, so that the waterway communicating component is closer to the water tank 400, and the internal structure of the whole food processor is more compact, so that related waterway errors are reduced. During specific operation, through pressing the button of operation display panel subassembly 300, then can realize automatic adding water, the water pump of water route intercommunication subassembly 900 this moment starts, and the water pipe with water tank 400 in gets into the water pump through water route intercommunication subassembly 900, flows out frame 100 through the water pump again, flows in face bucket subassembly 200.

In addition, referring to fig. 1 to 7, the food processor of the present embodiment may further include an air guiding and draining system 600 disposed below the tub assembly 200 and abutting against the outlet 101 of the frame 100. The air guide drainage system 600 is used for sucking air from the bottom of the base 100 through the fan 630 and discharging the air through the air outlet 102 of the base 100, and the air outlet 102 corresponds to the position of the noodle outlet 101, so that the extruded noodles are dried in the air, and the adhesion of food is reduced. In a specific implementation, the wind guiding and draining system 600 specifically includes a drawer assembly 610, a drawer support 620, a fan 630, and a fan cover 640. The drawer assembly 610 is installed in the drawer support 620, and the fan 630 is used for conveying air entering from the bottom of the bottom cover assembly to the air outlet 102 so as to air-dry noodles extruded from the noodle outlet 101.

In addition, as shown in the figure, the bottom of the face bucket assembly 200 can also be provided with a heating film 103, so that the face waking function can be realized.

In addition, the top of the base 100 is further provided with a decoration 104, and the decoration 104 is covered on the top of the base 100, and referring to the drawing direction shown in the figure, the left and right ends of the decoration 104 extend downward to be attached to the two opposite sides of the base 100, thereby playing a role of decorating the outer surface of the base 100 and improving the appearance of the food processor. In addition, two ends of the decoration 104 are detachably connected with corresponding positions of the side surfaces of the base 100, so that the decoration 104 is convenient to detach and replace, and different requirements of users are met.

In addition, the decoration piece 104 covers the top of the first installation part 110, and two ends of the decoration piece extend towards two sides of the first sub-installation part 1201 to form an arc-shaped structure, the left side of the first sub-installation part 1201 is further provided with a side decoration plate 105, and the side decoration plate 105 overlaps with the arc-shaped structure of the decoration piece 104 extending to the side of the body, so that the side decoration piece 104 can cover at least part of the arc-shaped structure, and the appearance of the food processor is further improved.

In addition, one side of the first sub-installation part 1201 departing from the face bucket assembly 200 can be further provided with a side decoration plate 105, and the top of the side decoration plate 105 can cover at least part of the arc-shaped structure of the decoration part 104, so that the sealing performance and the fitting performance between the side decoration plate 105 and the decoration part 104 are better, and further the outer surface of the food processor is smooth and neat and has no gap. The side decorative plate 105 can slide into the side of the base 100 from the bottom, and the groove of the base 100 is used for limiting the side decorative plate 105 and preventing the decorative plate from falling out. Finally, the bottom cover 107 is covered, the bottom cover 107 is fixed with the base 100 through screws, and the side decorative plate 105 is pressed on the base 100 to prevent the side decorative plate 105 from moving.

It is noted that, in this document, relational terms such as "first" and "second," and the like, may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising an … …" does not exclude the presence of other identical elements in a process, method, article, or apparatus that comprises the element.

The foregoing are merely exemplary embodiments of the present disclosure, which enable those skilled in the art to understand or practice the present disclosure. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the disclosure. Thus, the present disclosure is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims (12)

1. A food processor is characterized by comprising a base, a water tank and a dough barrel assembly, wherein the water tank and the dough barrel assembly are arranged on the base;

the water tank is positioned beside the noodle barrel assembly, and the water tank is communicated with the noodle barrel assembly through a waterway communicating assembly arranged in the base;

the water guide structure is arranged in the base, and at least part of the water guide structure is positioned below the water tank so as to guide the water leaked from the water tank or the water path communication assembly to a preset position.

2. The food processor of claim 1, wherein the water guide structure includes a first water guide plate located below the water tank, the first water guide plate being inclined toward a bottom of the housing in a width direction of the housing;

the machine base is provided with a drain hole communicated with the outside, so that water is led out through the first water guide plate and the drain hole.

3. The food processor of claim 2, wherein the first water deflector is angled from horizontal in a range of 2 ° to 60 °.

4. The food processor of claim 2, wherein a water guide opening is formed between an end of the first water guide plate close to the drain hole and an inner wall of the housing, and the drain hole is disposed on a bottom wall of the housing and is communicated with the water guide opening.

5. The food processor of claim 4, wherein the drain hole coincides with a central axis of the water guide.

6. The food processor of any one of claims 2 to 5, wherein both side edges of the first water guide plate have water blocking flanges extending toward the top of the housing in a length direction of the housing.

7. The food processor of any one of claims 2 to 5, wherein the first water guide plate is formed with a water guide groove;

the water chute extends along the width direction of the engine base.

8. The food processor of any one of claims 2 to 5, wherein the housing includes a first mounting portion and a second mounting portion flanking the first mounting portion, the tub assembly being disposed on the first mounting portion; the water tank is arranged at the top of the second mounting part; the waterway communicating component is arranged between the water tank and the side wall of the base, which is far away from the drain hole;

the water guide structure further comprises a second water guide plate connected with the first water guide plate, and the second water guide plate is arranged on one side, away from the drain hole, of the water path communication assembly.

9. The food processor of claim 8, wherein the second water guide plate is vertically disposed between the waterway communication assembly and a side wall of the housing away from the drain hole, and a bottom end of the second water guide plate is connected to an end of the first water guide plate away from the drain hole.

10. The food processor of claim 8, wherein the first water deflector and the second water deflector are integrally formed.

11. The food processor of any one of claims 1 to 5, wherein the water guide structure is formed with a first mounting hole, a second mounting hole is formed on the housing at a position corresponding to the first mounting hole, and the water guide structure is fixed to the housing by a mounting member inserted into the first mounting hole and the second mounting hole.

12. A food processor as claimed in any one of claims 1 to 5, wherein the food processor is a noodle maker; the noodle maker further comprises a stirring structure and a noodle extruding structure, wherein the stirring structure is arranged in the noodle barrel assembly, and the noodle extruding structure is arranged on the noodle barrel assembly and communicated with the noodle barrel assembly.

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