CN211749108U - Easy-to-clean food processing machine - Google Patents

Abstract

The utility model relates to an easily wash food preparation machine, including the organism and the crushing chamber of locating the organism, be equipped with the motor in the organism, the motor includes the motor shaft, the motor shaft upper end is equipped with the cutter unit who stretches into crushing intracavity, cutter unit passes the diapire setting of crushing chamber, cutter unit disturbance rivers wash crushing chamber, the lateral wall of crushing chamber is equipped with the guiding gutter that caves in to the outside from the inboard of crushing chamber, longitudinal extension is followed to the guiding gutter, when cutter unit stirs rivers and washs crushing chamber, the power of raising up is received along the extending direction of guiding gutter when rivers are mixd the guiding gutter, thereby guide rivers upwards jump, improve the height that raises up on the rivers, and reduce the loss of rivers kinetic energy, thereby improve the cleaning performance of crushing chamber top.

Description

Easy-to-clean food processing machine

Technical Field

The utility model belongs to the technical field of food processing, especially, relate to an easily wash food preparation machine.

Background

Food preparation machine among the correlation technique, including the host computer with install the stirring cup on the host computer, stirring cup inside is equipped with by the interior motor drive's of host computer crushing sword, smashes the sword and rotates the edible material of eating in the stirring cup and cut to the effect of smashing edible material is realized. After the stirring cup is processed, food materials are remained on the inner wall of the stirring cup, the stirring cup is not convenient to clean, especially when the stirring cup is cleaned by stirring water flow through the crushing knife, the flow velocity of the water flow is too low when the water flow flows to the upper part of the stirring cup, or the water flow is difficult to stir to a sufficient height, and the residues attached to the upper part of the stirring cup are difficult to clean.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide an easily wash food preparation machine.

In order to solve the technical problem, the utility model provides an easily wash food preparation machine, including the organism and the crushing chamber of locating the organism, be equipped with the motor in the organism, the motor includes the motor shaft, and the motor shaft upper end is equipped with the cutter unit who stretches into crushing intracavity, cutter unit passes the diapire setting of crushing chamber, cutter unit disturbance rivers are washd crushing chamber, the lateral wall of crushing chamber is equipped with the guiding gutter from crushing chamber's inboard sunken to the outside, longitudinal extension is followed to the guiding gutter.

Furthermore, the height of the diversion trench is h1, the height of the crushing cavity is h2, and h1/h2 is not less than 0.1 and not more than 0.5.

Further, the lower end of the diversion trench extends to the upper end of the diversion trench in an inclined manner along the rotation direction of the cutter assembly.

Furthermore, the lateral wall in crushing chamber outwards extends by the lower supreme slope, the extending direction in crushing chamber's lateral wall with the contained angle between the axial in crushing chamber is a, the extending direction in guiding gutter with the contained angle between the axial in crushing chamber is b, and wherein, a is greater than b.

Furthermore, the side wall of the crushing cavity extends outwards from bottom to top in an inclined manner, and the diversion trench extends vertically upwards.

Further, the depth of at least the upper part of the diversion trench is gradually increased downwards to the top end of the diversion trench.

Furthermore, the bottom of the crushing cavity is provided with a contraction section which obliquely extends outwards from bottom to top, and the guide groove is formed in the inner side wall of the contraction section.

Furthermore, an acceleration section extending vertically upwards is arranged above the contraction section, and the diversion trench extends to the acceleration section.

Furthermore, smash the chamber and include the first district, be located the second district of first district top and connect the first district and the district of throwing of second district, the district of throwing expands outwards from the lower extreme to the upper end, the shrink section is established the first district, the second district is equipped with a plurality of vortex muscle.

The utility model has the advantages that:

1. the utility model discloses a lateral wall at crushing chamber sets up longitudinal extension's guiding gutter, when cutter unit stirs rivers and washs crushing chamber, rivers receive the power of raising up along the extending direction of guiding gutter when stirring the guiding gutter to guide rivers upwards jump, improve the height that rivers were raised, and reduce the loss of rivers kinetic energy, thereby improve the cleaning performance who smashes the chamber top.

2. The ratio of the height h1 of the diversion trench to the height h2 of the crushing cavity is 0.1-0.5, the diversion trench is sunken from the inner side to the outer side of the crushing cavity, in the flowing process of water flow, the diversion trench guides the water flow upwards and has a blocking effect on the circumferential flow of the water flow, only when the ratio of the height of the diversion trench to the height of the crushing cavity is controlled to be 0.1-0.5, the upward height of the water flow is improved on the premise of ensuring the flowing kinetic energy of the water flow, when the ratio of the height of the diversion trench to the height of the crushing cavity is more than 0.5, the resistance of the diversion trench to the fluid is overlarge, particularly above the crushing cavity, the flowing kinetic energy of the water flow at the position is small, the blocking of the diversion trench is not beneficial to the circumferential flow of the water flow, the cleaning effect is influenced, when the ratio of the height of the diversion trench to the height of the crushing cavity is less than, the water flow easily crosses the diversion trench under the action of inertia force to continue to rotate circumferentially.

3. The lower extreme of guiding gutter extends to the upper end of guiding gutter along cutter unit's direction of rotation slope, sets up the guiding gutter along cutter unit's direction of rotation slope, reduces the guiding gutter to fluid circumferential direction's resistance to the guide fluid spiral upwards extends, improves the cleaning performance of fluid on crushing chamber upper portion. Specifically, the angle between the extending direction of the guide groove and the circumferential direction of the crushing cavity can be controlled to be 5-30 degrees, so that the rising effect of the guide groove on the fluid and the resistance to the circumferential direction of the fluid are balanced, the flowing and projecting height of the fluid is controlled, the fluid can be fully cleaned above the crushing cavity, and the cleaning range and the cleaning effect are improved. When the extending direction of guiding gutter is greater than 30 with the angle of the circumference of smashing the chamber, although the guiding gutter is less to the circumference resistance of fluid, but the corresponding reduction of guide effect that rises to the fluid, be unfavorable for wasing and smash the chamber top, when the extending direction of guiding gutter is less than 5 with the angle of the circumference of smashing the chamber, because it is highly limited to smash the chamber, the angle of throwing of inclination angle to the fluid is less, the angle of fluid contact crushing chamber roof is great, with smash the easy bounce-back of chamber striking, it is less to the cleaning range of smashing the chamber roof.

4. The lateral wall in crushing chamber is outwards extended by lower supreme slope, and the lateral wall of guiding gutter is less for the lateral wall inclination in crushing chamber, and the fluid is at the in-process of raising up, and the fluid that raises up by crushing chamber lateral wall is thrown for the center that is closer to crushing chamber more by the fluid that the guiding gutter raised up, increases the area of contact of fluid and crushing chamber roof, improves the cleaning performance. Furthermore, the side wall of the crushing cavity extends obliquely, the guide groove extends vertically upwards, the contact area between the fluid and the top wall of the crushing cavity is further enlarged, the fluid extending vertically upwards along the guide groove is favorable for fully cleaning the upper part of the side wall of the crushing cavity, and the cleaning effect is improved.

5. The depth of the upper part of the diversion trench is gradually increased downwards to the top end of the diversion trench, namely, the depth component of the diversion trench is reduced along with the upward flowing process of the fluid, so that the circumferential resistance of the fluid is reduced, and the upward casting of the fluid under the action of inertia is facilitated.

6. The bottom in crushing chamber is equipped with by the lower supreme shrink section that outwards extends that inclines, and the setting up of shrink section guides fluid to throw outward, and the fluid has great kinetic energy that upwards flows this moment, establishes the guiding gutter on the inside wall of shrink section, because fluid circumference's mobile kinetic energy is less, and ascending mobile kinetic energy is great to reduce the loss to the ascending kinetic energy of fluid circumference, more effectual guide fluid upwards throws, promotes the water conservancy diversion effect.

7. The upper portion of the contraction section is provided with an acceleration section which vertically extends upwards, the circumferential kinetic energy of the fluid in the acceleration section is large, the fluid is raised in the contraction section through the diversion trench, the fluid flows through the acceleration section and then has the raised kinetic energy under the action of inertia, and the kinetic energy of the circumferential flow can be increased in the acceleration section, so that the fluid can better climb upwards in the spiral in the crushing cavity, and the raising height of the fluid is improved.

8. Smash the chamber and include the first district, throw district and second district, throw the district from the lower extreme outwards expand to the upper end, the guiding gutter is established in throwing the district below, upwards throws through throwing the district once more through the fluid of guiding gutter guide to improve fluidic raising the height, in addition, the second district, and the top of throwing the district is equipped with the vortex muscle, and the lateral wall of vortex muscle upwards guides rivers, improves the height that promotes the fluid and upwards climbs.

9. The bottom of guiding gutter is equipped with the delivery port, can discharge waste water through the delivery port in the cleaning process, realizes full self-cleaning to the delivery port is established in the bottom of guiding gutter, and the guiding gutter not only realizes the effect of raising of rivers in the cleaning process, realizes the effect that the guide fluid down arranged at the mud discharging in-process moreover, improves the efficiency of thick liquid of arranging.

Drawings

The accompanying drawings are included to provide a further understanding of the technical solutions of the present invention, and are incorporated in and constitute a part of this specification, together with the embodiments of the present invention for explaining the technical solutions of the present invention, and do not constitute a limitation on the technical solutions of the present invention.

Fig. 1 is a cross-sectional view of the overall structure of a first embodiment of the present invention;

FIG. 2 is a schematic structural view of the bottom of the crushing chamber according to the first embodiment of the present invention;

FIG. 3 is a schematic structural view of the bottom of the crushing chamber in the second embodiment of the present invention;

fig. 4 is a schematic view of a partial structure of a side wall of a crushing chamber according to a third embodiment of the present invention;

fig. 5 is a schematic view of a partial structure of a side wall of a crushing chamber according to a fourth embodiment of the present invention.

Detailed Description

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

The first embodiment is as follows:

as shown in fig. 1 and fig. 2, the utility model provides an easy-to-clean food processor, which comprises a machine body 1 and a crushing cavity 2 arranged in the machine body 1, wherein a motor 3 is arranged in the machine body 1, the motor 3 comprises a motor shaft, a cutter assembly 4 extending into the crushing cavity 2 is arranged at the upper end of the motor shaft, the cutter assembly 4 is arranged through the bottom wall of the crushing cavity 2, wherein, the cutter assembly 4 can be directly arranged at the upper end of the motor shaft, the cutter assembly 4 can also be arranged at the upper end of the motor shaft through a switching assembly such as a connecting head, namely, the crushing cavity 2 can be fixed relative to the motor 3, the separation of the crushing cavity 2 and the motor 3 can also be realized by adopting a detachable structure, the motor 3 drives the cutter assembly 4 to rotate, the cutter assembly 4 disturbs water flow to clean the crushing cavity 2, the crushing cavity 2 comprises a first area 21, a second projecting area 23 positioned above the first area 21 and a, the projectile zone 22 expands from the lower extreme to the upper end outwards, at least partial tip of cutter unit spare 4 is located projectile zone 22 below, projectile zone 22 has height from top to bottom, projectile zone 22 expands from the lower extreme to the upper end outwards, prevent to cause the kinetic energy loss of fluid too big because of projectile zone 22 is too big in the radial distance that leads to the quick outwards expansion of fluid to be too big with the radial distance in crushing chamber 2 at the highest position through the control of the lowest of projectile zone 22, moreover reduce the phenomenon that fluid takes place the vortex when passing through projectile zone 22.

As shown in fig. 1 and 2, the bottom of the first zone 21 is provided with a contraction section 24 inclining outwards from bottom to top, the contraction section 24 improves the circulation effect of water flow, the problem that the water flow at the bottom of the crushing cavity 2 cannot be stirred due to the undersize of the included angle is avoided, or part of the water flow forms vortex at the position, which is not beneficial to the rapid circulation of the water flow in the crushing cavity 2, the contraction section 24 is designed at the bottom of the first zone 21, the water flow at the bottom of the crushing cavity 2 easily jumps upwards along the contraction section 24, the kicked water flow is then beated by the cutter assembly 4 to rotate rapidly, the high-speed rotating water flow further jumps along the contraction section 24, so that the height of the water flow thrown through the throwing zone 22 is improved, and.

First district 21 still is equipped with acceleration section 25, acceleration section 25 is located the top of contraction section 24, acceleration section 25 vertical setting, the rivers that jump up upwards through contraction section 24 are because the velocity of upflow is great, and the centrifugal force of rivers is less relatively, pass through cutter unit 4 with the rivers here and further whip through acceleration section 25 to improve the centrifugal force of the rivers that flow through projectile zone 22, thereby convert centrifugal force into the kinetic energy of upwards projectile through projectile zone 22, improve the height of projectile, thereby promote cleaning performance.

As shown in fig. 1 and 2, the side wall of the crushing cavity 2 is provided with a diversion trench 5 which is recessed outwards from the inner side of the crushing cavity 2, the diversion trench 5 extends along the longitudinal direction, the diversion trench 5 extending along the longitudinal direction is arranged on the side wall of the crushing cavity 2, when the cutter assembly 4 stirs water flow to clean the crushing cavity 2, the water flow is subjected to upward force along the extending direction of the diversion trench 5 when stirring the diversion trench 5, so that the water flow is guided to jump upwards, the upward height of the water flow is improved, the loss of the water flow kinetic energy is reduced, and the cleaning effect above the crushing cavity 2 is improved.

Specifically, the guiding gutter 5 is arranged below the projecting area 22, as shown in fig. 1 and fig. 2, the guiding gutter 5 is arranged inside the contracting section 24, and the flowing kinetic energy in the circumferential direction of the fluid in the contracting section 24 is smaller, and the flowing kinetic energy in the upward direction is larger, so that the loss of the kinetic energy in the circumferential direction of the fluid is reduced, the fluid is more effectively guided to be projected upwards, and the guiding effect is improved. The depth of the diversion trench 5 from the inner side of the crushing cavity 2 to the outer side to the top end of the diversion trench 5 is gradually increased downwards, namely, the depth of the upper part of the diversion trench 5 is gradually reduced along with the upward flowing process of the fluid, so that the circumferential resistance of the fluid is reduced, and the upward casting of the fluid under the action of inertia is facilitated. An acceleration section 25 extending vertically upwards is arranged above the contraction section 24, the circumferential kinetic energy of the fluid in the acceleration section 25 is large, the fluid is lifted in the contraction section 24 through the diversion trench 5, the fluid has the lifting kinetic energy under the action of inertia after flowing through the acceleration section 25, and the circumferential flowing kinetic energy can be increased in the acceleration section 25, so that the fluid can better climb upwards in the crushing cavity 2 in a spiral manner, and the lifting height of the fluid is improved.

As shown in figure 1, the height of the diversion trench 5 is h1, the height of the crushing cavity 2 is h2, wherein the ratio of h1/h2 is more than or equal to 0.1 and less than or equal to 0.5. The diversion trench 5 is sunken from the inner side of the crushing cavity 2 to the outer side, and when the water flow flows, the diversion trench 5 guides the water flow upwards, has the function of blocking the circumferential flow of water flow, only when the ratio of the height of the diversion 5 groove to the height of the crushing cavity 2 is controlled to be 0.1-0.5, the rising height of the water flow is improved on the premise of ensuring the flowing kinetic energy of the water flow, when the ratio of the height of the diversion trench 5 to the height of the crushing cavity 2 is more than 0.5, the resistance of the diversion trench 5 to the fluid is overlarge, particularly, the water flow is arranged above the crushing cavity 2, the flowing kinetic energy of the water flow is small, the blocking of the diversion trench 5 is not beneficial to the circumferential flowing of the water flow, the cleaning effect is influenced, when the ratio of the height of the diversion trench 5 to the height of the crushing cavity 2 is less than 0.1, the height of the diversion trench 5 is too low, the lifting action of the fluid is too small, and the water flow easily crosses the diversion trench 5 under the action of inertia force to continue to rotate circumferentially.

As shown in fig. 2, the bottom of guiding gutter 5 is equipped with delivery port 7, delivery port 7 department is equipped with the switch of control delivery port 7 switching, in the cleaning process, the guiding gutter can discharge waste water through delivery port 7, realize full self-cleaning, and delivery port 7 is established in the bottom of guiding gutter 5, the effect of raising up of rivers is not only realized at the cleaning process to guiding gutter 5, open at the switch of thick liquid discharge in-process moreover, guiding gutter 5 realizes the effect that the guide fluid down arranged, improve the thick liquid efficiency of arranging.

It will be appreciated that the comminution zone may not be divided into a first zone, a second zone and a projectile zone connecting the first and second zones.

It will be appreciated that the channels need not be provided in the first zone, as long as the channels are provided in the side walls of the milling chamber.

It can be understood that the baffle slots may not be provided in the convergent section, the bottom of the crushing chamber may be of a vertical configuration, and the baffle slots are provided in the vertical section.

Example two:

the present embodiment is different from the first embodiment in that the guide grooves are arranged obliquely in the longitudinal direction.

In this embodiment, as shown in fig. 3, the bottom in crushing chamber 2 is equipped with shrink section 24, shrink section 24's lateral wall is from supreme leaning out down, guiding gutter 5 is established on shrink section 24, the lower extreme of guiding gutter 5 extends to the upper end of guiding gutter 5 along cutter unit's direction of rotation slope, set up guiding gutter 5 along cutter unit's direction of rotation slope, reduce guiding gutter 5 to fluid circumferential direction's resistance, thereby guide the fluid spiral upwards to extend, improve the cleaning performance of fluid on to crushing chamber upper portion. Specifically, the angle between the extending direction of the guide groove 5 and the circumferential direction of the crushing cavity can be controlled to be 5-30 degrees, so that the rising effect of the guide groove on the fluid and the resistance to the circumferential direction of the fluid are balanced, the flowing projection height of the fluid is controlled, the fluid can be fully cleaned above the crushing cavity, and the cleaning range and the cleaning effect are improved. When the extending direction of guiding gutter 5 is greater than 30 with the angle of the circumference of smashing the chamber when, although guiding gutter 5 is less to the circumference resistance of fluid, the corresponding reduction of guide effect that the fluid was raised, be unfavorable for wasing and smash the chamber top, when the extending direction of guiding gutter 5 is less than 5 with the angle of the circumference of smashing the chamber, because it is highly limited to smash the chamber, the angle of throwing of inclination to the fluid is less, the angle of fluid contact crushing chamber roof is great, with smash the easy bounce-back of chamber striking, it is less to the cleaning range of smashing the chamber roof.

It can be understood that the guiding gutter may not be arranged in the convergent section, as long as the guiding gutter is arranged obliquely inside the crushing chamber.

Example three:

the difference between this embodiment and the first embodiment is the extension direction of the side wall of the crushing cavity and the flow guide groove.

In this embodiment, as shown in fig. 4, the side wall of the crushing cavity 2 extends obliquely outward from bottom to top, and the guiding gutter 5 extends vertically upward. Smash the lateral wall slope extension in chamber 2, the vertical upwards extension of guiding gutter 5 further enlarges the area of contact of fluid and 2 roof in crushing chamber, and the vertical upwards fluid that extends of guiding gutter 5 is favorable to the top part that fully washs 2 lateral walls in crushing chamber along, improves the cleaning performance.

It can be understood that the whole side wall of the crushing cavity can be inclined and extended outwards from bottom to top, or the partial side wall of the crushing cavity is inclined and extended outwards from bottom to top, as long as the side wall of the crushing cavity at the position of the diversion trench is ensured to be extended outwards from bottom to top.

Example four:

the difference between this embodiment and the first embodiment is the extension direction of the side wall of the crushing cavity and the flow guide groove.

In this embodiment, as shown in fig. 5, the side wall of the crushing cavity 2 extends outward in an inclined manner from bottom to top, an included angle between the extending direction of the side wall of the crushing cavity 2 and the axial direction of the crushing cavity 2 is a, and an included angle between the extending direction of the guide groove 5 and the axial direction of the crushing cavity 2 is b, where a is greater than b. Smash the lateral wall in chamber 2 and outwards extend by lower supreme slope, the lateral wall inclination angle of guiding gutter 5 for smashing the chamber is less, and the in-process that fluid was raised upward, and the fluid that is raised upward by smashing 2 lateral walls is close to the center of smashing chamber 2 more for the fluid that is raised upward by guiding gutter 5 and casts, increases the area of contact of fluid and crushing 2 roof, improves the cleaning performance.

It can be understood that the whole side wall of the crushing cavity can be inclined and extended outwards from bottom to top, or the partial side wall of the crushing cavity is inclined and extended outwards from bottom to top, as long as the side wall of the crushing cavity at the position of the diversion trench is ensured to be extended outwards from bottom to top.

It will be appreciated that the flow channels may extend upwards in the vertical direction, or the flow channels may extend obliquely in the circumferential direction of the crushing chamber.

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 changes and modifications made according to the present invention are covered by the scope of the claims of the present invention, which is not illustrated herein.

Claims (10)

1. The utility model provides an easily wash food preparation machine, includes the organism and locates the crushing chamber of organism, is equipped with the motor in the organism, and the motor includes the motor shaft, and the motor shaft upper end is equipped with the cutter unit who stretches into crushing intracavity, cutter unit passes the diapire setting of crushing chamber, its characterized in that, cutter unit disturbance rivers wash crushing chamber, the lateral wall of crushing chamber is equipped with from the inboard guiding gutter to the sunken outside of crushing chamber, longitudinal extension is followed to the guiding gutter.

2. The food processor of claim 1, wherein the height of the flow channel is h1 and the height of the grinding chamber is h2, wherein 0.1 ≦ h1/h2 ≦ 0.5.

3. The food processor of claim 1, wherein a lower end of the guide channel to an upper end of the guide channel extends obliquely in a direction of rotation of the cutter assembly.

4. The food processor of claim 1, wherein the side wall of the grinding chamber extends obliquely outward from bottom to top, an angle between the extending direction of the side wall of the grinding chamber and the axial direction of the grinding chamber is a, and an angle between the extending direction of the guide groove and the axial direction of the grinding chamber is b, wherein a is greater than b.

5. The food processor of claim 1, wherein the side walls of the grinding chamber extend obliquely outward from bottom to top, and the baffle slot extends vertically upward.

6. The food processor of claim 5, wherein at least the upper portion of the channels has a depth that increases downwardly toward the top of the channel.

7. A food processor as claimed in any one of claims 1 to 6, wherein the bottom of the grinding chamber is provided with a constriction extending obliquely outwards from bottom to top, and the flow guide groove is provided in an inner side wall of the constriction.

8. The food processor of claim 7, wherein an acceleration section extends vertically upward above the constriction, and the flow guide slot extends to the acceleration section.

9. The food processor of claim 7, wherein the grinding chamber includes a first region, a second region above the first region, and a projection region connecting the first region and the second region, the projection region expanding outwardly from a lower end to an upper end, the constriction section being disposed in the first region, and the second region being disposed with a plurality of turbulators.

10. The food processor as defined in claim 7, wherein the bottom of the diversion trench is provided with a water outlet, and the water outlet is provided with a switch for controlling the opening and closing of the water outlet.

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