CN210330370U - Capsule food processor - Google Patents

Abstract

The embodiment of the utility model discloses a capsule food processor, which comprises an injection device and a stirring cavity, wherein the injection device comprises a fixed bracket, a piston and two clamping components; the fixed support is provided with a capsule accommodating cavity and a piston accommodating cavity, and the capsule accommodating cavity is formed by respectively extending two opposite side walls of the fixed support outwards along the motion direction of the piston; the stirring cavity and the fixed support are oppositely arranged, a feeding opening is formed in one surface of the stirring cavity, which is opposite to the injection device, and a supporting bulge is arranged below the front end of the feeding opening; the two clamping components are respectively positioned on two sides of the fixed support and are arranged oppositely, each clamping component is provided with a clamping groove which penetrates through the clamping components from top to bottom, the clamping grooves are positioned on two sides of the supporting protrusions, and the clamping grooves and the supporting protrusions are used for limiting the positions of the capsule cups in the capsule containing cavities. Through the mode, after the capsule cup is positioned in the capsule containing cavity, the solid fruit capsule in the capsule cup can be injected into the stirring cavity through the piston.

Description

Capsule food processor

Technical Field

The embodiment of the invention relates to the technical field of intelligent household appliances, in particular to a capsule food processor capable of making smoothie and fruit drinks.

Background

With the improvement of living standard of people, people pay more and more attention to high-quality healthy life, and fruits and vegetables are main foods for human body to take vitamins and are also important components in healthy diet of people. Fruit juice machine, ice crusher, or can collect the cooking machine of beating soybean milk, ground dry powder, press fruit juice, beat meat filling, plane ice etc. function in an organic whole and more popularize in modern family, however, traditional machine when preparation ice sha fruit drink, need wash fruit earlier, put into the machine container after the sword is cut into the fritter and can make, still need to carry out cleaning work after the preparation is accomplished, consequently, in the actual life, the rate of utilization of above-mentioned machine is not high. On the other hand, the fruits are not suitable for long-time storage, so the purchased fruits are limited by the types of the fruits, and the types of the beverages prepared by the food processor are single.

And the capsule cooking machine can make a cup of fresh beverage with different kinds of quick-frozen fruit capsules fast to quick-frozen fruit capsules also make things convenient for the user to purchase and store. However, the user needs to take the solid fruit capsule out of the capsule cup and put the solid fruit capsule into the stirring cavity like peeling jelly in a manual mode, and the method is not convenient and sanitary.

SUMMERY OF THE UTILITY MODEL

The embodiment of the utility model provides a can pour into the capsule cooking machine in the stirring cavity with the solid-state fruit capsule in the capsule cup into.

In order to achieve the above object, an embodiment of the present invention adopts a technical solution that: the capsule food processor comprises an injection device and a stirring cavity, wherein the injection device comprises a fixed support, a piston and two clamping components;

the fixed support is provided with a capsule accommodating cavity and a piston accommodating cavity, and the capsule accommodating cavity is formed by respectively extending two opposite side walls of the fixed support outwards along the movement direction of the piston;

the stirring cavity and the fixed support are oppositely arranged, a feeding opening is formed in one surface of the stirring cavity, which is opposite to the injection device, and a supporting bulge is arranged below the front end of the feeding opening;

the two clamping components are respectively positioned on two sides of the fixed support and are oppositely arranged, each clamping component is provided with a clamping groove which penetrates through the clamping components from top to bottom, the clamping grooves are positioned on two sides of the supporting protrusions, and the clamping grooves and the supporting protrusions are used for limiting the position of the capsule cup in the capsule containing cavity together.

Optionally, the injection device further comprises a first return spring, and one end of the first return spring is mounted on the fixed bracket;

the two side walls are provided with first guide parts in a slide shape, the first guide parts penetrate through the side walls, the piston is provided with first hook parts, and the first hook parts can move in the first guide parts;

the clamping assembly comprises a connecting part and a limiting part, the connecting part and the limiting part are respectively positioned on the inner side and the outer side of the fixed support, the clamping groove is formed in the limiting part, and the connecting part is used for being assembled with the other end of the first return spring;

the connecting component is provided with a second hook part, the orientation of the second hook part is opposite to that of the first hook part, and the second hook part can move in the first guide part.

Optionally, the limiting part comprises a clamping part and a positioning column, the limiting part is connected with the connecting part through the positioning column, and the clamping groove is formed in the clamping part.

Optionally, the limiting component further includes an extending portion, the extending portion and the positioning column both extend from the same surface of the retaining portion, and the extending portion and the retaining portion are approximately perpendicular.

Optionally, the connecting part includes a main body part, the second hook part and a second connecting part, and the main body part is provided with a connecting hole assembled with the positioning column;

the second hook part and the second connecting part extend towards different directions from one end, far away from the limiting part, of the main body part, and the second connecting part is used for being assembled with the first return spring.

In one embodiment, the injection device further comprises a second return spring;

the two side walls are further provided with columns, the second reset spring is sleeved on the columns, and the second reset spring is used for enabling the main body part to return to an original position after the main body part expands outwards relative to the fixed support.

Optionally, along the moving direction of the piston towards the stirring cavity, a communicating groove is arranged on the two side walls in front of the first guide part, and the cylinder is arranged between the first guide part and the communicating groove;

the main body part is provided with a guide groove, the column body penetrates through the guide groove, and the positioning column penetrates through the guide groove and then is assembled with the connecting hole of the connecting part.

In some embodiments, the injection device further comprises a gas spring;

the air spring is fixedly mounted on the fixed support, and the connecting component further comprises a first connecting part which is used for being assembled with the air spring.

In some embodiments, the two side walls are further provided with second guiding parts, and the second guiding parts penetrate through the side walls;

the piston is further provided with a clamping part, the clamping part penetrates through the second guide part, and the clamping part can move in the second guide part.

In some embodiments, the injection device further comprises a motor, a worm gear mechanism and a transmission rod, wherein the motor drives the piston to move towards the direction close to or away from the stirring cavity through the worm gear mechanism and the transmission rod; the one side that the stirring cavity was kept away from to the fixed bolster is provided with the pilot hole, the transfer line passes the pilot hole with the piston is connected.

The embodiment of the utility model provides a beneficial effect is: the capsule cooking machine comprises an injection device and a stirring cavity, wherein the injection device comprises a fixed support, a piston and two clamping components; the stirring cavity and the fixed support are oppositely arranged, a feeding opening is formed in one surface of the stirring cavity, which is opposite to the injection device, and a supporting bulge is arranged below the front end of the feeding opening; two centre gripping subassemblies are located the both sides of fixed bolster respectively to two centre gripping subassemblies set up relatively, and each centre gripping subassembly is equipped with the draw-in groove that runs through from top to bottom, and the draw-in groove is located the bellied both sides of support, when the capsule cup is installed in the capsule and holds the intracavity, is accepted by the support arch, and, the side edge embedding draw-in groove of capsule cup carries on spacingly to the capsule cup, can pour into the solid-state fruit capsule in the capsule cup into the stirring cavity through the piston.

Drawings

Fig. 1 is a schematic structural diagram of a capsule processing machine according to an embodiment of the present invention;

fig. 2 is another schematic structural diagram of the capsule processing machine according to the embodiment of the present invention;

fig. 3 is a partial internal structure exploded view of the capsule processing machine according to the embodiment of the present invention;

fig. 4 is a schematic structural diagram of a fixing bracket of the capsule processing machine according to the embodiment of the present invention;

fig. 5 is a schematic structural diagram of a piston of the capsule processing machine according to the embodiment of the present invention;

fig. 6 is a schematic structural diagram of a clamping assembly of the capsule processing machine according to the embodiment of the present invention;

fig. 7 is a schematic view of a capsule cup disposed in a capsule accommodating cavity according to an embodiment of the present invention;

fig. 8 is a partially enlarged view of a portion a of fig. 7;

fig. 9 is a partial assembly view one of the injection device of the capsule processing machine according to the embodiment of the present invention;

fig. 10 is a second partial assembly view of the injection device of the capsule processing machine according to the embodiment of the present invention;

fig. 11 is a partially enlarged view of a portion B of fig. 10.

Referring to fig. 1 to 11,500 is a capsule processing machine, 10 is a housing, 20 is an injection device, 30 is a capsule cup collecting device, 40 is a water tank device, 50 is a stirring cavity, 21 is a fixing bracket, 23 is a driving component, 24 is a capsule cup, 25 is a first return spring, 26 is a second return spring, 27 is an air spring, 28 is a clamping component, 211 is a capsule accommodating cavity, 212 is a piston accommodating cavity, 213 is a first guide portion, 214 is a second guide portion, 215 is a cylinder, 216 is a mounting portion, 217 is a mounting seat, 218 is a communication groove, 220 is an assembly hole, 230 is a motor, 231 is a transmission component, 232 is a piston, 2311 is a worm gear mechanism, 2312 is a transmission rod, 2321 is a first hook portion, 2322 is a clamping portion, 281 is a connecting member, a limiting member, 2811 is a main body portion 282, 2812 is a second hook portion, 2813 is a first connecting portion, 2814 is a second connecting portion, 2815 is a guide groove, 2816 is a connecting hole, 2821 is a clamping part, 2822 is an extending part, 2823 is a positioning column, 2824 is a clamping groove, 501 is a feeding hole, and 51 is a supporting protrusion.

Detailed Description

In order to facilitate understanding of the present invention, the present invention will be described in more detail with reference to the accompanying drawings and specific embodiments. It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may be present. The terms "vertical," "horizontal," "left," "right," "inner," "outer," and the like as used herein are for descriptive purposes only.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used in the description of the invention herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1 and fig. 2, a capsule food processor 500 according to an embodiment of the present invention includes: the capsule cup injection device comprises a shell 10, an injection device 20, a capsule cup collecting device 30 and a water tank device 40, wherein the injection device 20, the capsule cup collecting device 30 and the water tank device 40 are fixedly assembled with the shell 10, the injection device 10 and the capsule cup collecting device 30 are positioned in the shell 10, the injection device 20 is closed by the shell 10, the inner space of the injection device 20 can be communicated or separated with the outside by pushing and pulling an upper cover of the shell 10, and the water tank device 40 is positioned on the side surface of the shell 10.

Further, the housing 10 is provided with a receiving space (not shown) for receiving the injection device 20 and the capsule cup collecting device 30, the receiving space of the housing 10 for receiving the injection device 20 is a first receiving space, and the receiving space of the housing 10 for receiving the capsule cup collecting device 30 is a second receiving space, so that the first receiving space and the second receiving space are communicated.

Referring to fig. 3, the capsule processing machine 500 further includes a stirring cavity 50 disposed in the housing 10, the stirring cavity 50 and the injecting device 20 are disposed opposite to each other, a feeding port 501 is disposed on a side of the stirring cavity 50 opposite to the injecting device 20, and the injecting device 20 is configured to inject the solid fruit capsules in the capsule cups 24 into the stirring cavity 50 through the feeding port 501.

Wherein, stirring cavity 50 and water tank device 40 pass through water piping connection to, install the trash ice blade in the stirring cavity 50, still be equipped with water outlet device (not marked) on the stirring cavity 50, the ice sand or the fruit drink made in stirring cavity 50 flow out through the water outlet device of bottom. In the process of making the beverage, the feeding port 501 in the stirring cavity 50 needs to be kept in a closed state, for example, a cover plate may be disposed at the feeding port 501 of the stirring cavity 50, and when the solid fruit capsule is injected into the stirring cavity 50, the feeding port 501 is closed by the cover plate.

The injection device 20 comprises a fixed support 21, a driving assembly 23, a first return spring 25, a second return spring 26, a gas spring 27 and a clamping assembly 28, wherein the capsule cup 24 can be accommodated in the fixed support 21, the first return spring 25, the second return spring 26 and the gas spring 27 are all arranged on the outer side of the fixed support 21, and the driving assembly 23 and the clamping assembly 28 are both partially positioned in the fixed support 21 and partially positioned outside the fixed support 21. Wherein, the quantity of centre gripping subassembly 28 is two, and two centre gripping subassemblies 28 are located the both sides of fixed bolster 21 respectively to, two centre gripping subassemblies 28 set up relatively.

Specifically, the driving assembly 23 includes a motor 230, a transmission assembly 231 and a piston 232, wherein the transmission assembly 231 includes a worm gear 2311 and a transmission rod 2312, a worm of the worm gear 2311 is mounted at an output end of the motor 230, the worm is engaged with the worm gear, and a central axis of the worm is perpendicular to a central axis of the worm gear. One end of the transmission rod 2312 is fixed to the worm wheel, the other end of the transmission rod 2312 is provided with a first threaded portion, the interior of the piston 232 is provided with a second threaded portion, and the first threaded portion and the second threaded portion are in threaded fit with each other.

The rotation of the motor 230 drives the transmission rod 2312 to rotate through the worm and gear mechanism 2311, and the rotation of the transmission rod 2312 can make the first threaded portion and the second threaded portion generate relative rotation motion, so that the piston 232 moves back and forth along the length of the transmission rod 2312, that is, the piston 232 makes a reciprocating linear motion in the first fixing bracket 210, that is, the piston 232 moves towards the direction close to the stirring cavity 50 or away from the stirring cavity 50.

The size of the front end of the piston 232 can be matched with the size of the feeding port 501, the sealing ring is arranged at the front end of the piston 232, the feeding port 501 of the stirring cavity 50 can be directly sealed through the front end of the piston 232, and in this way, a cover plate does not need to be arranged at the feeding port 501.

The stirring chamber 50 is substantially helmet-shaped, a supporting protrusion 51 is provided below the front end of the feeding port 501 of the stirring chamber 50, the supporting protrusion 51 is used for carrying the capsule cup 24, and the position of the capsule cup 24 in the fixed bracket 21, i.e. in the capsule accommodating cavity 211, can be limited by the clamping assembly 28 and the supporting protrusion 51.

As shown in fig. 4, the fixing bracket 21 is a hollow structure, and is provided with a capsule accommodating cavity 211 and a piston accommodating cavity 212, the capsule accommodating cavity 211 is formed by two opposite side walls of the fixing bracket 21 extending outwards along the moving direction of the piston 232, and the capsule accommodating cavity 211 is communicated with the capsule cup collecting device 30, wherein the capsule cup 24 is accommodated in the capsule accommodating cavity 211, and the piston 232 is accommodated in the piston accommodating cavity 212. The fixing bracket 21 has a fitting hole 220 on a surface thereof away from the mixing chamber 50 for the transmission rod 2312 to pass through for fitting with the piston 232.

When the piston 232 is in the initial position, the piston 232 is completely received in the piston receiving chamber 212, and when the piston 232 moves relative to the fixed bracket 21 in the direction of the stirring chamber 50, the piston 232 is partially received in the piston receiving chamber 212 and partially received in the capsule receiving chamber 211.

Further, a first guide portion 213, a second guide portion 214, a cylinder 215, a mounting portion 216 and a mounting seat 217 are disposed on two opposite sidewalls of the fixing bracket 21, wherein the first guide portion 213 and the second guide portion 214 are through grooves penetrating through the sidewalls, and are used for being assembled with the piston 232, limiting the position of the piston 232 relative to the fixing bracket 21 and guiding the moving direction of the piston 232, the mounting portion 216 is used for mounting the first return spring 25, the mounting seat 217 is used for mounting the gas spring 27, and the cylinder 215 is used for mounting the second return spring 26.

Along the moving direction of the piston 232 toward the stirring chamber 50, the first guiding portion 213 is in the shape of a slide, the outer side of the first guiding portion is changed from a curved surface to a straight surface, and the height of the end where the curved surface is located is higher. The opposite side walls of the fixed bracket 21 are further provided with communication grooves 218 in front of the first guide portion 213, and the communication grooves 218 penetrate the side walls of the fixed bracket 21.

In the present embodiment, the cylinder 215 is located between the first guide portion 213 and the communication groove 218. It is understood that the communication groove 218 may be directly identical to the first guide portion 213, and the cylinder 215 may be disposed at another position.

Referring to fig. 5, the piston 232 is provided with a first hook 2321 and a locking part 2322 on opposite sides, the locking part 2322 is used for being assembled with the second guide 214, the first hook 2321 is used for being assembled with the first guide 213, and the first hook 2321 is further used for being connected with the clamping assembly 28. The locking portion 2322 is rectangular, and the first hook 2321 is hook-shaped and substantially triangular.

Referring also to fig. 6, the clamping assembly 28 includes a connecting part 281 and a limiting part 282, the connecting part 281 and the limiting part 282 may be hinged or fixedly connected, the connecting part 281 is used for assembling with the first return spring 25, the second return spring 26 and the gas spring 27, the limiting part 282 is used for limiting the position of the capsule cup 24, and the connecting part 281 is also used for connecting with the piston 232 during the movement of the piston 232.

Further, the connection component 281 includes a main body 2811, a second hook 2812, a first connection portion 2813 and a second connection portion 2814, wherein the second hook 2812, the first connection portion 2813 and the second connection portion 2814 all extend from one end of the main body 2811 away from the position-limiting component 282 toward different directions, optionally, the second hook 2812 and the first connection portion 2813 extend in a perpendicular direction, and the first connection portion 2813 and the second connection portion 2814 extend in opposite directions.

Specifically, the main body 2811 is configured to be assembled with the stopper 282, the first return spring 25, and the second return spring 26, and the main body 2811 is provided with a guide groove 2815 and a connection hole 2816. The guide slot 2815 is used for the column 215 on the fixed bracket 21 to pass through, can limit the position of the clamping assembly 28 relative to the fixed bracket 21, and guides the moving direction of the clamping assembly 28; the second return spring 26 is sleeved on the column 215 and used for returning the main body 2811 to an original position after the main body 2811 expands outwards relative to the fixed bracket 21; the connection hole 2816 is used for connection with the stopper part 282.

The second hook 2812 is in a hook shape, and the direction of the second hook 2812 is opposite to the direction of the first hook 2321 of the piston 232, and the first hook 2321 hooks the second hook 2812, so that the piston 232 moves to drive the connecting component 281 to move, and further the limiting component 282 is driven to move.

The second connection portion 2814 is adapted to be assembled with the first return spring 25, and the piston 232 stretches the first return spring 25 during the movement of the driver connection member 281. The first connection portion 2813 is used for assembling the gas spring 27, and preferably, a through hole (not shown) is formed in the first connection portion 2813, and one end of the gas spring 27 passes through the through hole, so that the gas spring 27 and the through hole are tightly fitted, thereby achieving a fixed connection between the connection member 281 and the gas spring 27, and similarly, the piston 232 stretches the gas spring 27 during the process of driving the connection member 281 to move.

The position limiting component 282 includes a holding portion 2821, an extending portion 2822 and a positioning post 2823, wherein the extending portion 2822 and the positioning post 2823 both extend from the same side of the holding portion 2821, and the extending portion 2822 and the holding portion 2821 are nearly perpendicular.

The clamping part 2821 mainly plays a role of limiting the position of the capsule cup 24, a clamping groove 2824 is arranged, two ends of the clamping groove 2824 penetrate through the clamping part 2821 up and down, the clamping groove 2824 is used for limiting the capsule cup 24, and particularly, the edge part of the capsule cup 24 protruding out of the cup body is clamped in the clamping groove 2824.

The positioning post 2823 is fitted into the coupling hole 2816 of the connection part 281, and the arrangement of the extension part 2822 has a balanced and stable effect on the connection between the connection part 281 and the position restricting part 282.

As shown in fig. 7 and 8, when the capsule cup 24 is located in the capsule accommodating cavity 211, the capsule cup 24 is received by the supporting protrusions 51, and the two sides of the capsule cup 24 are respectively inserted into the two clamping grooves 2824, and the clamping grooves 2824 and the supporting protrusions 51 at the two sides jointly fix the capsule cup 24 in the capsule accommodating cavity 211 without falling off. When the piston 232 moves in the direction of the stirring chamber 50, the piston 232 presses against the bottom of the capsule cup 24, so that the solid fruit capsules in the capsule cup 24 are injected into the stirring chamber 50.

Referring to fig. 9, in the present embodiment, the connecting part 281 is located outside the capsule accommodating cavity 211, the holding part 2821 and the extending part 2822 of the position limiting part 282 are located inside the capsule accommodating cavity 211, the positioning post 2823 passes through the communicating groove 218 and the connecting hole 2816 to be assembled, and the position limiting part 282 and the connecting part 281 are located at the inner side and the outer side of the communicating groove 218, respectively, so that the whole clamping assembly 28 can be more stable during the movement of the clamping assembly 28.

The cylinder 215 passes through the guide groove 2815, the second return spring 26 is sleeved on the cylinder 215, one end of the second return spring 26 is fixed to the cylinder 215, and optionally, a snap ring is disposed between the second return spring 26 and the connecting member 281.

One end of the first return spring 25 is mounted on the mounting portion 216 of the fixing bracket, and the other end is mounted on the second connection portion 2814 of the connection member 281; the gas spring 27 is installed in the mounting seat 217, and the first connection portion 2813 and the gas spring 27 of the connection part 281 are assembled, that is, one end of the connection part 281, which is far from the stopper part 282, is connected to the first return spring 25 and the gas spring 27.

Referring to fig. 10 and 11, the first hook 2321 of the piston 232 is located in the first guide 213, the first hook 2321 can move in the first guide 213, the locking portion 2322 is located in the second guide 214, and the locking portion 2322 can move in the second guide 214.

The second hook 2812 of the connecting part 281 is also located in the first guide 213. in this embodiment, the holding member 28 is in an initial state, and when the capsule cup 24 is placed in the initial position, the capsule cup 24 is carried by the supporting protrusion 51, and the two side edges of the capsule cup 24 are inserted into the two side slots 2824, so that the capsule cup 24 is stably located in the capsule accommodating cavity 211.

When the solid fruit capsule in the capsule cup 24 needs to be injected into the stirring cavity 50, the piston 232 moves towards the stirring cavity 50, the first hook 2321 of the piston 232 and the second hook 2812 of the connecting part 281 are staggered, the connecting part 281 is jacked up by the first hook 2321 to expand outwards, and then is reset under the restoring force of the second return spring 26.

When the squeezed capsule cup 24 needs to fall into the capsule cup collecting device 30, the motor control piston 232 moves towards the direction away from the stirring cavity 50, the first hook portion 2321 and the second hook portion 2812 are hooked with each other after abutting, the first hook portion 2321 drives the second hook portion 2812 to move towards the direction away from the stirring cavity 50 along the first guide portion 213, the capsule cup 24 gradually separates from the supporting protrusion 51, and when the capsule cup 24 separates from the supporting protrusion 51, the capsule cup 24 separates from the clamping grooves 2824 on the two sides and falls into the capsule cup collecting device 40.

In the process that the first hook 2321 drives the second hook 2812 to move in the direction away from the stirring cavity 50, the connecting part 281 drives the first return spring 25 and the gas spring 27 to move in the same direction, and because the first guide part 213 is in the shape of a slide way, the outer side of the first guide part is transited from a curved surface to a straight surface, the height of one end where the curved surface is located is higher, and the height of the end is greater than that of the second hook 2812, when the first hook 2321 drives the hook 2812 to move to the connecting part of the straight line and the curve of the first guide part 213, the first guide part 213 will jack up the connecting part 281, and at the same time, the first return spring 25 and the gas spring 27 are forced to deflect, and the second return spring 26 is forced to extrude in the direction away from the fixed support 21; when the second hook 2812 and the first hook 2321 move to the highest point of the curved portion of the first guide 213, the second hook 2812 and the first hook 2321 are separated, the first return spring 25 and the gas spring 27 rebound without the tensile force, and drive the connecting member 281 to move toward the direction of the stirring chamber 50, and the second return spring 26 returns to the initial state without the tensile force, and drive the connecting member 281 to adhere to the surface of the fixed bracket 21. Therefore, when the first and second hook portions 2321 and 2812 are disengaged, the clamping assembly 28 can be moved to the initial state and position by the second return spring 26 and the gas spring 27.

Preferably, the piston 232 can be controlled to move toward the stirring cavity 50 again until the front end of the piston 232 closes the feeding port 501 of the stirring cavity 50, and directly enters the next stirring stage.

It is understood that in the above embodiment, the second return spring 26 is not necessary, and when the first and second hook portions 2321 and 2812 are disengaged, the clamping assembly 28 can be moved to the initial state and position by the first return spring 25 and the gas spring 27, and the gas spring 27 can play a role of reducing speed and noise during the process of returning the clamping assembly 28.

It should be noted that the preferred embodiments of the present invention are described in the specification and the drawings, but the present invention can be realized in many different forms, and is not limited to the embodiments described in the specification, and these embodiments are not provided as additional limitations to the present invention, and are provided for the purpose of making the understanding of the disclosure of the present invention more thorough and complete. Moreover, the above technical features are combined with each other to form various embodiments which are not listed above, and all the embodiments are regarded as the scope of the present invention; further, modifications and variations will occur to those skilled in the art in light of the foregoing description, and it is intended to cover all such modifications and variations as fall within the true spirit and scope of the invention as defined by the appended claims.

Claims (10)

1. The capsule food processor is characterized by comprising an injection device (20) and a stirring cavity (50), wherein the injection device (20) comprises a fixed support (21), a piston (232) and two clamping assemblies (28);

the fixed support (21) is provided with a capsule accommodating cavity (211) and a piston accommodating cavity (212), and the capsule accommodating cavity (211) is formed by extending two opposite side walls of the fixed support (21) outwards along the movement direction of the piston (232);

the stirring cavity (50) and the fixed support (21) are arranged oppositely, a feeding opening (501) is formed in one surface of the stirring cavity (50) opposite to the injection device (20), and a supporting bulge (51) is arranged below the front end of the feeding opening (501);

the two clamping components (28) are respectively positioned on two sides of the fixed support (21), the two clamping components (28) are oppositely arranged, each clamping component (28) is provided with a clamping groove (2824) which penetrates through the clamping groove from top to bottom, the clamping grooves (2824) are positioned on two sides of the supporting protrusion (51), and the clamping grooves (2824) and the supporting protrusion (51) are used for limiting the position of the capsule cup (24) in the capsule accommodating cavity (211) together.

2. The capsule processing machine according to claim 1,

the injection device (20) further comprises a first return spring (25), and one end of the first return spring (25) is installed on the fixed bracket (21);

the two side walls are provided with first guide parts (213) in a slide shape, the first guide parts (213) penetrate through the side walls, the piston (232) is provided with a first hook part (2521), and the first hook part (2521) can move in the first guide parts (213);

the clamping assembly (28) comprises a connecting part (281) and a limiting part (282), the connecting part (281) and the limiting part (282) are respectively located on the inner side and the outer side of the fixing support (21), the clamping groove (2824) is formed in the limiting part (282), and the connecting part (281) is assembled with the other end of the first return spring (25);

the connecting component (281) is provided with a second hook part (2812), the direction of the second hook part (2812) is opposite to the direction of the first hook part (2521), and the second hook part (2812) can move in the first guide part (213).

3. The capsule processing machine according to claim 2,

spacing part (282) include card holder (2821) and reference column (2823), spacing part (282) pass through reference column (2823) with adapting unit (281) are connected, draw-in groove (2824) set up in card holder (2821).

4. The capsule processing machine according to claim 3,

the limiting component (282) further comprises an extending part (2822), the extending part (2822) and the positioning column (2823) both extend from the same face of the clamping part (2821), and the extending part (2822) and the clamping part (2821) are approximately perpendicular.

5. The capsule processing machine according to claim 3,

the connecting part (281) comprises a main body part (2811), a second hook part (2812), a first connecting part (2813) and a second connecting part (2814), and a connecting hole (2816) assembled with the positioning column (2823) is formed in the main body part (2811);

the second hook part (2812) and the second connection part (2814) both extend from one end of the main body part (2811) far away from the limiting part (282) towards different directions, and the first connection part (2813) is used for being assembled with the first return spring (25).

6. The capsule processing machine according to claim 5,

the injection device (20) further comprises a second return spring (26);

the two side walls are further provided with a column body (215), the second return spring (26) is sleeved on the column body (215), and the second return spring (26) is used for enabling the main body part (2811) to return to an original position after the main body part (2811) expands outwards relative to the fixed support (21).

7. The capsule processing machine according to claim 6,

a communicating groove (218) is formed in front of the first guide portion (213) on the two side walls along the movement direction of the piston (232) toward the stirring chamber (50), and the cylinder (215) is arranged between the first guide portion (213) and the communicating groove (218);

the main body part (2811) is provided with a guide groove (2815), the column body (215) is arranged in the guide groove (2815) in a penetrating mode, and the positioning column (2823) penetrates through the guide groove (2815) and then is assembled with a connecting hole (2816) of the connecting part (281).

8. The capsule processing machine according to claim 5,

the injection device (20) further comprises a gas spring (27);

the gas spring (27) is fixedly mounted on the fixing support (21), and the connecting part (281) further comprises a first connecting part (2813), and the first connecting part (2813) is used for being assembled with the gas spring (27).

9. The capsule processing machine according to any one of claims 1 to 8,

the two side walls are also provided with second guide parts (214), and the second guide parts (214) penetrate through the side walls;

the piston (232) is further provided with a clamping part (2522), the clamping part (2522) penetrates through the second guide part (214), and the clamping part (2522) can move in the second guide part (214).

10. The capsule processing machine according to any one of claims 1 to 8,

the injection device (20) further comprises a motor (230), a worm and gear mechanism (2311) and a transmission rod (2312), wherein the motor (230) drives the piston (232) to move towards the direction close to the stirring cavity (50) or away from the stirring cavity (50) through the worm and gear mechanism (2311) and the transmission rod (2312);

one surface, far away from the stirring cavity (50), of the fixing support (21) is provided with an assembling hole (220), and the transmission rod (2312) penetrates through the assembling hole (220) to be connected with the piston (232).

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