CN218278675U - Charging pipe screwing structure and herbal processing device - Google Patents

Abstract

The charging pipe screwing structure comprises a grabbing structure and a rotating structure which are matched with each other, wherein the grabbing structure is used for grabbing the upper end of the charging pipe, and the rotating structure is used for enabling the upper end of the charging pipe and the charging pipe to generate relative rotating motion to realize sealing; still provide a herbaceous processingequipment, adopt aforementioned charging tube to screw up the structure.

Description

Charging pipe screwing structure and herbal processing device

Technical Field

The utility model relates to a herbaceous processing electrical apparatus technical field specifically says so a structure and herbaceous processingequipment are screwed up to charging pipe.

Background

There is a class of herbaceous processingequipment at present, portable, facilitate the use, and this herbaceous processingequipment can realize cutting, smashing, grinding herbaceous, herbaceous such as herbal medicine, tobacco, seed etc. according to the difference of cutter structure through adopting different cutters.

The existing construction of the described herbal processing device can be referred to the relevant part of the US granted utility model patent US9427020B2 in an apparatus for grinding and depositing abrasive material, and the relevant part of US9814259B1 in a portable hand-held device for preparing smokable products.

The patent US9427020B2, granted to utility model, relates to an apparatus for grinding and depositing abrasive materials, the technical solution of which is: an apparatus for grinding and depositing organic leafy material into at least one paper tube, said apparatus comprising: a grinder, said grinding mechanism grinding said organic leaf material, said grinder having at least one aperture through which ground material passes into a chamber connected to said grinder in alignment with said at least one aperture, said chamber configured to receive said at least one paper tube therein and receive said ground material from said at least one aperture via gravity such that receipt of said at least one paper tube is at least partially filled with said ground material within said chamber. The patent US9427020B2 relates to an apparatus for grinding and depositing abrasive material, of the manual design, with a low rotation speed and a low efficiency, the grinding mechanism comprising: a first grinding unit including at least one first protrusion; the second grinding unit includes at least one second protrusion and the at least one aperture, and the at least one first protrusion interacts with the at least one second protrusion to grind the material as the first grinding unit moves relative to the second grinding unit. The first grinding unit and the second grinding unit are sleeved with each other, and the first protrusion and the second protrusion move relatively by utilizing the relative rotation motion between the first grinding unit and the second grinding unit, so that the grinding purpose is realized. The distance between the first grinding unit and the second grinding unit is unchanged.

US granted utility model patent US9814259B1 relates to a portable hand-held device for preparing a smokable product, the technical solution of which is: a portable hand-held device for preparing a smokable product, comprising: a) A closure wall forming a chamber; b) A grill disposed within the chamber, thereby dividing the chamber into an upper chamber and a lower chamber; c) A fill inlet for placing feed smokable material into the upper chamber; d) A cutting mechanism comprising: i) A rotatable blade in the upper chamber for cutting a sufficient amount of the smokable material in the upper chamber such that the cut smokable material can pass through the grate into the lower chamber to provide a fillable smokable material; ii) a motor for rotating the blades; iii) A power source for driving the motor; and iv) a switch for turning on and off the power supply; e) A support for supporting the packages below the lower chamber and removably connected to the lower chamber; f) An opening in the lower chamber for filling with smokable material, the material passing through the grate into a pack supported by the support; g) A tamper mounted in the lower chamber above the grid for tamping the fillable smokable material in the enclosure; and h) a spring biasing the enclosure wall to an upper position, wherein the enclosure wall is movable downwardly relative to the support from the upper position to a lower position to move the grid downwardly to move the tamper downwardly to tamp the fillable smokable material in the enclosure, and wherein the apparatus is portable and is sized and shaped to be held in the hand of a user. The relevant part is the cutting mechanism (the mechanism that reduces the size of the raw material), and in the embodiment it is pointed out that any mechanism that reduces the size of the raw material can be used, it is contemplated that the mechanism can be a blade, a grinder, a chopper, a meat chopper or a combination thereof. The size reducer may be activated manually or automatically. An exemplary size reduction mechanism that may be used manually or powered by motor 246 is a grinder having a first plate with grinding projections 132 opposite a second plate with grinding projections 134 for grinding stock material therebetween, as shown in fig. 2-4, 12-15. The distance between the first plate and the second plate is relatively kept unchanged.

In view of the above, the processed material output by the herb processing device is loaded into the loading tube (corresponding to the paper tube and the packaged material), however, at present, the loading is completed after the material is loaded, and the loading port is still in an open state, so that the material is easy to pour out from the loading port, and at the same time, the tube body of the loading tube is not tight enough to wrap the material.

SUMMERY OF THE UTILITY MODEL

The technical problem to be solved by the utility model is to overcome the defects of the prior art, and provide a charging pipe screwing structure to realize sealing, and simultaneously, the charging pipe body can tightly wrap the material; still provide a herbaceous processingequipment, adopt aforementioned charging tube to screw up the structure.

Compared with the prior art, the utility model provides a charging tube screws up structure, hold together structure and rotating-structure including mutually supporting the use, hold together the structure and be used for holding together the charging tube upper end, hold together the charging tube upper end and divide into two kinds of circumstances, one kind is locking charging tube upper end, another kind is that the charging tube upper end is not locked, the charging tube upper end can also be held together the structure relatively and rotate, under the locking circumstances, rotating-structure is used for making to produce relative rotational motion between charging tube upper end and the charging tube, under the non-locking circumstances, rotating-structure is used for making the charging tube rotate, should rotate and make the charging tube upper end hold together the structure relatively and rotate simultaneously.

As an improvement, a first holding assembly is arranged at the upper end of the charging pipe, the charging pipe is connected with a fixing assembly, the fixing assembly is used for fixing the charging pipe, and the first holding assembly is used for holding the upper end of the charging pipe and can drive the upper end of the charging pipe to rotate or rotate around the upper end of the charging pipe under the non-locking condition; or the upper end of the charging pipe is provided with a second holding assembly, other positions of the charging pipe are provided with third holding assemblies, the second holding assembly is used for holding the upper end of the charging pipe, and the third holding assembly is used for clamping the charging pipe and driving a pipe body of the charging pipe to rotate; or, a first holding-together component is arranged at the upper end of the charging pipe, a third holding-together component is arranged at other positions of the charging pipe, the first holding-together component is used for holding the upper end of the charging pipe and forming first rotation, the third holding-together component is used for clamping the charging pipe and driving a pipe body of the charging pipe to rotate in order to form second rotation, the first rotation direction and the second rotation direction are opposite, or the first rotation direction and the second rotation direction are the same but have a speed difference.

As an improvement, the fixing component is used for fixing the lower end of the charging pipe, and the third holding component is used for clamping the lower end of the charging pipe.

As an improvement, the second holding assembly adopts a holding claw holding mechanism, the holding claw holding mechanism comprises a first electric motor, a first transmission and at least two holding claws arranged on the circumferential direction of the charging pipe, each holding claw is arranged on a holding claw seat, the first electric motor drives each holding claw to open/close through the first transmission, and each holding claw is opened/closed to loosen/clamp the upper end of the charging pipe.

As an improvement, the first holding component adopts a mechanism that the holding claw holds and can rotate, or the first holding component and the third holding component both adopt a holding claw clamping and rotating mechanism.

The holding claw clamping and rotating mechanism comprises a second electric motor, a second transmission, a first rotating part, at least two rotating holding claws, a second rotating part, a damping part and a containing part, wherein the second electric motor drives the first rotating part to rotate through the second transmission, the first rotating part, each rotating holding claw and the second rotating part are sequentially arranged in the containing part along the axial direction of the charging pipe from top to bottom, the first rotating part, the second rotating part and the containing part are provided with inserting holes arranged along the axial direction of the charging pipe, each rotating holding claw is circumferentially arranged around the inserting holes, each rotating holding claw is provided with an upper shaft and a lower shaft, the first rotating part is provided with a guiding part matched with the upper shaft, the second rotating part is provided with a matching part matched with the lower shaft, the second rotating part is connected with the damping part and serves as a base of each rotating holding claw, the first rotating part drives each rotating holding claw to rotate around the lower shaft to open/close through the guiding matching of the guiding part of the upper shaft, each rotating holding claw is used for loosening/clamping the inserting hole of the charging pipe, the second rotating part drives the rotating holding claws to rotate around the lower shaft to open/close, the holding claws, the rotating parts, the rotating claws to reversely rotate together to drive the second rotating holding claws to enable the charging pipe to reversely rotate and stop the rotating holding claws to reversely rotate around the charging pipe, and drive the first rotating parts to reversely rotate around the second rotating parts, and stop the charging pipe when the first rotating parts to reversely rotate around the charging pipe, and the rotating parts, and the second rotating parts, and stop the charging pipe, and the rotating parts, and the charging pipe to reversely rotate together, and stop the charging pipe.

As a modification, the lower end of the charging pipe is provided with a vibrating portion having a vibration in the axial direction of the charging pipe, the vibrating portion being for providing a tapping force.

As the improvement, the charging pipe is sleeved with a pipe seat, the pipe seat is arranged to be capable of entering and exiting the discharging port, and when the pipe seat is moved out of the discharging port, the taking and placing port is exposed to take and place the charging pipe.

As an improvement, a first holding component and a fixing component are integrally installed on the tube seat, or a second holding component and a third holding component are integrally installed on the tube seat, or the first holding component and the third holding component are integrally installed on the tube seat, or in the three cases, a vibration component provided with a vibration part is also integrally installed on the tube seat.

After adopting above-mentioned structure, compare with prior art, the utility model has the advantages of it is following: the upper end of the charging pipe can rotate relative to the holding structure, under the locking condition, the rotating structure is used for enabling the upper end of the charging pipe and the charging pipe to generate relative rotating motion, under the non-locking condition, the rotating structure is used for enabling the charging pipe to rotate, the upper end of the charging pipe can rotate relative to the holding structure simultaneously through rotation, the relative rotating motion or the rotation of the upper end of the charging pipe relative to the holding structure can achieve screwing and sealing of a pipe orifice of the charging pipe, namely sealing, if enough rotating turns are carried out, the pipe body of the charging pipe can be further screwed, so that the packaging of the charging pipe body to the material can be achieved, in other words, during actual charging, the charging pipe cannot be filled with the material, the upper end of the charging pipe is also provided with a small section, when the upper end of the charging pipe is rotated, the upper end of the charging pipe can be further screwed, the rotating structure can act on the upper end of the charging pipe to enable the upper end of the charging pipe to be screwed tightly, so that the upper end of the charging pipe can be screwed by a small section of the charging pipe to be more easily rotated, and the upper end of the charging pipe can be screwed by a small section of the sealing tube, so that the upper end of the charging pipe can be more easily screwed to be screwed, and the upper end of the charging pipe can be more easily screwed by a small section of the charging pipe, and the charging pipe can be more easily, and the sealing of the sealing bag, so that the sealing of the charging pipe can be more easily, and the sealing of the charging pipe can be more easily sealed pipe, and the sealing pipe can be more easily, and the sealing of the charging pipe.

Compared with the prior art, the utility model provides a herbaceous processingequipment, including the casing, the casing is equipped with ejection of compact subassembly, and ejection of compact subassembly is equipped with the discharge gate, and this discharge gate is used for the charging pipe reinforced, the casing is equipped with the charging pipe screw up the structure.

After adopting above-mentioned structure, compare with prior art, the utility model has the advantages of it is following: the final charging tube obtained by processing is sealed, and if the number of rotation turns is enough, the material can be wrapped more tightly, so that the performance of the herbal processing device is improved after the design.

Drawings

Fig. 1 is a schematic diagram of a herbaceous processing device adopting the charging pipe tightening structure of the present invention.

Fig. 2 is a schematic view of the access member as it moves out of the access port to expose the access port.

Fig. 3 is a schematic view showing a state in which the containing structure and the charging pipe tightening structure are engaged.

Fig. 4 is a schematic half-section view of fig. 3.

Fig. 5 is a perspective view showing a structure for screwing the charging pipe.

Fig. 6 is an exploded view of the charging pipe tightening structure.

FIG. 7 is an exploded view of the access member.

Fig. 8 is an exploded view of the mounting base.

Fig. 9 is a schematic perspective view of the clasping claw holding mechanism without the clasping claw seat.

Fig. 10 is a schematic perspective view of the clasping claw clasping mechanism without the clasping claw seat.

Fig. 11 is one of perspective views of the clasping and rotating mechanism without the accommodating portion.

Fig. 12 is a second perspective view of the clasping and rotating mechanism without the accommodating portion.

Fig. 13 is a perspective view of the containment structure.

Fig. 14 is a schematic half-section view of a containment structure.

FIG. 15 is a perspective view of the cup shown separated from the lid.

FIG. 16 is a second schematic perspective view of the cup separated from the lid.

Figure 17 is a perspective view of the liner.

FIG. 18 is a perspective view of the liner member shown separated from the conical seal member.

FIG. 19 is one of the schematic perspective views of the inner cup.

Fig. 20 is a second perspective view of the inner cup.

FIG. 21 is a perspective view of the inner cup with the spout attached.

FIG. 22 is a perspective view of the cup holder.

Fig. 23 is a second perspective view of the cup holder.

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Detailed Description

The following description is provided to disclose the invention so as to enable any person skilled in the art to practice the invention. The embodiments in the following description are intended only as examples, and other obvious variations will occur to those skilled in the art. The basic principles of the invention, as defined in the following description, may be applied to other embodiments, variations, modifications, equivalents and other technical solutions without departing from the spirit and scope of the invention.

The following is a more detailed description of the present invention:

as shown in figures 1 and 2, disclose an adopt the utility model discloses charging tube screws up herbaceous processingequipment of structure, this herbaceous processingequipment includes casing 2 and base 3, and casing 2 is equipped with ejection of compact subassembly, and ejection of compact subassembly is equipped with the discharge gate, and this discharge gate is used for charging tube 16 reinforced, casing 2 is equipped with charging tube screw up the structure. The utility model also provides a charging tube is put and is put structure, this charging tube is put and is put structure includes herbaceous processingequipment's casing 2, still includes business turn over piece 17 that can follow the business turn over of casing 2 side business turn over, is connected with business turn over mechanism between business turn over piece 17 and the casing 2, and business turn over mechanism is used for driving business turn over piece 17 business turn over, and business turn over piece 17 is used for the support charging tube 16 that can get and put. In this example, because the discharging assembly is the side surface discharging, so in order to cooperate the discharging, the charging tube screws up the structure to set up laterally, in order to simplify and expose and get and put the mouth in order to get and put the relevant organization of the charging tube 16, and improve and expose and get and put the mouth in order to get and put the compactness of the relevant organization of the charging tube 16, the business turn over organization of the business turn over piece 17 adopts the lateral direction to rotate business turn over, or swing business turn over, after designing like this, favorable to the compact structure, in addition, the business turn over piece 17 opens the necessary movement space less, favorable to doing the volume of the little grass processing unit, adopt the business turn over organization of the lateral direction (swing mechanism) favorable to reducing the complexity of the business turn over organization in addition, thus favorable to reducing and taking up the space inside the grass processing unit. Since the present example uses a new type of discharge assembly designed by the applicant, the discharge assembly may also be referred to as a receiving structure in the present example. The discharging component matched with the charging pipe screwing structure is not limited to the discharging component, and can be a discharging component with other structures, and the details are not repeated.

Other mechanisms for access may also be used, such as horizontal access mechanisms, side-hinged opening mechanisms, and the like. The in-and-out mechanism drives the in-and-out part 17 to enter and exit from the side face of the shell 2, namely, the in-and-out part 17 enters and exits from the side face of the shell 2 and is completed by the in-and-out mechanism, and a user does not need to participate in complex disassembly and assembly, so that the charging pipe 16 is simple to take and place and high in convenience.

Casing 2 is equipped with containment structure, this containment structure's bowl cover 1 is located herbaceous processingequipment's top, and when herbaceous processingequipment's shape is different, bowl cover 1 does not necessarily lie in herbaceous processingequipment's top, and everywhere satisfies containment structure and locates the casing 2 back, and containment structure's bowl cover 1 can be upwards opened in order to feed, and such setting position all can.

Next, the charging pipe tightening structure will be described in detail first.

The holding structure is used for holding the upper end 16.1 of the charging pipe 16, the holding of the upper end 16.1 of the charging pipe 16 is divided into two conditions, one is used for locking the upper end 16.1 of the charging pipe 16, the other is used for preventing the upper end 16.1 of the charging pipe 16 from being locked, the upper end 16.1 of the charging pipe 16 can also rotate relative to the holding structure, under the locking condition, the rotating structure is used for enabling the upper end 16.1 of the charging pipe 16 and the charging pipe 16 to generate relative rotating motion, under the non-locking condition, the rotating structure is used for enabling the charging pipe 16 to rotate, the rotating structure simultaneously enables the upper end 16.1 of the charging pipe 16 to rotate relative to the holding structure, the relative rotating motion or enabling the upper end 16.1 of the charging pipe 16 to rotate relative to the holding structure to enable the pipe orifice of the charging pipe 16 to be screwed tightly, namely, the sealing can be realized, if enough rotating turns are carried out, the pipe body of the charging pipe 16 can be further screwed tightly, therefore, the charging pipe 16 can be tightly wrapped by the pipe body, in other words, during actual charging, the charging pipe 16 generally cannot overflow, the upper end of the charging pipe 16 is provided with a small empty section, when the holding structure holds the upper end 16.1 of the charging pipe 16, the upper end 16.1 of the charging pipe 16 is folded, after the rotating structure acts, the upper end 16.1 of the charging pipe 16 is screwed and closed as if the bag mouth is screwed into a strip-shaped closed mouth to realize closing, and during the screwing process, if enough rotating turns (through the number of the rotating turns, the control of the screwing degree can be realized), on one hand, the pipe body can be subjected to rotating screwing force, so that the pipe body is more tightly wrapped by the charging pipe, on the other hand, when enough rotating turns are carried out, the upper end 16.1 of the charging pipe 16 is screwed more tightly, so that a certain extrusion effect can be realized on the charging pipe 16 at the closed part, in this respect, therefore, the tube body is also wrapped more tightly around the cartridge.

The utility model discloses a structure is screwed up to charging tube, including the structure and the rotating-structure of holding together that mutually support and use, hold together the structure and be used for holding together 16.1 upper ends of charging tube, hold together the charging tube upper end and divide into two kinds of circumstances, one kind is 16.1 upper ends of charging tube locking, another kind is 16.1 upper ends of charging tube are not locked, the charging tube upper end can also hold together the structure relatively and rotate, promptly: the upper end 16.1 of the charging tube 16 is clasped, that is, after the upper end 16.1 of the charging tube 16 is clasped, a gap 55 exists in the clasping structure, the clasped part of the upper end 16.1 of the charging tube 16 is positioned in the gap 55, when the charging tube 16 rotates or the clasping structure rotates around the charging tube 16, the upper end 16.1 of the charging tube 16 rotates relative to the clasping structure, that is, the gap 55 formed after the first clasping claw 30 and the second clasping claw 31 of the second clasping assembly are clasped rotates, so that the upper end 16.1 of the charging tube 16 can move, and is not easy to rotate and cut off when the rotating seal is formed, and the feeding tube 16 is particularly suitable for the charging tube 16 with easy material breakage, in addition, due to the design of the gap 55, the upper end 16.1 of the charging tube 16 can be rotated to form a strip seal with a better shape, and has a better sealing effect.

From the above, it can be seen that the turning structure is adapted to produce a relative turning movement between the upper end 16.1 of the charging pipe 16 and the charging pipe 16 in the case of locking, and to turn the charging pipe 16 in the case of non-locking, which simultaneously turns the upper end 16.1 of the charging pipe 16 relative to the locking structure.

There are various embodiments for the relative rotational movement between the upper end 16.1 of the charging tube 16 and the charging tube 16 or for the rotation of the upper end 16.1 of the charging tube 16 relative to the embracing structure, such as: the upper end 16.1 of the charging pipe 16 is provided with a first holding assembly, the charging pipe 16 is connected with a fixing assembly, the fixing assembly is used for fixing the charging pipe 16, under the locking condition, the first holding assembly is used for holding the upper end 16.1 of the charging pipe 16 and can drive the upper end 16.1 of the charging pipe 16 to rotate, and under the non-locking condition, the first holding assembly is used for holding the upper end 16.1 of the charging pipe 16 and can rotate around the upper end 16.1 of the charging pipe 16, so that two types are available; or, a second holding assembly is arranged at the upper end 16.1 of the charging pipe 16, a third holding assembly is arranged at other positions of the charging pipe 16, the second holding assembly is used for holding the upper end 16.1 of the charging pipe 16, the upper end 16.1 of the charging pipe 16 can be held without a space 55 or without a space 55, and the third holding assembly is used for holding the charging pipe 16 and driving the pipe body of the charging pipe 16 to rotate, so that two types of holding assemblies are available; or, be equipped with first holding together subassembly at charging tube 16 upper end 16.1, be equipped with the third holding together subassembly in the other positions of charging tube 16, first holding together subassembly is used for holding together charging tube 16 upper end 16.1 to can drive charging tube 16 upper end 16.1 in order to form first rotation, the third holding together subassembly is used for holding together charging tube 16 and drives charging tube 16 shaft in order to form the second and rotate, first rotation, the second rotates rotation opposite direction, perhaps, first rotation, the second rotates the same but speed difference of rotation direction, above-mentioned scheme also can be further divided into two kinds of situations of locking and non-locking.

The present example focuses on the third aspect, that is, a second holding assembly is disposed at the upper end 16.1 of the charging tube 16, a third holding assembly is disposed at other positions of the charging tube 16 for holding the upper end 16.1 of the charging tube 16 and providing a space 55 without locking the upper end 16.1 of the charging tube 16, and the third holding assembly is used for clamping the charging tube 16 and driving the tube body of the charging tube 16 to rotate, in this example, a third holding assembly is disposed at the lower end 16.2 of the charging tube 16, so that the space between the second holding assembly and the third holding assembly is larger, and the tightening effect is better.

In this case, as shown in fig. 5, the applicant has designed the charging pipe tightening structure in a modular or integrated manner, which substantially comprises the second closing assembly, the third closing assembly and the pipe socket integrated with the first two, which is also used for mounting the charging pipe 16.

As shown in fig. 6, which is an exploded or exploded view, the tube socket is an assembly including an inlet/outlet member 17, a tube housing 18 and a mounting base 19, the tube housing 18 is connected to the inlet/outlet member 17, the tube housing 18 is used for mounting a charging tube 16, the inlet/outlet member 17 is rotatably connected to the mounting base 19, the mounting base 19 is provided with a front opening 52 matched with the inlet/outlet member 17, the inlet/outlet member 17 is rotatably connected to swing in and out the front opening 52, when the inlet/outlet member 17 swings out, the opening of the tube housing 18 is exposed, and the charging tube 16 enters and exits the tube housing 18 through the opening. In order to open the in-out member 17 automatically, the mounting seat 19 is provided with a torsion spring 21 and a second rotating shaft 53 sleeved with the torsion spring 21 at a rotating joint, the outer end of the second rotating shaft 53 is connected with the torsion spring 21, the inner end of the second rotating shaft 53 is matched with a shaft hole 35 arranged on the in-out member 17, when the in-out member 17 swings to close, the in-out member 17 rotates to drive the second rotating shaft 53 to rotate, the second rotating shaft 53 rotates to drive the torsion spring 21 to rotate, when the in-out member 17 swings to open, the torsion spring 21 rotates to drive the second rotating shaft 53 to rotate, the in-out member 17 rotates to drive the in-out member 17 to open, and a pressing type self-locking switch is further arranged between the mounting seat 19 and the in-out member 17. In order to be able to cooperate with the outer wall of the housing 2, the access member 17 is further provided with a door 24, and the door 24 cooperates with the outer wall of the housing 2 to form a better sealing effect and appearance.

The automatic opening design of the mechanical type such as the torsion spring 21 is adopted, and the structure is simple, stable and reliable. Of course, an electric design may be used, but the mechanical automatic opening design is more advantageous than the electric design in terms of a smaller volume, no power supply, higher reliability, and the like.

As shown in fig. 7, the inlet and outlet member 17 includes a first body, the upper and lower positions of the first body are provided with guide hole portions for receiving and installing the pipe sleeve 18, in order to facilitate the injection molding of the inlet and outlet member 17, the lower guide hole portion is provided as a separate member, i.e., a guide seat 34, and the guide seat 34 is installed on the first body to obtain the required lower guide hole portion. For a more rational arrangement, the third closing assembly is integrated into the first body, and for this purpose, the lower end of the first body is provided with a transverse mounting portion 25, the transverse mounting portion 25 is provided with a mounting hole 26, and the third closing assembly is mounted in the mounting hole 26. In addition, after the charging tube 16 is mounted in the tube sleeve 18, the lower end 16.2 of the charging tube 16 should be positioned in or pass through the mounting hole 26, so that the third closing assembly can clamp and drive the lower end 16.2 of the charging tube 16 to rotate.

The design of the sleeve 18 and the guide bore portion which are mutually sleeved, i.e. the sleeve 18 and the guide bore portion are axially detachably connected, is adopted, and after the design, two taking and placing modes of the charging tube 16 can be realized, namely, the sleeve 18 is maintained to be connected with the guide bore portion, the charging tube 16 is directly inserted into/taken out of the sleeve 18 so as to realize the placing/taking of the charging tube 16, and secondly, the placing process is realized, the sleeve 18 is firstly axially separated from the guide bore portion, then the charging tube 16 is inserted into the sleeve 18 so as to realize the placing of the charging tube 16 relative to the sleeve 18, then the sleeve 18 is manually inserted into the guide bore portion so as to realize the placing of the sleeve 18, so that the placing of the charging tube 16 is indirectly realized, and the taking out is realized in the reverse order, namely, the sleeve 18 is firstly taken out of the guide bore portion, and then the charging tube 16 is taken out of the sleeve 18. The above-described design not only provides two user-selectable modes of taking and placing the loading tube 16, but additionally, since the in-and-out member 17 is a swinging in-and-out member, if the first mode is used, the loading tube 16 is obliquely operated, and certain alignment requirements are required in operation, and the second mode is used to reduce such requirements, i.e., the second mode is more convenient and is particularly suitable for the case of a soft loading tube 16, and in addition, the second mode makes it possible for the user to take and place the loading tube 16 relative to the tube housing 18 in a hand-held state comfortable for the user to feel.

The third clasping assembly adopts a clasping claw clamping rotating mechanism, i.e. a clasping structure, in this example, as shown in fig. 7, 11 and 12, the clasping claw clamping rotating mechanism includes three second electric motors 28, a second transmission, a first rotating member 40, at least two rotating clasping claws 41, a second rotating member 42, a damping member 43 and an accommodating portion, in this example, the number of the rotating clasping claws 41 is three, the second electric motors 28 are connected with driving gears 47, the first rotating member 40 is designed as a driven gear, the driving gears 47 are in transmission connection with the driven gear to form the second transmission, and the second electric motors 28 drive the first rotating member 40 to rotate through the second transmission.

The first rotating member 40, the rotating holding claws 41 and the second rotating member 42 are sequentially arranged in the accommodating part from top to bottom along the axial direction of the charging pipe 16, and the accommodating part is inserted into the mounting hole 26, so that the production and assembly are greatly facilitated, and the modular design is realized. The accommodating part comprises a cover plate 38 and an accommodating seat 39, and the first rotating piece 40, the rotating claws 41 and the second rotating piece 42 are arranged between the cover plate 38 and the accommodating seat 39.

For a more flat design and more rotation-facilitating, the lower end of the first rotating member 40 is provided with a cavity for axially accommodating the respective rotating holding claw 41 and the second rotating member 42, and for a further flat design, the lower surface of the second rotating member 42 is substantially flush with the lower end surface of the first rotating member 40 or the lower surface of the second rotating member 42 is recessed in the lower end surface of the first rotating member 40, that is, the respective rotating holding claw 41 and the second rotating member 42 are accommodated and installed in the first rotating member 40.

The first rotating member 40, the second rotating member 42, and the accommodating portion are provided together with an insertion hole 46 provided along the axial direction of the charging pipe 16, the respective rotating embracing claws 41 are circumferentially provided around the insertion hole 46, each rotating embracing claw 41 is provided with an upper shaft 44 and a lower shaft 45, the first rotating member 40 is provided with a guide portion 48 engaged with the upper shaft 44, the guide portion 48 is a strip-shaped guide hole in this example, three in number, the second rotating member 42 is provided with an engaging portion engaged with the lower shaft 45, in this example, a circular hole in total, three in number, the second rotating member 42 is connected to the damper member 43, and the second rotating member 42 serves as a base of the respective rotating embracing claws 41. The strip-shaped guide holes are adopted, and the lower shaft 45 is fixed and rotatably connected by the round holes, so that the movement stroke of the rotating holding claw 41 is short, and the rotating holding claw 41 can be opened/closed at a high speed.

For the purpose of simple and compact structure, the damping member 43 is an elastic member, which is a U-shaped member, the middle part of which is elastically protruded upward, the U-shaped member is installed between the lower surface of the second rotating member 42 and the receiving seat 39, the receiving seat 39 is provided with a hole for inserting and connecting the two legs of the U-shaped member, when the first rotating member 40, the respective rotating clasping claws 41 and the second rotating member 42 are arranged in the receiving seat 39 and the cover plate 38 is covered, the middle part is elastically contacted with the lower surface of the second rotating member 42, so that a certain frictional resistance is provided, the frictional resistance is used as a damping force to prevent the second rotating member 42 from rotating, only when the respective rotating clasping claws 41 are rotated in place, i.e., cannot rotate freely, the rotating force of the first rotating member 40 is transmitted to the second rotating member 42 through the respective rotating clasping claws 41, so that the second rotating member 42 can be rotated against the damping force, so that the respective rotating clasping claws 41 also rotate around the insertion hole 46, in this case, the damping members 43 are two members arranged in parallel.

The first rotating member 40 rotates each of the rotating holding claws 41 about the lower shaft 45 for opening/closing through the guiding engagement of the guide portion 48 and the upper shaft 44, each of the rotating holding claws 41 opens/closes a portion for unclamping/clamping the charging pipe 16 inserted into the insertion hole 46, the second rotating member 42 is adapted to be driven by the first rotating member 40 for rotation together through each of the rotating holding claws 41 after each of the rotating holding claws 41 holds the charging pipe 16 and overcomes the resistance of the damper member 43, the rotation causes the rotating holding claws 41 to rotate the charging pipe 16 together, when the second electric motor 28 drives the first rotating member 40 for reverse rotation, the second rotating member 42 is first stopped by the damper member 43, the stopping rotation causes the rotating holding claws 41 and the charging pipe 16 to stop rotating together, and then each of the rotating holding claws 41 is reversely rotated about the lower shaft 45 by the reverse rotation of the first rotating member 40 for unclamping the charging pipe 16.

Embrace claw and press from both sides tight slewing mechanism can realize holding tightly simultaneously, can also drive the charging pipe rotation to compact structure, volume are less, after designing like this, not only be favorable to realizing herbaceous processingequipment's function, be favorable to realizing moreover that herbaceous processingequipment volume is less.

For better support of the second electric motor 28, a second bracket 37 is provided between the second electric motor 28 and the transverse mounting portion 25.

As shown in fig. 8 and 9, the mount 19 of this example includes a second body. For more reasonable arrangement structure, the second holding component is integrated at the upper end of the second body, and the vibration component is integrated at the lower end of the second body. The lower end of the second body is provided with a residue box 56 which can be used for receiving materials leaked accidentally.

The vibration subassembly is the tap structure specifically, and the tap structure is including can getting the filling pipe 16 of putting, and when filling, the lower extreme of filling pipe 16 is docked has electronic real part of vibration, and this electronic real part of vibration is used for filling the compaction to filling pipe 16.

The holding assembly can adopt a holding claw structure for screwing the charging pipe, and comprises a first holding claw 30 and a second holding claw 31 which can be relatively held open/closed, the holding surfaces of the first holding claw 30 and the second holding claw 31 are respectively provided with a V-shaped part which is respectively called as a first V-shaped part and a second V-shaped part, and the first V-shaped part and the second V-shaped part can be relatively held together to hold the charging pipe 16 or the space 55 between the first V-shaped part and the second V-shaped part can be relatively held together to form the holding charging pipe 16. The design adopts two holding claws with a first V-shaped part and a second V-shaped part to hold and seal, and the structure is compact and the volume is small; when the two side faces of the first V-shaped part and the second V-shaped part, which form the V-shape, are folded, on one hand, the charging pipe 16 can be extruded to reduce the opening of the charging pipe 16, namely, the upper end 16.1 is reduced, on the other hand, the folding purpose can be better realized, especially for the situation that the first holding claw 30 and the second holding claw 31 can rotate relatively to fold open/close, the two side faces of one side of the two side faces, which are far away from the rotating shaft, of the V-shaped part can completely extrude the charging pipe 16 towards the middle and fold the charging pipe without easily running out, and the two side faces of one side, which is close to the rotating shaft, of the two side faces of the V-shaped part support the charging pipe 16 not to run out and extrude towards the middle at the same time, so that the folding purpose can be better realized, the folding success rate is higher, and great help is provided for improving the reliability.

In some embodiments, the first holding claw 30 and the second holding claw 31 both adopt a rotating structure, and the first V-shaped portion and the second V-shaped portion can rotate relatively to close/open. After the design, the structure is compact, in addition, the movement space required by the first holding claw 30 and the second holding claw 31 when the holding claws are opened/closed is small, and the volume of the small grass processing device is favorably realized.

In some embodiments, the first holding claw 30 and the second holding claw 31 are provided with transmission teeth, the output shaft 54 of the first electric motor 27 is in transmission fit with the second holding claw 31, and the transmission teeth of the second holding claw 31 are meshed with the transmission teeth of the first holding claw 30. After the design, the structure is simple and compact, and the volume of the small herbal processing device is favorably realized.

In some embodiments, the output shaft 54 of the first electric motor 27 is in insertion fit transmission with the second holding claw 31, and the output shaft 54 serves as a rotating shaft of the second holding claw 31. After the design, the structure is further simple and compact, and the volume of the small herbal processing device is favorably realized.

In some embodiments, the first V-shaped portion of the first clasping claw 30 and the second V-shaped portion of the second clasping claw 31 can be clasped together in a relatively overlapping fit. After designing like this, the structure volume after holding together is less, and in addition, after holding together, the degree that charging tube 16 was extruded is higher, is favorable to rotating to seal.

In some embodiments, the first and second chevrons may be held together in a relatively inset fit. After the design, the insertion fit has certain guidance, so that the repeated holding process is more stable and reliable.

In some embodiments, a support surface is provided between the two sides of the first V-shaped portion and the second V-shaped portion that form the V-shape, and the support surfaces are respectively referred to as a first support surface and a second support surface, and after being clasped, the first support surface and the second support surface provide a clasping surface or a circumferential surface for the charging tube 16 to be tightened by rotation. After the design, the charging tube 16 is better folded, especially for the circumstance that a circumferential surface for the charging tube 16 to rotate and tighten is provided, namely the circumstance that the gap 55 is provided, after the design, the charging tube 16 can be better rotated and locked in the gap 55, meanwhile, the charging tube 16 is rotated and formed into a long strip shape, so that on one hand, the upper end 16.1 of the charging tube 16 has a better shape after being locked, and on the other hand, the charging tube 16 is not easy to scatter when being taken out for use. The aforementioned design therefore plays an important role in achieving a good seal of the filling tube 16.

In some embodiments, the first support surface and the second support surface both adopt cambered surfaces. After the design, the sealing device has a certain positive effect on the better sealing of the charging pipe 16, particularly for the situation of providing a circumferential surface for the charging pipe 16 to rotate and tighten, so that although the charging pipe 16 is in a squeezed state due to being folded, and the squeezing is tighter, because the first supporting surface and the second supporting surface both adopt cambered surfaces, the charging pipe 16 can rotate more smoothly in the interval 55, on one hand, the upper end 16.1 of the charging pipe 16 can rotate to form a long strip better and efficiently, on the other hand, the phenomenon that the charging pipe 16 cracks and/or breaks during rotation is not easy to occur, and thus, the requirement on the material of the charging pipe 16 is reduced.

The second clasping component adopts the clasping claw structure for screwing the charging pipe, namely, the clasping claw clasping mechanism comprises at least two clasping claws arranged on the circumferential direction of the charging pipe 16, in this example, the two clasping claws are respectively marked as a first clasping claw 30 and a second clasping claw 31, each clasping claw is arranged on the clasping claw seat 22, after the two clasping claws 30 and 31 are clasped, a gap 55 is formed, in this example, for the sake of simple and compact structure, the first clasping claw 30 and the second clasping claw 31 are both provided with transmission teeth, an output shaft 54 of the first electric motor 27 and the second clasping claw 31 are inserted and matched for transmission, the transmission teeth of the second clasping claw 31 are meshed with the transmission teeth of the first clasping claw 30, the first clasping claw 30 is provided with a first rotating shaft 23 in a matched manner, the first rotating shaft 23 provides a rotating structure for the transmission teeth of the first clasping claw 30, each transmission teeth forms the first transmission, and the first electric motor 27 drives each clasping claw to open/close, and each clasping claw is used for unclamping/closing the charging pipe 16.1.1.1.1. The charging pipe.

As shown in fig. 8, 9 and 10, the first V-shaped portion has a first slot and a second slot, the second V-shaped portion has a first tooth and a second tooth which form a V-shape, and the first V-shaped portion and the second V-shaped portion can be relatively inserted, matched and clasped together means that when clasped together, the first tooth is inserted and matched with the first slot, and the second tooth is inserted and matched with the second slot. After the design like this, simple structure is compact, in addition, is favorable to repeatedly opening and shutting between first V-arrangement portion and the second V-arrangement portion. Of course, other configurations are possible, such as the second V-shaped portion having a first slot and a second slot, the first V-shaped portion having a first tooth and a second tooth forming a V-shape, or the first V-shaped portion having a first slot and a first tooth, the second V-shaped portion having a second slot and a second tooth forming a V-shape, and so on.

In some embodiments, as shown in fig. 8, 9 and 10, a support surface, respectively referred to as a first support surface and a second support surface, is provided between two sides of the V-shaped portions, and after being clasped, the first support surface and the second support surface provide a clasping surface or a circumferential surface for the charging pipe 16 to rotate and tighten.

In some embodiments, as shown in fig. 8, 9 and 10, the first support surface and the second support surface are both cambered surfaces.

The vibration assembly comprises a vibration part 32 and an electromagnetic driving part 33, an output head of the electromagnetic driving part 33 is connected with the vibration part 32, and the output head of the electromagnetic driving part 33 is used for outputting reciprocating vibration, so that the vibration part 32 vibrates in an axial reciprocating manner, the end face of the lower end 16.2 of the charging pipe 16 vibrates, and a tap force is generated in the axial direction of the pipe body of the charging pipe 16, and the charging is facilitated. In order to support and mount the vibration assembly, the lower end of the second body is provided with a lower support 20.

In this case, for the sake of compactness and at the same time better alignment of the vibrating portion 32 with the end surface of the lower end 16.2 of the charging tube 16 after closing the access member 17, the lower end of the access member 17 is arranged to swing backwards towards the inside, i.e. when opening the access member 17, the lower end of the access member 17 is swung backwards, and when closing the access member 17, the lower end of the access member 17 is swung forwards, and for this purpose the mounting seat 19 is provided with an escape opening 49, which allows the mounting seat 19 to pass through forwards and backwards. The aforementioned design has an additional advantage in that the door 24 can be easily fitted to the outer wall of the housing 2, and after fitting, the fit is good and the gap is small. The foregoing discloses a rear swing type mechanism, which achieves two states of the inlet and outlet member 17 by the forward and backward swing of the inlet and outlet member 17, the first state is a charging state, in which the inlet and outlet member 17 is moved into the herbage processing apparatus, and the inlet and outlet member 17 makes the upper end 16.1 inlet of the charging pipe 16 engageable with the discharge port of the herbage processing apparatus, that is, the upper end 16.1 inlet of the charging pipe 16 engageable with the outlet of the sleeve 8, and simultaneously the inlet and outlet member 17 makes the lower end of the charging pipe 16 engageable with the vibrating portion 32, and the vibrating portion 32 can vibrate the charging pipe 16 through the lower end of the charging pipe 16, and the second state is a charging pipe 16 replacing state, as shown in fig. 2, in which the inlet and outlet member 17 is moved out to release the engagement and engagement, and is moved out to a position where the charging pipe 16 can be taken and placed; of course, other configurations are possible, such as where the vibratory portion 32 is movable with the access member 17, such as linked together, and oscillates synchronously, so that the lower end of the loading tube 16 is always in abutment with the vibratory portion 32 when the loading tube 16 is inserted, and the access to the upper end of the loading tube 16 is unchanged, i.e., in the first configuration the access member 17 is moved into the herb processing apparatus and the access member 17 allows the upper end 16.1 of the loading tube 16 to engage the discharge outlet of the herb processing apparatus, and in the second configuration the access member 17 is moved out to disengage the engagement and to a position where the loading tube can be accessed. After the design, the functional requirements of taking and placing the discharging pipe 16, stacking and compacting are skillfully met, and the structure is compact.

For better support of the first electric motor 27, a first bracket 36 is provided between the first electric motor 27 and the second body.

The housing structure of this example will be described in more detail below.

The accommodating structure is sleeved with the shell 2, in the embodiment, after the cup joint, the cup cover 1 is exposed at the top of the shell 2, and the peripheral surface of the cup cover 1 is basically flush with the peripheral surface of the shell 2, so that the columnar shape of the herb processing device is obtained. As shown in figures 1 and 2, adopt the utility model discloses holding structure's herbage processingequipment, its structure is also compacter, and through bowl cover 1, conveniently opens and hold the chamber and charge, when charging, these herbages are very easy just added in the cup, and owing to be that top-down packs into or pours into the herbage into, on the one hand, placing of herbage processingequipment is steady state, and on the other hand accords with gravity characteristics again, so the herbage is difficult to unrestrained outside, to sum up, convenience of customers uses on the whole.

As shown in fig. 13 and 14, the holding structure include cup, bowl cover 1, the upper end of cup is the opening, the cup is equipped with the discharge gate, bowl cover 1 is connected with the cup in order to seal the opening thereby form the processing cavity, be equipped with cutter 9 in the cup, cutter 9 is located bowl cover 1's below, cutter 9 is connected with drive unit through the cup, drive unit is used for driving cutter 9 and moves in the cup. In this example, the electric motor 6 is used as the drive unit, the electric motor 6 is provided on the lower side of the cup body, the cup body is provided with a mounting hole for mounting the electric motor 6, and the output end 13 of the electric motor 6 is inserted into the cup body in the axial direction of the cup body. After designing like this, 6 rotational speeds of electric motor are higher, the moment of torsion is great, are favorable to driving cutter 9 and rotate with the speed of rapider, are favorable to the high-efficient ejection of compact, except that the high-efficient ejection of compact that the rotational speed promoted to bring, combine following side ejection of compact, structural design such as infundibulate, then more be favorable to the high-efficient ejection of compact.

In some embodiments, the circumferential side wall of the processing chamber is provided with a discharge hole at the discharge side, the rest of the circumferential side wall is a continuous wall surface, and the driving unit is used for driving the tool 9 to move in the processing chamber and driving the herbs to throw the herbs toward the circumferential side wall. The design is favorable to improving discharge efficiency like this, particularly: the circumference lateral wall is being located the discharge side and is being equipped with the discharge opening, and the rest is continuous wall, drive unit is used for driving cutter 9 and moves in processing cavity, and with the herb drive get rid of to the circumference lateral wall, consequently not only extrude the ejection of compact to the herb, and centrifugal force has, through the centrifugal force ejection of compact, and the division of discharge opening and continuous wall has been carried out to the circumference lateral wall, so, on the one hand, be favorable to the herb to be extruded in continuous wall face district, the cutting is smashed, thereby reach the mesh that promotes triturating speed and triturating effect, be favorable to the herbal mixture in continuous wall face district to take place to rotate simultaneously (continuous wall face district pairing rotation is almost not obstructed, but has rotatory guide effect), on the other hand granule that the herb is smashed and is in the rotation state of preferred owing to having the guide of continuous wall, treat that the discharge gate then is thrown out under centrifugal force and squeezing action when the herb is more and less, then mainly rely on centrifugal force to throw out. Therefore, the purpose of higher discharging efficiency is achieved by the two aspects of the smashing efficiency and the discharging efficiency of the granules formed by smashing the herbs from the discharging hole.

In some embodiments, the openings in the exit screen 10 serve as the exit openings.

As shown in fig. 14, the cup body comprises a cup holder 4 and an inner cup 5, and the cutter 9 is positioned in the inner cup 5; the cup holder 4 and the inner cup 5 are detachably connected in the up-down direction, in this example, the cup holder 4 is provided with a receiving hole, and the cup holder 4 and the inner cup 5 are detachably connected in a sleeved manner in the up-down direction through the receiving hole. The bottom of the inner cup 5 is provided with a rotating shaft 11, the rotating shaft 11 is connected with the cutter 9, the output end 13 is arranged at the bottom of the accommodating hole, and the output end 13 is detachably connected with the rotating shaft 11 in a transmission way along the vertical direction. After designing like this for interior cup 5 can be with cup 4 upper and lower separation, thereby make interior cup 5 can be by very convenient taking off, and in cup 5 including cutter 9 sets up, be provided with the interior cup 5 of different cutters 9 through the change, just can realize quick replacement cutter 9, thereby satisfy different processing requirements, also make things convenient for later stage cutter 9 wearing and tearing and change and/or maintain it. In addition, the cleaning of the inner cup 5 is greatly facilitated, which is very advantageous for maintaining a good hygienic condition.

In some embodiments, as mentioned above, the cup holder 4 is provided with a receiving hole, the cup holder 4 and the inner cup 5 are axially detachably connected in a sleeved manner through the receiving hole, for better sleeved connection, the outer peripheral wall of the inner cup 5 and the inner peripheral wall of the cup holder 4 are in a sleeved matching shape, i.e. a cylindrical shape shown in fig. 14, 20 and 21, and for certain discharging performance, the inner peripheral wall of the inner cup 5 has an inner peripheral surface arranged in a funnel shape as shown in fig. 14 and 20. After so designing, on the one hand, the periphery wall of interior cup 5 is the shape that cup joints the matching with the internal perisporium of cup 4, it is firm to realize that the axial cup joints the cooperation, be favorable to avoiding interior cup 5 and cup 4 to take place horizontal swing, on the other hand, be the inner peripheral surface that the infundibulate set up, be favorable to the ejection of compact, the transverse dimension of the internal perisporium of interior cup 5 is by big little to little gradually, transverse dimension is less, the degree that the herbage was smashed to pieces is more serious, and, including the tip of the internal perisporium of cup 5 because the discharge opening is closer to the pivot, so be favorable to arranging the material, reduce the remaining of material.

In some embodiments, the exit screen 10 is provided integrally with the inner cup 5. After the design like this, on the one hand, owing to be integrative setting, consequently do not worry about the material card in the junction of material sieve 10 and interior cup 5, that is to say there is not the joint gap, on the other hand is favorable to simplifying the structure, makes things convenient for the dismouting clearance.

In this example, the inner cup 5 is provided with a bearing 12, the rotating shaft 11 is connected with the bearing 12, and the output end 13 is connected with the rotating shaft 11 by spline splicing transmission, so that on one hand, the transmission is stable and reliable, and on the other hand, the up-and-down splicing disassembly and assembly are convenient.

The cup cover 1 is provided with a sealing part which is connected with the opening of the inner cup piece 5 in a sealing way, so that the sealing is direct and the effect is good.

As shown in fig. 16, 17 and 18, the cup lid 1 sequentially includes a middle portion 1.4, an annular portion 1.3 and a peripheral wall 1.2 from inside to outside, the middle portion 1.4 is used as the sealing portion, in this example, the cup lid 1 includes a lid body and a lining member 15, the lid body includes a peripheral wall 1.2 and a top portion 1.1, the lining member 15 includes a middle portion 1.4 and an annular portion 1.3, and the lid body and the lining member 15 are sleeved with each other; between the cover and the lining element 15 one or more magnets 14 are arranged, which magnets 14 can be used for detection by hall sensors, which magnets 14 are distributed along the ring-shaped portion 1.3, which hall sensors are arranged on the side of the cup holder 4. After the design, the structure of the cup cover 1 can be easily manufactured, and meanwhile, the structure is simple and compact on the premise of meeting the functional requirements (such as Hall sensor detection).

The Hall sensor detects whether the cup cover 1 is well covered or not, if not, the electric motor 6 cannot be started, and if so, the electric motor 6 can be started, thereby solving the safety problem. In this example, four magnets 14 are provided, distributed uniformly along the annular portion 1.3.

In this example, an annular groove 1.6 is arranged between the middle part 1.4 and the annular part 1.3, the upper end part of the inner cup piece 5 protrudes upwards from the upper end surface of the cup seat 4, and the upper end part is in concave-convex fit with the annular groove 1.6. After the design, the cup body and the cup cover 1 can be better in connection stability and reliability.

The sealing part is provided with a conical sealing element 1.5, and the conical sealing element 1.5 is in conical sealing connection with the opening. By the design, a very good seal can be formed, and the reliability and the durability are good.

The cup cover 1 is in threaded connection and/or clamped connection and/or magnetic connection with the cup body, and has the advantages of being simple and compact in structure, meeting connection requirements and being suitable for portable design. In this example, a threaded connection is adopted, specifically, an internal thread is arranged on the inner surface of the peripheral wall 1.2, an external thread is arranged on the outer surface of the cup seat 4, and the peripheral wall 1.2 and the outer surface of the cup seat 4 are in threaded connection through the internal thread and the external thread. Regarding the opening mode of the cup cover 1 and the cup body, the cup cover 1 is not limited to be completely separated from the cup body up and down, and the cup cover 1 can also be separated from the cup body in a rotating mode, namely, a hinge part is arranged between the cup cover 1 and the cup body, and the cup cover 1 turns around the hinge part to open the opening of the cup body.

In order to improve the discharging quality and efficiency, a discharging screen 10 is arranged on the side surface of the inner cup piece 5, a discharging port matched with the discharging screen 10 is arranged on the cup seat 4, or the discharging screen 10 is arranged on the side surface of the inner cup piece 5, the discharging screen 10 is connected with a discharging pipe 8, an outlet matched with the discharging pipe 8 is arranged on the cup seat 4, or the discharging screen 10 is arranged on the side surface of the inner cup piece 5, the discharging screen 10 is connected with the discharging pipe 8, and an outlet sheath 7 matched with the discharging pipe 8 is arranged on the cup seat 4; when the outlet pipe 8 is provided, the outlet pipe 8 is removed together with the inner cup 5 when the inner cup 5 is removed, or the outlet pipe 8 is removed separately, or the outlet pipe 8 cannot be removed. In this example, the discharge screen 10 is arranged on the side of the inner cup 5, the discharge screen 10 is connected to a discharge pipe 8, the cup base 4 is provided with an outlet jacket 7 which cooperates with the discharge pipe 8, and the discharge pipe 8 is removed together with the inner cup 5 or the discharge pipe 8 is removed separately when the inner cup 5 is removed. Fig. 22 shows the cup 4 with the outlet tube 8 connected thereto, and fig. 23 shows the cup 4 with the outlet tube 8 removed.

The discharge pipe 8 is more beneficial to sanitation. In addition, the material guiding device has better guiding effect and is not easy to leak to other places or sanitary dead corners. The setting of export sheath 7 more is favorable to packing into and fixing of guide discharging pipe 8, in addition, can have certain circumference limiting displacement for when 9 rotatory cutting herbals of cutter, cup 5 is rotatory in can not making, and of course, it is spacing in order to better circumference, can additionally set up other circumference limit structure in order to restrict in cup 5 rotatory.

Since the discharge screen 10 is arranged on the side of the inner cup 5, that is to say, the discharge screen 10 and the cutter 9 can be arranged together in the inner cup 5, unlike the prior art, they need not be arranged separately. In addition, when discharging from the side, it is also convenient to arrange the electric motor 6.

As shown in fig. 14, 19 and 20, the discharging screen 10 is arranged obliquely, and in order to form the obliquely arranged discharging screen 10, the inner peripheral surface of the inner cup 5 for processing is a conical surface, similar to a funnel shape, so that the grass can be better processed, and in addition, the processed grass can be better output through the discharging screen 10 by utilizing the extrusion force of the rotary cutter 9 instead of simply utilizing gravity, so that the better discharging can be realized.

The product has a plurality of electric motors, and for power supply the housing 2 is provided with a power supply port 29, which power supply port 29 can charge an internal battery and/or supply power to the electric motors.

In this embodiment, the material of the charging tube 16 is paper, but it can be other materials, and all the materials suitable for tightening and sealing are suitable for the present invention.

In understanding the present invention, if necessary, the above structure can be understood by referring to other drawings, and detailed description is omitted here.

The above description is only the embodiment of the present invention for illustration, so all equivalent changes or modifications made by the structure, features and principles in accordance with the present invention are all included in the scope of the present invention.

Claims (11)

1. The utility model provides a structure is screwed up to charging tube, a serial communication port, including the structure and the rotating-structure of holding together that mutually support and use, hold together the structure and be used for holding together the charging tube upper end, hold together the charging tube upper end and divide into two kinds of circumstances, one kind is locking charging tube upper end, another kind is that the charging tube upper end is not by the locking, the charging tube upper end can also be held together the structure relatively and rotate, under the locking circumstances, rotating-structure is used for making to produce relative rotational motion between charging tube upper end and the charging tube, under the non-locking circumstances, rotating-structure is used for making the charging tube rotate, this rotation makes the charging tube upper end rotate by holding together the structure relatively simultaneously.

2. The charging pipe tightening structure according to claim 1, wherein a first holding assembly is provided at the upper end of the charging pipe, the charging pipe is connected with a fixing assembly, the fixing assembly is used for fixing the charging pipe, and the first holding assembly is used for holding the upper end of the charging pipe and driving the upper end of the charging pipe to rotate or rotating around the upper end of the charging pipe under the non-locking condition; or the upper end of the charging pipe is provided with a second holding assembly, other positions of the charging pipe are provided with third holding assemblies, the second holding assembly is used for holding the upper end of the charging pipe, and the third holding assembly is used for clamping the charging pipe and driving a pipe body of the charging pipe to rotate; or, a first holding-together component is arranged at the upper end of the charging pipe, a third holding-together component is arranged at other positions of the charging pipe, the first holding-together component is used for holding the upper end of the charging pipe and forming first rotation, the third holding-together component is used for clamping the charging pipe and driving a pipe body of the charging pipe to rotate in order to form second rotation, the first rotation direction and the second rotation direction are opposite, or the first rotation direction and the second rotation direction are the same but have a speed difference.

3. The charging pipe tightening structure according to claim 2, wherein the fixing member is adapted to fix the lower end of the charging pipe, and the third embracing member is adapted to clamp the lower end of the charging pipe.

4. The charging pipe tightening structure according to claim 2, wherein the second holding assembly employs a holding claw holding mechanism, the holding claw holding mechanism includes a first electric motor, a first transmission, and at least two holding claws arranged in a circumferential direction of the charging pipe, each holding claw is mounted on a holding claw seat, the first electric motor drives each holding claw to open/close via the first transmission, and each holding claw is opened/closed for releasing/clamping the upper end of the charging pipe.

5. The charging tube screwing structure according to claim 2, wherein the first holding assembly adopts a mechanism that the holding claw holds and rotates, or the first holding assembly and the third holding assembly adopt a holding claw clamping and rotating mechanism.

6. The charging pipe screwing structure according to claim 5, wherein the embracing claw clamping rotation mechanism includes a second electric motor, a second transmission, a first rotating member, at least two rotating embracing claws, a second rotating member, a damping member, and a housing portion, the second electric motor rotates the first rotating member through the second transmission, the first rotating member, each rotating embracing claw, and the second rotating member are arranged in the housing portion in order from top to bottom in the axial direction of the charging pipe, the first rotating member, the second rotating member, and the housing portion are provided together with an insertion hole arranged in the axial direction of the charging pipe, each rotating embracing claw is arranged circumferentially around the insertion hole, each rotating embracing claw is provided with an upper shaft and a lower shaft, the first rotating member is provided with a guide portion engaging with the upper shaft, the second rotating member is provided with an engaging portion engaging with the lower shaft, and the second rotating member is connected with the damping member, the second rotating part is used as a base of each rotating holding claw, the first rotating part drives each rotating holding claw to rotate around the lower shaft through the guide matching of the guide part and the upper shaft so as to open/close, each rotating holding claw is used for loosening/clamping the part of the charging pipe inserted into the insertion hole, the second rotating part is used for being driven by the first rotating part through each rotating holding claw to rotate together after each rotating holding claw holds the charging pipe and overcomes the resistance of the damping part, the rotation enables the rotating holding claws to drive the charging pipe to rotate together, when the second electric motor drives the first rotating part to rotate reversely, the second rotating part stops rotating under the action of the damping part, the stop rotation enables the rotating holding claws and the charging pipe to stop rotating together, and then each rotating holding claw is driven by the first rotating part to rotate reversely around the lower shaft so as to loosen the charging pipe.

7. The charging pipe tightening structure according to claim 1, characterized in that the charging pipe is provided at a lower end thereof with a vibrating portion that vibrates in the axial direction of the charging pipe, the vibrating portion being for providing a tapping force.

8. The charging pipe tightening structure according to claim 1, 2, or 7, wherein the charging pipe is fitted with a pipe seat, the pipe seat is provided so as to be movable into and out of the discharge port, and when the pipe seat is moved out of the discharge port, the access port is exposed to access the charging pipe.

9. The charging pipe tightening structure according to claim 7, wherein the first holding assembly and the fixing assembly are integrally mounted on the pipe base, or the second holding assembly and the third holding assembly are integrally mounted on the pipe base, or the first holding assembly and the third holding assembly are integrally mounted on the pipe base.

10. The charging pipe tightening structure according to claim 9, wherein the socket is further integrally provided with a vibration assembly provided with a vibrating portion.

11. A herbaceous processing apparatus employing the charging pipe tightening structure defined in any one of claims 1 to 10, comprising a housing provided with a discharge assembly provided with a discharge port for charging the charging pipe, wherein the housing is provided with the charging pipe tightening structure.

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