CN209633859U - A kind of moxa cone process units - Google Patents

Abstract

The embodiments of the present invention provide a kind of moxa cone process units, it is related to moxa cone production field, the moxa cone process units includes body, transmission shaft, Power Component, die assembly and punch assembly, transmission shaft is rotatablely connected with body, Power Component is connect with body, and Power Component is for driving transmission shaft, die assembly includes mould disks, mould disks are rotatablely connected with body, mould disks are set on transmission shaft and connect with transmission shaft driven, mould disks are provided with the molding hole for storing moxa, punch assembly includes stamping parts, stamping parts connect with body and connect with transmission shaft driven, stamping parts is for squeezing the moxa in molding hole so that moxa forms moxa cone.The moxa cone process units has wide range of applications, and the operation of production moxa cone can be carried out under different scenes, this is reasonable in design, practical.

Description

A kind of moxa cone process units

Technical field

The utility model relates to moxa cone production fields, and in particular to a kind of moxa cone process units.

Background technique

Currently, Chinese mugwort toast is China's Traditional Chinese Medicine therapy, as the improvement of people's living standards, the promotion to health perception, Chinese mugwort toast is liked by more and more people, so that demand sharply increases.In the prior art, moxa cone portable cannot produce, It not being able to satisfy small therapeutical health mechanism or applies at home, and use hand-made moxa cone, then the moxa cone produced is of poor quality, Cost of manufacture is high.

Inventor has found that the prior art at least has the disadvantage in that under study for action

Moxa cone production equipment application range in the prior art is narrow.

Utility model content

The purpose of this utility model is to provide a kind of moxa cone process units, improve the deficiencies in the prior art, and the moxa cone is raw Having wide range of applications for device is produced, the operation of production moxa cone can be carried out under different scenes, this is reasonable in design, practical Property is strong.

The embodiments of the present invention this can be implemented so that

The embodiments of the present invention provide a kind of moxa cone process units comprising:

Body；

Transmission shaft, the transmission shaft are rotatablely connected with the body；

Power Component, the Power Component are connect with the body, and the Power Component is for driving the transmission shaft；

Die assembly, the die assembly include mould disks, and the mould disks are rotatablely connected with the body, described Mould disks are set on the transmission shaft and connect with the transmission shaft driven, and the mould disks are provided with for storing moxa Molding hole；

Punch assembly, the punch assembly include stamping parts, the stamping parts connect with the body and with the transmission Axis transmission connection, the stamping parts is for squeezing the moxa in the molding hole so that the moxa forms moxa cone.

Specifically, the moxa cone process units has wide range of applications, production moxa cone can be carried out under different scenes Operation, this is reasonable in design, practical.

Optionally, the moxa cone process units further includes block piece, and the block piece is rotatablely connected with the body, And it is connect with the transmission shaft driven；

The molding hole is through-hole, and the block piece is used for when the stamping parts squeezes the moxa, is hindered The moxa is detached from the molding hole.

Optionally, the quantity of the molding hole is multiple, and multiple molding holes are uniformly divided along the circumferential of the transmission shaft Cloth.

Optionally, the stamping parts is provided with bellmouth, the big end phase of the bellmouth close to one end of the mould disks For the bellmouth small end close to the mould disks.

Optionally, the moxa cone process units further includes feeding assembly, and the feeding assembly includes inlet and stirring parts；

The inlet is connect with the body；

The stirring parts are rotatablely connected with the body, and connect with the transmission shaft driven, and the stirring parts are used Moxa in the stirring inlet.

Optionally, the feeding assembly further includes inlet valve；

The inlet is provided with output section, and the inlet valve is connect with the body, and connects with the transmission shaft driven It connects, the inlet valve is for making the output section be connected to or disconnect with the molding hole.

Optionally, the feeding assembly further includes feed member, and the feed member is located at the inside of the inlet, described to send Materials and parts are connect with the body, and are connect with the transmission shaft driven, and the feed member is used to moxa being delivered to the output Portion.

Optionally, the moxa cone process units further includes heating component, and the heating component includes storage bin and heating member；

The storage bin is connect with the body, and the storage bin is stamping forming described by the stamping parts for accepting Moxa cone；

The heating member is connect with the storage bin, and the heating member is used for the Chinese mugwort being located in the storage bin Wick heating.

Optionally, the moxa cone process units further includes sliding rail, and the sliding rail is used for the moxa cone from the molding hole It is delivered in the storage bin.

Optionally, the die assembly further includes the supporting element for being used to support the mould disks, the supporting element with it is described Body connects, and is provided with slideway on the supporting element, the mould disks are slidably connected by the slideway and the supporting element.

Compared with prior art, the beneficial effect of the utility model embodiment includes, for example:

The utility model provides a kind of moxa cone process units, which has wide range of applications, can be not The operation of production moxa cone is carried out under same scene.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is structural schematic diagram of the moxa cone process units provided by the embodiment of the utility model under the first visual angle；

Fig. 2 is structural schematic diagram of the moxa cone process units provided by the embodiment of the utility model under the second visual angle；

Fig. 3 is structural schematic diagram of the moxa cone process units provided by the embodiment of the utility model under third visual angle；

Fig. 4 is the structural schematic diagram of stamping parts provided by the embodiment of the utility model；

Fig. 5 is the structural schematic diagram of stirring parts provided by the embodiment of the utility model；

Fig. 6 is the structural schematic diagram of feed member provided by the embodiment of the utility model.

Icon: 100- moxa cone process units；11- die assembly；111- mould disks；1111- molding hole；112- supporting element； 12- punch assembly；121- stamping parts；1211- bellmouth；122- first connecting rod；13- driving assembly；131- driving motor； 132- electron speed regulator；14- transmission shaft；15- body；151- support column；152- pedestal；16- feeding assembly；161- inlet； 162- stirring parts；1621- third connecting rod；1622- protrusion；163- feed member；The 4th connecting rod of 1631-；1632- ontology； 1634- baffle；1635- delivery section；164- inlet valve；17- heating component；171- storage bin；172- rotating disc；173- heating Part；18- block piece；The second connecting rod of 19-；20- shaft；21- sliding rail；22- first gear；23- second gear.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the present invention, it should be noted that term " on ", "lower", "left", "right", "inner", "outside" etc. The orientation or positional relationship of instruction be based on the orientation or positional relationship shown in the drawings or the utility model product use when The orientation or positional relationship usually put, is merely for convenience of describing the present invention and simplifying the description, rather than instruction or dark Show that signified device or element must have a particular orientation, be constructed and operated in a specific orientation, therefore should not be understood as pair The limitation of the utility model.

In addition, term " first ", " second ", " third " etc. are only used for distinguishing description, it is not understood to indicate or imply Relative importance.

In the description of the present invention, it should also be noted that, unless otherwise clearly defined and limited, term " is set Set ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or be integrally connected；It can To be mechanical connection, it is also possible to be electrically connected；It can be directly connected, can also can be indirectly connected through an intermediary Connection inside two elements.For the ordinary skill in the art, above-mentioned term can be understood at this with concrete condition Concrete meaning in utility model.

Fig. 1-Fig. 3 is please referred to, a kind of moxa cone process units 100 is present embodiments provided comprising:

Body 15；

Transmission shaft 14, transmission shaft 14 are rotatablely connected with body 15；

Power Component, Power Component are connect with body 15, and Power Component is for driving transmission shaft 14；

Die assembly 11, die assembly 11 include mould disks 111, and mould disks 111 are rotatablely connected with body 15, mold Disk 111 is set on transmission shaft 14 and is sequentially connected with transmission shaft 14, and mould disks 111 are provided with the molding hole for storing moxa 1111；

Punch assembly 12, punch assembly 12 include stamping parts 121, stamping parts 121 connect with body 15 and with transmission shaft 14 Transmission connection, stamping parts 121 is for squeezing the moxa in molding hole 1111 so that moxa forms moxa cone.

It should be noted that please referring to Fig. 1-Fig. 3, in the present embodiment, body 15 includes support column 151 and pedestal 152, Specifically, support column 151 is connect with pedestal 152, and support column 151 and pedestal 152 are hollow structure, the moxa cone process units 100 under the placement status of Fig. 3 when, support column 151 is located at the top of pedestal 152, and pedestal 152 is cylindrical structure, support column The plane perpendicular of the pedestal 152 of 151 extending direction and cylindrical body.

It should be noted that in the present embodiment, please referring to Fig. 1-Fig. 3, transmission shaft 14 is used for across support column 151, branch Dagger 151 is set in the outside of transmission shaft 14, and the axis direction of transmission shaft 14 is overlapped with the extending direction of support column 151, passes One end of moving axis 14 is for protruding into inside pedestal 152.

It should be noted that referring to figure 3., in the present embodiment, Power Component includes driving motor 131 and electronic speed regulation Device 132, specifically, driving motor 131 and electron speed regulator 132 are respectively positioned on inside pedestal 152, the output shaft of driving motor 131 It is connect with one end of transmission shaft 14, driving motor 131 is for driving transmission shaft 14 around the axis of transmission shaft 14 relative to pedestal 152 Rotation, it is notable that in the present embodiment, electron speed regulator 132 is electrically connected with driving motor 131, electron speed regulator 132 The revolving speed of driving motor 131 can be controlled, to control the revolving speed of transmission shaft 14.

It should be noted that in the present embodiment, output shaft and the transmission shaft 14 of driving motor 131 are directly connected to, at it In its embodiment, the output shaft of driving motor 131 can be sequentially connected by gear and transmission shaft 14.

It should be noted that please referring to Fig. 1-Fig. 3, in the present embodiment, die assembly 11 includes mould disks 111 and is used for The supporting element 112 of support mode disk 111, supporting element 112 are connect with body 15, and slideway, mould disks are provided on supporting element 112 111 are slidably connected by slideway with supporting element 112.

Specifically, in the present embodiment, supporting element 112 is cylindrical structure, supporting element 112 is set on support column 151, is propped up Support member 112 and support column 151 are relatively fixed, and supporting element 112 is provided with slideway close to the side of mould disks 111, and 111 sets of mould disks It is located on support column 151, and mould disks 111 are slidably connected by slideway with supporting element 112.

It should be noted that mould disks 111 and transmission shaft 14 are sequentially connected, and in the present embodiment, mould disks 111 and transmission Axis 14 is connected by gear drive, specifically, mould disks 111 are cyclic structure, the inner wall of mould disks 111 is provided with gear, should Moxa cone process units 100 further includes first gear 22 and second gear 23, in the present embodiment, first gear 22 and transmission shaft 14 It is integrally formed, forms gear shaft, in other embodiments, first gear 22 can also be cooperated with transmission shaft 14 by key.

Second gear 23 is engaged with first gear 22, and the first opening, second gear 23 are provided on the side wall of support column 151 It is engaged by the first opening with the gear of the inner wall of mould disks 111, and second gear 23 is rotatably connected with support column 151, it can With understanding, when transmission shaft 14 starts turning, mould disks 111 can be rotated relative to support column 151, at the same time, mould Have disk 111 to slide relative to supporting element 112.

It should be noted that please referring to Fig. 1-Fig. 3, in the present embodiment, mould disks 111 are provided with for storing moxa Molding hole 1111, specifically, the quantity of molding hole 1111 be it is multiple, multiple molding holes 1111 along transmission shaft 14 it is circumferential uniformly point Cloth.

It is understood that multiple molding holes 1111 can store moxa, since mould disks 111 are relative to support column Moxa can be delivered to position corresponding to punch assembly 12 by 151 rotations, mould disks 111, and punch assembly 12 carries out moxa It squeezes, the moxa in molding hole 1111 is made to form moxa cone.It should be noted that moxa cone described in present specification refers to circular cone The small group of the moxa of shape.

Specifically, please referring to Fig. 1-Fig. 4, punch assembly 12 includes first connecting rod 122 and stamping parts 121, the first connection Bar 122 is connect with support column 151, and stamping parts 121 is connect with first connecting rod 122, and in the present embodiment, stamping parts 121 with Transmission shaft 14 is connected by gear drive, when under the moxa cone process units 100 placement status shown in Fig. 3, stamping parts 121 In the top of mould disks 111, stamping parts 121 can extend into or out the molding in mould disks 111 with the rotation of transmission shaft 14 In hole 1111, when stamping parts 121 protrudes into molding hole 1111, the moxa of molding hole 1111 can be squeezed, so that at Moxa in type hole 1111 forms moxa cone.

It should be noted that by the translation for being converted into stamping parts 121 of transmission shaft 14, it can be using turbine and worm Structure, and can be using the structure for cooperating transmission shaft 14 and stamping parts 121 by bevel gear.

Specifically, referring to figure 4., in the present embodiment, stamping parts 121 is provided with taper close to one end of mould disks 111 Hole 1211, the big end of bellmouth 1211 relative to bellmouth 1211 small end close to mould disks 111.

It should be noted that the bellmouth 1211 is blind hole, when stamping parts 121 squeezes the moxa in molding hole 1111 When pressing operation, the moxa in bellmouth 1211 forms moxa cone.

It should be noted that in other embodiments, cone tank can also be arranged in molding hole 1111, by stamping parts 121 are set as plane for squeezing the face of moxa, and moxa can be extruded in cone tank by stamping parts 121, and moxa is made to form Chinese mugwort Wick.

It should be noted that in other embodiments, staff can according to need the specification replacement of the moxa cone of production The stamping parts 121 of different size, the mould disks 111 that simultaneous selection is adapted to 121 specification of stamping parts enable stamping parts 121 Just into mould disks 111 molding hole 1111 in.

Fig. 1-Fig. 3 is please referred to, in the present embodiment, moxa cone process units 100 further includes block piece 18, and block piece 18 can turn Dynamic is connected to body 15, and is sequentially connected with transmission shaft 14；

Molding hole 1111 is through-hole, and block piece 18 is used for when stamping parts 121 squeezes moxa, and moxa is hindered to be detached from Molding hole 1111.

Specifically, please referring to Fig. 1-Fig. 3, in the present embodiment, moxa cone process units 100 further includes 19 He of the second connecting rod Shaft 20, the second connecting rod 19 is connect with support column 151 and relatively fixed, shaft 20 and the rotation connection of the second connecting rod 19, and Shaft 20 is connect with transmission shaft 14 by gear drive, and block piece 18 is rotatably connected by shaft 20 with the second connecting rod 19.

Specifically, in the present embodiment, shaft 20 is connect with transmission shaft 14 by gear drive, block piece 18 and shaft 20 It connects and relatively fixed, shaft 20 can be rotated with the rotation of transmission shaft 14, it is to be understood that rotated when shaft 20 In the process, block piece 18 is capable of the opening for opening or closing 1111 lower end of molding hole of interval.

It should be noted that block piece 18 is located at mould disks under the placement status shown in Fig. 3 of moxa cone process units 100 111 lower section, block piece 18 can open or about 1111 lower end of molding hole opening, it is to be understood that when stamping parts 121 When to the carry out squeeze job of the moxa in molding hole 1111, block piece 18 can close opening for 1111 lower end of molding hole at this time Mouthful, hinder moxa to be detached from from molding hole 1111 in the process of extruding.When stamping parts 121 is completed to the moxa in molding hole 1111 Squeeze job after, block piece 18 opens the opening of 1111 lower end of molding hole at this time, and the moxa cone of extrusion forming is from molding hole 1111 Middle disengaging makes moxa cone enter next step manufacturing procedure.

It should be noted that in the present embodiment, the moxa when molding hole 1111 is through-hole, in molding hole 1111 It will be attached on the inner wall of molding hole 1111, under no squeezing action, moxa will not be detached from out of molding hole 1111, In In other embodiments, molding hole 1111 can also be blind hole, i.e. the lower ending opening of molding hole 1111 is closed state, work as stamping parts After 121 pairs of moxas complete squeeze jobs, staff can manually take out the moxa cone of taper out of molding hole 1111, can also be with Moxa cone is taken out out of molding hole 1111 using its equipment.

It should be noted that in other embodiments, shaft 20 can not also be sequentially connected with transmission shaft 14, it in addition can be Add the rotation of motor direct-drive shaft 20.

Fig. 1-Fig. 3 is please referred to, in the present embodiment, moxa cone process units 100 further includes heating component 17, heating component 17 Including storage bin 171 and heating member 173；

Storage bin 171 is connect with body 15, and storage bin 171 is for accepting by the stamping forming moxa cone of stamping parts 121；

Heating member 173 is connect with storage bin 171, and heating member 173 is used to heat the moxa cone being located in storage bin 171.

For moxa cone process units 100 under placement status as shown in Figure 3, storage bin 171 is located at the lower section of mould disks 111, When block piece 18 opens the opening of 1111 lower end of molding hole, the moxa cone of circular cone since gravity will be fallen in storage box, Heating member 173 will carry out heating operation to the moxa cone of storage bin 171, improve the quality of moxa cone after molding.

It should be noted that when the inside of moxa cone and molding hole 1111 mutually bonds, it cannot be direct by gravity When falling in storage bin 171, stamping parts 121 can be enable to be squeezed moxa cone after molding again so that moxa cone takes off From molding hole 1111.

It should be noted that in the present embodiment, heating member 173 uses Resistant heating, heating member 173 is located at storage bin 171 inside, and it is located at the top of storage bin 171.

It should be noted that referring to figure 3., heating component 17 further includes rotating disc 172, rotating disc 172 is located at storage bin In 171, rotating disc 172 is connect with support column 151, and rotating disc 172 and transmission shaft 14 are sequentially connected, rotating disc 172 be used for Moxa cone is delivered to the heating region of heating member 173 by the rotation of transmission shaft 14.

Specifically, in the present embodiment, rotating disc 172 is similar with mould disks 111, rotating disc 172 is also ring structure, is turned Gear is also equipped on the inner wall of Moving plate 172, rotating disc 172 is sequentially connected by gear and transmission shaft 14, in the present embodiment, Rotating disc 172 is similar with the drive mechanism of transmission shaft 14 with the drive mechanism of transmission shaft 14 with mould disks 111, just no longer superfluous here It states.

In the present embodiment, for moxa cone process units 100 under placement status as shown in Figure 3, heating member 173 is located at storage The left area of case 171, moxa cone fall to the right area of storage bin 171,172 energy of rotating disc after the disengaging of molding hole 1111 Enough heating regions that moxa cone is delivered to heating member 173, then carry out heating operation to moxa cone.

Fig. 1-Fig. 3 is please referred to, in the present embodiment, moxa cone process units 100 further includes sliding rail 21, and sliding rail 21 will be for that will end Wick is delivered in storage bin 171 from molding hole 1111.

It should be noted that please referring to Fig. 1, and Fig. 3 is combined, through-hole is provided in the second connecting rod 19, from molding hole 1111 moxa cones being detached from can enter sliding rail 21 by the through-hole in the second connecting rod 19, then enter by sliding rail 21 In storage bin 171, sliding rail 21 can slow down the speed that falls of moxa cone, reduce the probability that moxa cone damages by collision.

Fig. 1-Fig. 3 is please referred to, and combines Fig. 5, in the present embodiment, moxa cone process units 100 further includes feeding assembly 16, Feeding assembly 16 includes inlet 161 and stirring parts 162；

Inlet 161 is connect with body 15；

Stirring parts 162 are rotatablely connected with body 15, and are sequentially connected with transmission shaft 14, and stirring parts 162 are for stirring Moxa in inlet 161.

In the present embodiment, feeding assembly 16 and punch assembly 12 are arranged about the axisymmetrical of transmission shaft 14, and moxa cone is raw Device 100 is produced under placement status as shown in Figure 3, feeding assembly 16 and punch assembly 12 are respectively positioned on the top of mould disks 111.

Specifically, in the present embodiment, inlet 161 is funnel-form, inlet 161 is connect with support column 151, stirring parts 162 are sequentially connected by gear and transmission shaft 14, and stirring parts 162 can be rotated with the rotation of transmission shaft 14, to inlet Moxa inside 161 is stirred, and stirs evenly moxa.

Specifically, referring to figure 5., stirring parts 162 include third connecting rod 1621 and multiple raised 1622, in the present embodiment In, third connecting rod 1621 be it is cylindric, multiple raised 1622 connect with one end of third connecting rod 1621, and multiple protrusions 1622 are uniformly distributed around the axis of third connecting rod 1621, and multiple raised 1622 with the moxa in inlet 161 for contacting.

Fig. 1-Fig. 3 is please referred to, in the present embodiment, feeding assembly 16 further includes inlet valve 164；

Inlet 161 is provided with output section, and inlet valve 164 is connect with body 15, and is sequentially connected with transmission shaft 14, charging Valve 164 is for making output section be connected to or disconnect with molding hole 1111.

It should be noted that inlet valve 164 is sequentially connected by gear and transmission shaft 14, inlet valve 164 can be with biography The rotation interval of moving axis 14 makes the output section of inlet 161 be connected to or disconnect with molding hole 1111.It is understood that in phase In the same time, the total amount for being transported to the moxa in molding hole 1111 from the output section of inlet 161 is identical, 164 energy of inlet valve Enough realize quantitatively launches moxa into molding hole 1111.

It should be noted that in other embodiments, inlet valve 164 can also be driven by separate electrical motor, make inlet valve 164 The opening of interval or the output section for closing inlet 161.

Fig. 1-Fig. 3 is please referred to, and combines Fig. 6, in the present embodiment, feeding assembly 16 further includes feed member 163, feed member 163 are located at the inside of inlet 161, and feed member 163 is connect with body 15, and are sequentially connected with transmission shaft 14, and feed member 163 is used In moxa is delivered to output section.

Specifically, please referring to Fig. 6, feed member 163 includes the 4th connecting rod 1631, ontology 1632 and multiple baffles 1634, One end of 4th connecting rod 1631 is connect with the support column 151 of body 15, the 4th one end of connecting rod 1631 far from support column 151 It is connect with ontology 1632, ontology 1632 is rotatably connected with the 4th connecting rod 1631, and ontology 1632 passes through gear and transmission shaft 14 Transmission connection, ontology 1632 are cylindrical structure, and ontology 1632 can be as the rotation of transmission shaft 14 be relative to the 4th connecting rod 1631 rotations.

Multiple baffles 1634 are connect with ontology 1632, and multiple baffles 1634 are uniformly distributed along the circumferential direction of ontology 1632, phase The adjacent plate face of two baffles 1634 and the outer wall of ontology 1632 is enclosed the delivery section 1635 for conveying moxa.

It is understood that ontology 1632 is in the rotation process of opposite 4th connecting rod 1631, multiple delivery sections 1635 The moxa inside inlet 161 can be successively conveyed, and the moxa inside inlet 161 is delivered to the defeated of inlet 161 Portion out, when inlet valve 164 opens the output section of inlet 161, moxa is transported in molding hole 1111.

To sum up, the working principle of the moxa cone process units 100 are as follows: staff puts into moxa in inlet 161, opens Dynamic driving motor 131, transmission shaft 14 rotate, and stirring parts 162 are stirred the moxa inside inlet 161, and feed member 163 will Moxa after stirred is delivered to the output section of inlet 161, when inlet valve 164 opens output section, inlet 161 Output section is connected to the molding hole 1111 on mould disks 111, and moxa is transported in molding hole 1111 at this time, and moxa is attached into Position and stamping parts 121 on the inner wall of type hole 1111, with the rotation of mould disks 111, when the molding hole 1111 of storage moxa Position to it is corresponding when at this time block piece 18 close the opening of 1111 lower section of molding hole, stamping parts 121 is to the Chinese mugwort in molding hole 1111 Suede is squeezed, and moxa forms the moxa cone of taper, and then, block piece 18 opens the opening of 1111 lower section of molding hole, stamping parts 121 Coniform moxa cone is squeezed again, so that moxa cone is detached from molding hole 1111, the moxa cone for being detached from molding hole 1111 is entered Sliding rail 21 is snapped down on the rotating disc 172 in storage bin 171, with the rotation of rotating disc 172, moxa cone then along sliding rail 21 It is rotated disk 172 and is delivered to the corresponding heating region of heating member 173, heating member 173 heats moxa, then will heat At moxa cone take out.

It should be noted that the moxa cone process units 100 can be set as minimizing, carried convenient for staff, the Chinese mugwort Wick process units 100 has wide range of applications, and the operation of production moxa cone can be carried out under different scenes, and structure design is closed Reason, it is practical.In addition, relative to hand-made moxa cone, the quality of the moxa cone produced by the moxa cone process units 100 is more It is good, and the more efficient of moxa cone is produced, material cost needed for capable of also saving production moxa cone.

It should be noted that in the absence of conflict, the feature in the embodiments of the present invention can be tied mutually It closes.

More than, only specific embodiment of the present utility model, but protection scope of the utility model is not limited thereto, Anyone skilled in the art within the technical scope disclosed by the utility model, the variation that can readily occur in or replaces It changes, should be covered within the scope of the utility model.Therefore, the protection scope of the utility model should be with claim Subject to protection scope.

Claims (10)

1. a kind of moxa cone process units characterized by comprising

Body；

Transmission shaft, the transmission shaft are rotatablely connected with the body；

Power Component, the Power Component are connect with the body, and the Power Component is for driving the transmission shaft；

Die assembly, the die assembly include mould disks, and the mould disks are rotatablely connected with the body, the mold Disk is set on the transmission shaft and connect with the transmission shaft driven, and the mould disks are provided with the molding for storing moxa Hole；

Punch assembly, the punch assembly include stamping parts, and the stamping parts connect with the body and passes with the transmission shaft Dynamic connection, the stamping parts is for squeezing the moxa in the molding hole so that the moxa forms moxa cone.

2. moxa cone process units according to claim 1, which is characterized in that the moxa cone process units further includes blocking Part, the block piece is rotatablely connected with the body, and connect with the transmission shaft driven；

The molding hole is through-hole, and the block piece is used for when the stamping parts squeezes the moxa, described in obstruction Moxa is detached from the molding hole.

3. moxa cone process units according to claim 1, which is characterized in that the quantity of the molding hole be it is multiple, it is multiple The molding hole is uniformly distributed along the circumferential direction of the transmission shaft.

4. moxa cone process units according to claim 1, which is characterized in that the stamping parts close to the mould disks one End is provided with bellmouth, the big end of the bellmouth relative to the bellmouth small end close to the mould disks.

5. moxa cone process units according to claim 1, which is characterized in that the moxa cone process units further includes charging group Part, the feeding assembly include inlet and stirring parts；

The inlet is connect with the body；

The stirring parts are rotatablely connected with the body, and connect with the transmission shaft driven, and the stirring parts are for stirring Mix the moxa in the inlet.

6. moxa cone process units according to claim 5, which is characterized in that the feeding assembly further includes inlet valve；

The inlet is provided with output section, and the inlet valve is connect with the body, and is connect with the transmission shaft driven, institute Inlet valve is stated for making the output section be connected to or disconnect with the molding hole.

7. moxa cone process units according to claim 6, which is characterized in that the feeding assembly further includes feed member, institute The inside that feed member is located at the inlet is stated, the feed member is connect with the body, and is connect with the transmission shaft driven, The feed member is used to moxa being delivered to the output section.

8. moxa cone process units according to claim 1, which is characterized in that the moxa cone process units further includes heating group Part, the heating component include storage bin and heating member；

The storage bin is connect with the body, and the storage bin is for accepting by the stamping forming Chinese mugwort of the stamping parts Wick；

The heating member is connect with the storage bin, and the heating member is used to add the moxa cone being located in the storage bin Heat.

9. moxa cone process units according to claim 8, which is characterized in that the moxa cone process units further includes sliding rail, The sliding rail is for the moxa cone to be delivered in the storage bin from the molding hole.

10. -9 described in any item moxa cone process units according to claim 1, which is characterized in that the die assembly further includes It is used to support the supporting element of the mould disks, the supporting element is connect with the body, and slideway, institute are provided on the supporting element Mould disks are stated to be slidably connected by the slideway and the supporting element.