CN112998962A

CN112998962A - Rotary compression tampon device

Info

Publication number: CN112998962A
Application number: CN201911319517.6A
Authority: CN
Inventors: 吴静茹
Original assignee: Individual
Current assignee: Individual
Priority date: 2019-12-19
Filing date: 2019-12-19
Publication date: 2021-06-22

Abstract

A rotary compression tampon assembly, comprising: the die holder is internally provided with a guiding channel and a stamping channel, a first end of the guiding channel is provided with an introducing port, a second end of the guiding channel is communicated with the stamping channel, two ends of the stamping channel are respectively provided with a penetrating port and a guiding port, and a wire casing extends from the introducing port to the guiding port; the stamping module is provided with a stamping head which penetrates through the penetrating port of the stamping channel, and the stamping head is rotatably and displaceably arranged in the stamping channel; and a closing member having a closing plate for removably closing the outlet port of the ram channel.

Description

Rotary compression tampon device

Technical Field

The invention relates to a device for manufacturing a female sanitary product, in particular to a rotary compression tampon device used in a tampon manufacturing process.

Background

According to a conventional conduit type cotton sliver generally comprises an auxiliary device and a cotton sliver, the auxiliary device can be provided with a conduit and a push tube, the conduit can be inserted into a female vagina, the front end of the conduit is hemispherical and is provided with a plurality of petals which can be outwards expanded and deformed, an absorber of the cotton sliver is positioned in the conduit, the push tube can be pushed against the rear end of the absorber, so that the absorber can expand the petals and can be placed in a proper position in the female vagina, then the conduit is drawn out, a pull rope of the cotton sliver is left outside the body, and the conduit and the push tube are discarded. Another simpler type of tube tampon is to use the user's finger instead of the aforementioned pushing tube, and to insert the finger into the tube, pushing the absorbent body of the tampon forward from the rear end of the tube.

In the prior method for manufacturing the conduit type tampon, the auxiliary device and the tampon are manufactured in different production lines and then are assembled in pairs one by one. That is, in the process of the cotton sliver, the thread rope is firstly sewn on fluffy absorbent cotton with a preset size, the fluffy absorbent cotton is cut into a pull rope after a preset length is reserved, and then the absorbent cotton is compressed and molded into an absorber by a pressing knife with a complex structure, so that the cotton sliver with the absorber connected with the pull rope is prepared. On the other hand, the conduit and the push tube are made of plastics or decomposable materials, the conduit and the push tube are only provided with two openings at the front end and the rear end, and the circumferential surfaces of the conduit and the push tube are in a complete and seamless sealing state, so that a plurality of petals at the opening at the front end of the conduit are required to be propped open by a machine with a complex structure during tubing loading, and the push tube and the cotton sliver can be inserted from the front end of the conduit in sequence to complete the assembly action of the conduit type cotton sliver. Embodiments similar to the above-mentioned manufacturing method are disclosed in taiwan patent publication No. 201110947 and chinese publication No. 103491918.

However, in the above method for manufacturing the tube type tampon, the tampon is manufactured by cutting, sewing and breaking the tampon one by one, so when the number of the manufactured tampons is large, the tampons are easy to be knotted because the pulling ropes are mutually wound, and need to be combed before being loaded into the tube, so that the production efficiency is difficult to be improved. In addition, due to the structural configuration of the guide tube and the push tube, the equipment and the operation time required for loading the cotton sliver and the push tube into the guide tube are difficult to simplify, so that the production cost is extremely high, and generally, small and medium-sized enterprises are difficult to put into manufacturing lines and rows, which causes the problem that large enterprises ridge the market.

In order to solve the above problems, the applicant of the present application has disclosed an auxiliary device for use with a tampon in PCT application No. CN2019/101829 and chinese application No. 201911255053.7, etc., wherein the circumferential surface of the auxiliary device is in a partially movable and overlapped form so as to laterally load the tampon; in addition, a manufacturing method of the conduit-type tampon is also developed, which can connect a plurality of absorbers in series by a thread rope in the manufacturing process, use the above-mentioned auxiliary device with local movable and overlapped circumference to complete the tube loading operation from the side continuously and rapidly, and then cut off the thread rope to obtain the independent conduit-type tampon. Accordingly, the present disclosure is directed to a rotary compression tampon assembly for use in the method of making a barrel tampon.

Disclosure of Invention

The invention aims to provide a rotary compression tampon device, which can be used for leading in a plurality of tampon prefabricates connected in series by a string and sequentially compressing the tampon prefabricates from the length direction so as to form a plurality of absorbers connected in series by a string.

It is a further object of the present invention to provide a rotary compression tampon assembly that compresses a tampon preform into a regular shaped absorbent body in a spiral configuration.

It is yet another object of the present invention to provide a rotary compression tampon assembly that can extend the useful life of the punch module.

It is a further object of the present invention to provide a rotary compression tampon assembly that reduces manufacturing costs and increases ease of assembly.

The terms "front" and "rear" as used throughout the present invention refer to the position that contacts the female vagina first and the reverse direction is "front" and "rear", respectively, in terms of the direction of use when the tampon is inserted into the female vagina; throughout the present invention, the head and the tail are defined according to the conveying direction of the production line, and the conveying direction is from the tail end to the head end. The remaining directions or similar terms, such as "left", "right", "top", "bottom", "inner", "outer", "side", etc., are mainly referred to the directions of the attached drawings, and are only used for assisting the explanation and understanding of the embodiments of the present invention, but not for limiting the present invention.

The use of the terms "a" or "an" for the elements and components described throughout this disclosure is for convenience only and provides a general sense of the scope of the invention; in the present invention, it is to be understood that the singular includes plural unless it is obvious that it is meant otherwise.

The terms "combined," "combined," or "assembled" as used herein mainly include the forms of the components that can be separated without destroying the components after being connected, or the components that can not be separated after being connected, and they can be selected by those skilled in the art according to the materials or assembly requirements of the components to be connected.

The present invention is a rotary compression tampon assembly comprising: the die holder is internally provided with a guiding channel and a stamping channel, a first end of the guiding channel is provided with an introducing port, a second end of the guiding channel is communicated with the stamping channel, two ends of the stamping channel are respectively provided with a penetrating port and a guiding port, and a wire casing extends from the introducing port to the guiding port; the stamping module is provided with a stamping head which penetrates through the penetrating port of the stamping channel, and the stamping head is rotatably and displaceably arranged in the stamping channel; and a closing member having a closing plate for removably closing the outlet port of the ram channel.

Accordingly, the rotary compression tampon device of the present invention can introduce a plurality of tampon preforms connected in series by a thread rope, and sequentially compress the plurality of tampon preforms from the length direction to form a plurality of absorbers connected in series by a thread rope; furthermore, the absorber which is just compressed and formed is pushed from the rear end, and the previous absorber which is compressed and formed is pushed from the rear end, so that the compact state of each absorber can be maintained in the guiding and conveying process, the absorbers cannot be pulled and loosened, subsequent processes such as tube loading, wire cutting, packaging and the like can be conveniently carried out, and the efficiency, the quality and the like of the absorber formed by compression are improved. In addition, the invention can regularly compress the cotton strip prefabricated product into the compact spiral absorber, so that the absorber can uniformly expand after absorbing menstrual blood when being used subsequently, thereby being convenient for rapidly absorbing menstrual blood, preventing leakage and improving use comfort.

Wherein, this punching press module can have a power supply and a barred body, and this power supply can drive this barred body rotation and flexible, and this punching press head can be located the free end of this barred body. Therefore, the cotton sliver prefabricated product can be compressed by a simple structure, and the cotton sliver prefabricated product has the effects of reducing the manufacturing cost, improving the assembly convenience and the like.

The punching module can be provided with a shaft sleeve, the shaft sleeve can be combined with the inner wall surface of the punching channel and is close to the penetrating port, the rod body can penetrate through the shaft sleeve, the circumferential surface of the rod body can contact the shaft sleeve, and the punching head can be positioned between the shaft sleeve and the outlet. Therefore, the shaft sleeve can reduce the probability of foreign matters such as dust entering the stamping channel from the penetration port, can provide an auxiliary supporting effect when the rod body extends, reduces the probability of damage to the rod body caused by stamping operation, and has the effects of preventing dust, prolonging the service life of the stamping module and the like.

Wherein, the end surface of the punching head can be provided with a plurality of claws. Therefore, the plurality of claws can firmly grip the cotton sliver prefabricated product to rotate and compress, and the forming quality and efficiency of the absorber are improved.

The stamping module can be provided with a sliding assembly, the sliding assembly can be connected with the die holder and the power source, and a pushing piece can be connected with the power source and can push the power source to move relative to the die holder along the axial direction of the rod body. Therefore, the simple structure can push the absorber out of the stamping module from the rear after the cotton sliver prefabricated product is compressed into the absorber, and the simple structure has the effects of reducing the manufacturing cost, improving the assembly convenience and the like.

Wherein, the penetration opening and the outlet opening can be opposite in a straight line. Therefore, the stamping channel can be easily formed, the stamping module can be simplified and easily installed, and the stamping module has the effects of reducing the manufacturing cost, improving the assembly convenience and the like.

The stamping channel can linearly penetrate through the die holder along the head end and the tail end of the die holder, the guide outlet can be located at the head end of the die holder, and the guide conveying channel can obliquely extend downwards from the upper part of the die holder to be communicated with the stamping channel. Therefore, the cotton sliver prefabricate can be smoothly guided and compressed, the configuration relation of all components is simplified, and the cotton sliver prefabricate has the effects of improving the assembly efficiency, the operation smoothness and the like.

Wherein, the tail end of this die holder can indent and form an installation space, and this penetrating port can communicate this installation space, and this subassembly and this power supply that slides can be located this installation space. Therefore, the telescopic stroke of the rod body can be shortened, the rod body is not easy to break, and the stamping die has the effects of prolonging the service life of the stamping die and the like.

The head end of the die holder can form a groove, the outlet can be communicated with the groove, the bottom end of the sealing plate can be pivoted to the die holder through a penetrating rod, and the sealing plate can be oppositely contained in the groove and seal the outlet or can be pivoted away from the groove to expose the outlet. Therefore, the groove can improve the stability of the sealing plate for sealing the outlet, improve the efficiency of opening and resetting the sealing plate, and improve the stability and efficiency of the manufacturing process.

The closing component can be provided with a push cylinder, the push cylinder is provided with a driving end connected with the closing plate, and the push cylinder can control the pivoting state of the closing plate in a telescopic mode. Therefore, the pivoting state of the sealing plate can be accurately controlled by a simple structure, and the efficiency and the stability of the manufacturing process are improved.

Wherein, this shrouding can have a shaping groove towards the surface of this export of leading, and when this export was led in this shrouding closed, this shaping groove can be counterpointed with this export of leading. Therefore, the forming effect of the front end of the absorber is improved.

Wherein, the slot can be recessed in the top wall of the guiding channel and the punching channel. Therefore, the improper pulling of the cotton strip in the process of compressing the cotton strip prefabricated product can be effectively avoided, and the effects of improving the smoothness of the manufacturing process, reducing the error rate and the like are achieved.

The die holder can be provided with a first body and a second body, the first body and the second body can be assembled in an involutory mode and jointly clamp a stamping pipe, and the stamping pipe can be located in the stamping channel and can be located at the front end of the guiding and conveying channel. Therefore, the guide channel and the stamping channel can be conveniently formed, other components can be conveniently assembled and positioned, and the effects of improving the convenience of manufacturing and assembling and the like are achieved.

The seal plate can be provided with a wire groove, and when the seal plate seals the guide outlet, the wire groove of the seal plate can be opposite to the wire groove of the die holder. Therefore, the thread rope can maintain the smooth guiding operation without being influenced by the state of the sealing plate, and has the effects of improving the smoothness of the manufacturing process and the like.

The rotary compression tampon assembly may further include a fork that is adjacent to the outlet of the ram channel, the fork may have a groove, and the groove of the fork may be opposite to the groove of the closure plate. Therefore, the thread groove of the shifting fork can smoothly penetrate into the thread rope, the shifting fork shifts the absorber from the rear end, the whole string of absorbers is helped to move forward, the just-formed absorber smoothly leaves the stamping module, and the effects of improving the smoothness of the manufacturing process and the like are achieved.

Wherein, the quantity of this shift fork can be the several, and this several shift fork can encircle the periphery of establishing a wheel hub. Therefore, the plurality of shifting forks can smoothly and alternately shift the rear end of the absorber, and the effects of improving the smoothness of the manufacturing process and the like are achieved.

Drawings

FIG. 1 is an exploded perspective view of a preferred embodiment of the present invention;

FIG. 2 is a side cross-sectional view of a preferred embodiment of the present invention;

FIG. 3 is a diagram illustrating the use of a reduced width tampon preform in a stamping module according to a preferred embodiment of the present invention;

FIG. 4 is a view of a preferred embodiment of the present invention in use compressing a tampon preform;

fig. 5 is a diagram illustrating a state of pushing the absorber out of the punching module according to a preferred embodiment of the present invention.

[ description of reference ]

1: a die holder; 1 a: a first body; 1 b: a second body; 11: a guide channel; 12: stamping a channel; 13: an inlet port; 14: a penetration opening; 15: a lead-out port; 16: a wire slot; 17: a groove; 18: punching a pipe;

2: a stamping module; 21: punching a head; 211: claw thorn; 22: a power source; 23: a rod body; 25: a slipping component; 251: a slide rail; 252: a slider; 26: a pushing element;

3: a closure assembly; 31: closing the plate; 311: a wire trench; 312: a plastic-shaped groove; 32: penetrating a rod; 33: pushing the cylinder; 331: a driving end;

4: a shifting fork; 41: a wire trench;

h: a hub; l: a cord; p: a cotton sliver preform; s: an installation space; t: an absorbent body.

Detailed Description

In order to make the aforementioned and other objects, features and advantages of the present invention comprehensible, preferred embodiments accompanied with figures are described in detail as follows:

referring to fig. 1 and 2, a preferred embodiment of the rotary compression tampon assembly of the present invention comprises a mold base 1, a stamping module 2, and a sealing member 3, wherein the stamping module 2 and the sealing member 3 are movably disposed on the mold base 1.

The die holder 1 has a guide channel 11 and a punching channel 12 inside, a first end of the guide channel 11 has an introduction port 13, the introduction port 13 can be located on the outer surface of the die holder 1, and a second end of the guide channel 11 is communicated with the punching channel 12, so as to introduce the tampon preform to be compressed from the introduction port 13 and guide the tampon preform into the punching channel 12. The punching channel 12 has at its two ends a penetration opening 14 and a discharge opening 15, respectively, and the penetration opening 14 and the discharge opening 15 may be in line opposite to each other, so that the punching module 2 penetrates the punching channel 12 from the penetration opening 14, and compresses the tampon preform in the punching channel 12 from the rear end thereof, and finally pushes the compressed product out of the discharge opening 15. The interior of the die holder 1 further has a wire casing 16 communicating with the guiding channel 11 and the stamping channel 12, and the wire casing 16 can be recessed in the top walls of the guiding channel 11 and the stamping channel 12 and extend from the introducing port 13 to the discharging port 15.

For example, but not limited thereto, the stamping channel 12 may be configured to linearly penetrate the die holder 1 along the head and tail directions of the die holder 1, and the lead-out opening 15 may be located at the head of the die holder 1; the guiding channel 11 is arranged to extend obliquely downwards from the upper side of the die holder 1 to communicate with the pressing channel 12, so as to smoothly guide and compress the preliminary product and simplify the configuration of each component. The tail end of the die holder 1 can be recessed inwards to form an installation space S for accommodating part of components of the stamping module 2, and the penetrating port 14 can be communicated with the installation space S; in addition, a groove 17 can be formed at the head end of the die holder 1 for accommodating the sealing member 3 pivotally connected to the head end of the die holder 1, and the outlet 15 can be communicated with the groove 17.

In addition, in order to facilitate the formation of the guiding channel 11 and the stamping channel 12 and the assembly and positioning of other components, the die holder 1 may optionally include a first body 1a and a second body 1b, and the first body 1a and the second body 1b may respectively have a half-edge guiding channel 11 and a half-edge stamping channel 12, so that the first body 1a and the second body 1b are assembled in a left-right matching manner to form the complete guiding channel 11 and the stamping channel 12 together; in order to reduce the influence of the error in the butt-assembling process on the quality of compressing the tampon preform, the die holder 1 may further include a stamping tube 18, and the first body 1a and the second body 1b may clamp the stamping tube 18 together during the left-right butt-assembling process, so that the stamping tube 18 is maintained in the stamping channel 12 and at the front end of the guiding channel 11, so that the stamping module 2 compresses the tampon preform in the stamping tube 18. In other embodiments, the mold base 1 may also be integrally formed by using a technology such as 3D printing, for example, but not limited to.

The stamping module 2 has a punch 21 extending through the through-opening 14 of the stamping channel 12, and the punch 21 is rotatably displaceably arranged in the stamping channel 12 for compressing and rotating the tampon preform. In this embodiment, the punching module 2 may have a power source 22 and a rod 23, the power source 22 may be used to drive the rod 23 to rotate and extend, and the punching head 21 may be disposed at a free end of the rod 23 and rotate synchronously with the rod 23. Wherein, the end face of the punch head 21 may have a plurality of claws 211 to grip the tampon preform more firmly; the rod 23 can be, for example, a screw, but not limited thereto. The punching module 2 may further have a shaft sleeve 24, the shaft sleeve 24 is combined with an inner wall surface of the punching channel 12 and is adjacent to the penetration port 14, the rod 23 penetrates the shaft sleeve 24, a circumferential surface of the rod 23 contacts the shaft sleeve 24, the punching head 21 is located between the shaft sleeve 24 and the guide outlet 15, the shaft sleeve 24 may reduce a probability that foreign objects such as dust enter the punching channel 12 from the penetration port 14, and may provide an auxiliary supporting effect when the rod 23 extends, thereby reducing a probability that the rod 23 is damaged due to punching operation.

In addition, the stamping module 2 of the present embodiment may further include a sliding component 25, the sliding component 25 may be directly or indirectly connected to the die holder 1 and the power source 22, and a pushing component 26 is directly or indirectly connected to the power source 22 and may push the power source 22 to move relative to the die holder 1 along the axial direction of the rod 23. In this embodiment, the sliding component 25 and the power source 22 can be located in the installation space S to shorten the extension stroke of the rod 23. The sliding component 25 can include a sliding rail 251 and a sliding block 252, the sliding rail 251 can be assembled and combined with the installation space S of the die holder 1, or directly formed in the groove of the die holder 1, the sliding block 252 can be assembled and combined with the outer wall of the power source 22, or directly formed in a form matching with the groove from the outer wall of the power source 22, as long as the sliding rail can be assembled in a matching manner and can be pushed by the pushing component 26 to generate relative displacement. In addition, the pushing element 26 can be, for example, an electromagnetic valve, and can switch states at a specific time to push the power source 22 to displace, so as to move the rod 23 and the punch 21 in the punching channel 12 synchronously.

The closing member 3 has a closing plate 31, which closing plate 31 is adapted to removably close the outlet opening 15 of the punch channel 12, to close the outlet opening 15 when compressing the tampon preform, and to be removed after compression, so that the compressed product passes through the outlet opening 15. In the embodiment, the sealing plate 31 can be lifted outward relative to the head end of the die holder 1, for example, the bottom end of the sealing plate 31 can be pivoted to the die holder 1 by a through rod 32, so that the sealing plate 31 can be aligned and accommodated in the groove 17 to close the outlet 15, the stability of the sealing plate 31 for closing the outlet 15 is improved by the groove 17, or the through rod 32 is pivoted to be lifted outward to open, so that the outlet 15 is exposed, and the lifting and resetting efficiency of the sealing plate 31 is improved. The sealing plate 31 has a linear groove 311, the linear groove 311 is connected to the top edge of the sealing plate 31, and the surface of the sealing plate 31 facing the outlet 15 may also have a plastic groove 312; when the sealing plate 31 closes the outlet 15, the wire groove 311 is opposite to the wire groove 16 of the die holder 1, and the shaping groove 312 is opposite to the outlet 15. The closing assembly 3 may further include a pushing cylinder 33, the pushing cylinder 33 may be fixed to the on-line base, and a driving end 331 connected to the closing plate 31 for controlling the pivoting state of the closing plate 31 with the extension and contraction of the pushing cylinder 33.

The rotary compression tampon assembly may further include a fork 4, the fork 4 being adjacent the outlet 15 of the ram channel 12, the fork 4 having an open channel 41, the channel 41 of the fork 4 being substantially opposite the channel 311 of the cover plate 31. In this embodiment, the number of the shift forks 4 is several, and the shift forks 4 can be annularly arranged on the periphery of a hub H.

Referring to fig. 3, according to the above structure, the rotary compression tampon assembly of the present embodiment can be applied to a tube-type tampon production line, and has a string L passing through the lead-in opening 13 and out of the lead-out opening 15 along the thread groove 16 of the holder 1. The plurality of cotton sliver preforms P connected in series by the string L may be sequentially introduced into the delivery channel 11 along the traveling path of the string L after being sequentially compressed from the circumferential direction to be reduced in width. Wherein, the inner walls of the turning points of the guiding and feeding channel 11 and the stamping channel 12 can be provided with arc angles to avoid scratching the thread rope L.

Referring to fig. 3 and 4, after the tampon preform P enters the pressing channel 12 and contacts the closing plate 31, the rod 23 of the pressing module 2 can be controlled to rotate and extend, after the plurality of claws 211 of the pressing head 21 contact the tampon preform P located in the pressing channel 12, the tampon preform P can be stably held and displaced along with the rotation and forward movement of the pressing head 21, so that the tampon preform P can be rotated and compressed into a compact absorbent T along the length direction in the pressing channel 12, and the absorbent T can be in a spirally compressed form. During the compression process, the string L can be accommodated in the thread groove 16 and pass through the thread groove 311 of the closing plate 31, so that the string L can be effectively prevented from being pulled improperly during the compression process of the tampon preform P. The front end of the absorber T may be extruded into the shaping groove 312 to form a shape conforming to the shaping groove 312.

Referring to fig. 5, after compressing the tampon preform P into the absorbent body T, the closing plate 31 can be controlled by the pushing cylinder 33 to pivot away from the groove 17, so that the closing plate 31 is opened to expose the outlet 15. On the other hand, after the closing plate 31 is removed (or while the closing plate 31 is removed), the pushing element 26 is controlled to push the power source 22 to displace, so as to drive the rod 23 and the punch 21 to displace towards the outlet 15 in the punching channel 12 synchronously, which produces the effect of rapidly pushing the absorber T from the rear end by the punch 21, so that the absorber T can leave the punching module 2 through the outlet 15, and the cord L drives the next tampon preform P in the delivery channel 11 to enter the punching channel 12, so as to continue the next punching operation. In addition, when the punching head 21 pushes the absorber T, the hub H can be driven to rotate so that the plurality of forks 4 alternately shift the rear end of the previous absorber T to help the whole string of absorbers T advance and the just-formed absorber T smoothly leaves the punching module 2, thereby forming a plurality of absorbers T connected in series by the thread rope L, so that the thread rope L is continuously and rapidly matched with the auxiliary device with the circumference in local movable overlapping, the tube loading operation is continuously and rapidly completed from the side direction, and the thread rope L is cut to obtain an independent duct-type cotton sliver.

In summary, the rotary compression tampon device of the present invention can introduce a plurality of tampon preforms connected in series by a string, and sequentially compress the plurality of tampon preforms from the length direction to form a plurality of absorbers connected in series by a string; furthermore, the absorber which is just compressed and formed is pushed from the rear end, and the previous absorber which is compressed and formed is pushed from the rear end, so that the compact state of each absorber can be maintained in the guiding and conveying process, the absorbers cannot be pulled and loosened, subsequent processes such as tube loading, wire cutting, packaging and the like can be conveniently carried out, and the efficiency, the quality and the like of the absorber formed by compression are improved. In addition, the invention can regularly compress the cotton strip prefabricated product into the compact spiral absorber, so that the absorber can uniformly expand after absorbing menstrual blood when being used subsequently, thereby being convenient for rapidly absorbing menstrual blood, preventing leakage and improving use comfort.

Although the present invention has been described with reference to the preferred embodiments, it should be understood that various changes and modifications can be made by those skilled in the art without departing from the spirit and scope of the invention.

Claims

1. A rotary compression tampon assembly, comprising:

the die holder is internally provided with a guiding channel and a stamping channel, a first end of the guiding channel is provided with an introducing port, a second end of the guiding channel is communicated with the stamping channel, two ends of the stamping channel are respectively provided with a penetrating port and a guiding port, and a wire casing extends from the introducing port to the guiding port;

the stamping module is provided with a stamping head which penetrates through the penetrating port of the stamping channel, and the stamping head is rotatably and displaceably arranged in the stamping channel; and

a closure assembly having a closure plate removably closing the outlet port of the ram channel.

2. The rotary compression tampon assembly according to claim 1, wherein the ram module has a power source and a barrel, the power source driving the barrel to rotate and telescope, the ram being located at a free end of the barrel.

3. The rotary compression tampon assembly according to claim 2, wherein the end face of the ram has a plurality of prongs.

4. The rotary compression tampon assembly of claim 2, wherein the stamping module has a sleeve engaging an inner wall surface of the stamping channel and adjacent the through-opening, the barrel extends through the sleeve, a circumferential surface of the barrel contacts the sleeve, and the stamping head is positioned between the sleeve and the outlet.

5. The rotary compression tampon assembly of claim 2, wherein the stamping module has a sliding member, the sliding member is coupled to the die holder and the power source, and a pusher member is coupled to the power source and is capable of pushing the power source to displace relative to the die holder along the axial direction of the rod.

6. The rotary compression tampon assembly according to claim 5, wherein the inlet and outlet ports are linearly opposed.

7. The rotary compression tampon assembly of claim 6, wherein the pressing channel extends linearly through the die holder in the direction of the leading end and the trailing end of the die holder, the delivery channel is located at the leading end of the die holder, and the delivery channel extends obliquely downward from above the die holder to communicate with the pressing channel.

8. The rotary compression tampon assembly according to claim 7, wherein the rear end of the holder is recessed to form an installation space, the penetration opening communicates with the installation space, and the slidable assembly and the power source are located in the installation space.

9. The rotary compression tampon assembly of claim 7, wherein the mold base has a head end defining a recess, the outlet opening communicates with the recess, the sealing plate has a bottom end pivotally connected to the mold base by a through-rod, and the sealing plate is either received in the recess and closes the outlet opening or pivots away from the recess to expose the outlet opening.

10. The rotary compression tampon assembly according to claim 9, wherein the closure assembly has a push cylinder having a drive end connected to the closure plate, the push cylinder telescopically controlling the closure plate's pivotal state.

11. The rotary compression tampon assembly according to claim 1, wherein a surface of the sealing plate facing the outlet port has a shaped groove that is opposite the outlet port when the sealing plate closes the outlet port.

12. The rotary compression tampon assembly according to claim 1, wherein the thread groove is recessed in a top wall of the delivery channel and the ram channel.

13. The rotary compression tampon assembly of claim 1, wherein the die holder has a first body and a second body that mate and together clamp a ram tube that is positioned in the ram channel and forward of the lead channel.

14. The rotary compression tampon assembly of any of claims 1 to 13, wherein the sealing plate has a groove, the groove of the sealing plate being positioned opposite the linear slot of the holder when the sealing plate closes the outlet opening.

15. The rotary compression tampon assembly of claim 14, further comprising a fork adjacent the outlet port of the ram channel, the fork having a groove that is aligned with the groove of the cover plate.

16. The rotary compression tampon assembly according to claim 15, wherein the plurality of shift forks is provided in a plurality, the plurality of fork rings being provided on an outer periphery of a hub.