CN113856019A - A refillable maintenance structure for special biological microcrystalline structures - Google Patents

Abstract

The invention discloses a refillable special biological microcrystalline maintenance structure, comprising: a cylinder body, a first baffle plate is fixed on the right side of the cylinder body; a piston rod, the piston rod is located on the side of the cylinder body Inside, a second baffle plate is fixed on the right side of the piston rod, a blocking plate is installed on the left end of the piston rod, a discharge port is opened on the left end of the piston rod, and a blocking plate is fixed on the right side of the blocking plate. A connecting rod, a sealing plate is fixed on the right side of the connecting rod, a support rod is connected on the right side of the sealing plate, a support plate is fixed on the right side of the support rod, and the right side of the support plate is uniform A suction cup is fixed, and the interior of the piston rod is a hollow structure. The maintenance structure of the refillable special biological microcrystalline structure makes it easy to refill new materials through the piston rod. When not in use temporarily, the applicator head on the cylinder can be prevented from contacting the table top and being contaminated by bacteria on the table top, which is easy to replace the applicator head. .

Description

Maintenance structure of special biological micrite structure that can fill

Technical Field

The invention relates to the technical field related to skin care and beauty, in particular to a maintenance structure of a special biological microcrystal structure capable of being filled.

Background

The special biological microcrystalline structure has the advantages of shrinking pores, reducing blockage and inflammation, strengthening cutin metabolism, improving large pores, reducing fine wrinkles, dullness and dullness of skin pigment, and is convenient to use, and has environmental protection benefit, and when in use, the special biological microcrystalline structure acts on a user through the maintenance structure;

the existing maintenance structure of the special biological microcrystal structure is inconvenient for filling a new material, and when the maintenance structure is not used temporarily, a coating head is in contact with a table top and is easily polluted by bacteria on the table top.

Disclosure of Invention

The invention aims to provide a maintenance structure of a special biological microcrystal structure capable of being filled, and aims to solve the problems that the existing maintenance structure of the special biological microcrystal structure proposed in the background technology is inconvenient for filling a new material, and a coating head is contacted with a table top and is easily polluted by bacteria on the table top when the maintenance structure is not used temporarily.

In order to achieve the purpose, the invention provides the following technical scheme: a serviceable structure for a special biocrystallite structure that can be filled, comprising:

the cylinder body is fixedly provided with a first baffle on the right side surface;

the piston rod, the piston rod is located the inside of barrel, the right flank of piston rod is fixed with the second baffle, the jam plate is installed to the left end of piston rod, the discharge gate has been seted up to the left end of piston rod, the right flank of jam plate is fixed with the connecting rod, the right flank of connecting rod is fixed with seals the board, the right side of sealing the board is connected with branch, the right flank of branch is fixed with the backup pad, the right flank of backup pad evenly is fixed with the sucking disc.

Preferably, the interior of the piston rod is of a hollow structure, and the longitudinal section of the left end of the piston rod is of a T-shaped structure.

Preferably, the connection mode of the blocking plate and the piston rod is clamping connection, and the connection mode of the sealing plate and the piston rod is threaded connection;

the diameter size of the sealing plate is equal to that of the right end of the blocking plate.

Preferably, the smearing head is connected with the cylinder in a threaded manner, and the inner wall of the cylinder is attached to the outer side face of the left end of the piston rod.

Preferably, the maintenance structure comprises a container, a discharge head, a squeezing device and a protective cover; the discharge head and the extrusion device are respectively positioned at two opposite ends of the container;

the container has an interior space. The inner space is communicated with the discharge head and the extrusion device; the inner space is filled with contents, one or more discharge ports are distributed on the discharge head, and the discharge ports of the discharge head are respectively communicated with the inner space; the extrusion device extends into the inner space, and the protective cover can removably cover the discharge head and the discharge hole.

Preferably: the container comprises a first cylinder, a second cylinder, a baffle and a smearing head, wherein the baffle 120 surrounds one end of the first cylinder and forms a T-shaped structure together with the cross section of the first cylinder; one end of the second cylinder is detachably connected with the other end of the first cylinder.

Preferably: the minimum caliber of the left end of the first cylinder is not smaller than the maximum caliber of the right end of the second cylinder, the smearing head is in a conical structure, one end of the smearing head is detachably connected to the other end of the second cylinder, and the other end of the smearing head is rotatably connected with the discharging head.

Preferably: the extruding device comprises an abutting part, a piston head and a piston rod. The piston rod is connected with the pushing part and the piston head, the cross section of the piston rod is in a cross shape, the piston rod is integrally connected with the pushing part and the piston head, and the piston rod is connected to the middle of the side face of the pushing part and the middle of the side face of the piston head.

Preferably: the container includes a plurality of positioning blocks disposed at intervals along the long axis of the inner space on the inner wall 102 of the container, and the piston head has an annular groove disposed on the circumferential surface of the piston head.

Preferably: keep off the annular draw-in groove and be located baffle back of the body face of pushing away for the rubber circle is blocked admittedly in the annular draw-in groove.

Compared with the prior art, the invention has the beneficial effects that: according to the maintenance structure of the special biological microcrystal structure capable of being filled, the new material can be conveniently filled through the piston rod, when the structure is not used temporarily, the smearing head on the cylinder body is prevented from being contacted with the tabletop and polluted by bacteria on the tabletop, and the smearing head is convenient to replace;

1. the device is provided with a piston rod, a plugging plate, a connecting rod and a sealing plate, wherein the sealing plate, the plugging plate and the connecting rod are separated from the piston rod by rotating the sealing plate, a discharge hole at the left end of the piston rod and an opening at the right end of the piston rod are exposed, then a sharp-nose bottle is inserted into the piston rod, and new materials are injected into a cylinder body, so that new materials can be conveniently injected;

2. the novel biological microcrystal structure is provided with a supporting plate and suckers, the suckers are uniformly arranged at the left end of the supporting plate, when the special biological microcrystal structure maintenance structure is not needed for a while, a cylinder body can be erected on a tabletop, the lower surface of each sucker is tightly attached to the tabletop, so that the cylinder body is fixed, and the situation that a smearing head on the cylinder body is contacted with the tabletop and is polluted by bacteria on the tabletop is avoided;

3. the cylinder body and the smearing head are arranged, the smearing head is in threaded connection with the cylinder body, the cylinder body and the smearing head are convenient to disassemble and assemble, and therefore the smearing head is convenient to replace.

Drawings

FIG. 1 is a front view of a cutaway structure of the present invention;

FIG. 2 is a schematic view of the overall structure of the present invention;

FIG. 3 is a schematic view of the connection structure of the suction cup and the supporting plate according to the present invention;

FIG. 4 is a schematic view of the overall structure of the piston rod according to the present invention;

fig. 5 is a schematic view of the overall structure of the piston rod and the cylinder body according to the present invention.

FIG. 6 is a longitudinal sectional view of a squeeze feeder according to still another embodiment of the present invention;

FIG. 7 is a schematic view showing the entire construction of the squeeze feeding device shown in FIG. 6;

fig. 8 is a schematic view of the connection overall structure of the smearing head and the second cylinder of the extrusion type feeding device of the embodiment;

fig. 9 is a schematic view of the connection structure of the baffle plate and the first cylinder of the extrusion type feeding device of the embodiment;

FIG. 10 shows an extrusion type feeding device according to an embodiment of the present invention

In the figure: 1. a barrel; 2. a first baffle plate; 3. a piston rod; 4. a second baffle; 5. a blocking plate; 6. a connecting rod; 7. a sealing plate; 8. a strut; 9. a support plate; 10. a suction cup; 11. a discharge port; 12. and (6) coating a head. 100, a container; 101 an inner space; 102, an inner wall; 103, positioning blocks; 110 is a first cylinder; 111, a connecting part; 120, a baffle plate; 120S: a first side 120S2, a second side; 121, an annular clamping groove; 122, an annular clamping groove; 130, a second cylinder; 140, coating head; 141 a screw thread part; 150, discharging a stub bar; 151, a discharge hole; 160, an elastic band; 170, a protective cover; 200, an extrusion device; 210, a pushing part; 220, a piston rod; 230 a piston head; 231, a circumferential surface; 232, an annular groove; 300, a shielding mechanism; 310, a shielding piece; 311, elastic cloth; 312, a telescopic folding unit; 330, a rubber ring; m is the content; l is the long axis direction.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, the present invention provides a technical solution: a maintenance structure of a special biological microcrystal structure capable of being filled comprises a barrel body 1, a first baffle 2, a piston rod 3, a second baffle 4, a plugging plate 5, a connecting rod 6, a sealing plate 7, a supporting rod 8, a supporting plate 9, a sucking disc 10, a discharge hole 11 and an smearing head 12, wherein the smearing head 12 is arranged at the left end of the barrel body 1, and the smearing head 12 is fixed on the barrel body 1 in a threaded connection mode as shown in figure 1;

when a special biological microcrystal structure needs to be filled into the cylinder 1, the supporting rod 8 and the supporting plate 9 are held, the piston rod 3 and the second baffle 4 are pulled leftwards, then the supporting rod 8 and the supporting plate 9 are rotated, the sealing plate 7 fixedly connected with the supporting rod 8 is rotated, the sealing plate 7 is in threaded connection with the piston rod 3, the sealing plate 7 is separated from the piston rod 3, then the piston rod 3 and the second baffle 4 are pressed, then the supporting rod 8 and the supporting plate 9 are moved rightwards, the plugging plate 5 is separated from the discharge hole 11, the plugging plate 5, the connecting rod 6 and the sealing plate 7 are separated from the piston rod 3, and then a sharp-mouth bottle is inserted into the piston rod 3 with the hollow structure inside as shown in fig. 5, so that a new special biological microcrystal structure is filled into the cylinder 1;

then as shown in fig. 2, 3 and 4, the blocking plate 5, the connecting rod 6 and the sealing plate 7 are installed inside the piston rod 3, the blocking plate 5 is clamped in a discharge hole 11 formed at the left end of the piston rod 3, the opening at the right end of the piston rod 3 is sealed by the sealing plate 7, and the discharge hole 11 at the left end of the piston rod 3 is sealed by the blocking plate 5;

when the maintenance structure is not needed to be used temporarily, as shown in fig. 1 and 2, the right end of the supporting plate 9 is uniformly provided with the suction cups 10, the cylinder body 1 is vertically placed, the bottom ends of the suction cups 10 are tightly attached to a table top, the cylinder body 1 is erected, the smearing head 12 is prevented from being polluted by impurities, and a series of operations of the maintenance structure of the special biological microcrystal structure which can be filled are completed.

As shown in fig. 6, which shows still another embodiment of the present invention, the extrusion feeder 10 of this embodiment includes a container 100, a discharge head 150, an extrusion device 200, and a protective cover 170. The discharge head 150 and the pressing device 200 are located at opposite ends of the container 100, respectively. The container 100 has an interior space 101. The inner space 101 connects the discharge head 150 to the extrusion device 200. The internal space 101 is filled with a content M, and for example, a cosmetic product made of purified biocrystals and gel (containing polypeptide and oligopeptide) is uniformly filled in the internal space 101.

One or more discharge ports 151 are distributed on the discharge head 150, and the discharge ports 151 of the discharge head 150 are respectively communicated with the inner space 101. The extruding device 200 is extended into the inner space 101 to push the content M in the inner space 101 toward the discharging head 150, and even to extrude the content M from the discharging hole 151. The protective cover 170 removably covers the discharge head 150 and the discharge port 151, and protects the discharge head and the discharge port 151 when not in use, thereby preventing the discharge port 151 from being contaminated and the contents M in the container 100 from being contaminated.

More specifically, the container 100 includes a first cylinder 110, a second cylinder 130, a baffle 120, and an applicator head 140. The baffle 120 surrounds one end of the first cylinder 110, and forms a T-shaped structure together with the cross section of the first cylinder 110. One end of the second cylinder 130 is detachably connected to the other end of the first cylinder 110. For example, the first cylinder 110 is connected to the second cylinder 130 by a threaded connection or a cladding sleeve connection, that is, the connection portion 111 of the first cylinder 110 is connected to the second cylinder 130.

More specifically, the longitudinal sections of the first cylinder 110 and the second cylinder 130 of the container 100 are both trapezoidal structures, and the left and right ends of the first cylinder 110 and the second cylinder 130 are both open.

In addition, the container 100 is tapered, in other words, the minimum caliber of the left end of the first cylinder 110 is not smaller than the maximum caliber of the right end of the second cylinder 130. The smearing head 140 is in a conical structure, one end of the smearing head 140 is detachably connected to the other end of the second cylinder 130, and the other end of the smearing head 140 is rotatably connected with the discharging head 150. For example, the protective cap 170 is connected to the applicator head 140 by a nested connection, and the applicator head 140 is connected to the second cylinder 130 by a threaded connection or a cladding sleeve connection, that is, the applicator head 140 is connected to the second cylinder 130 by the threaded portion 141.

The die feed apparatus 10 is connected to the container 100 (e.g., the second cylinder 130) and the protective cover 170 via a flexible elastic band 160, so that the protective cover 170 does not come off the die feed apparatus 10 even if the protective cover 170 is removed from the discharge head 150. However, the present invention is not limited to this, and in other embodiments, the elastic band 160 may be omitted from the die feed device 10.

In addition, the pressing device 200 includes a pressing portion 210, a piston head 230 and a piston rod 220. The piston rod 220 connects the pushing portion 210 and the piston head 230, further, the cross section of the piston rod 220 is cross-shaped, the piston rod 220 integrally connects the pushing portion 210 and the piston head 230, and the piston rod 220 is connected to the middle of the side surface of the pushing portion 210 and the middle of the side surface of the piston head 230. The piston head 230 is inserted into the first cylinder 110 and extends to the second cylinder 130, and directly contacts the inner wall 102 of the inner space 101, so as to push the content M in the inner space 101 out of the stub bar 150.

The piston head 230 is elastic, and is made of rubber, for example.

The extrusion type feeding device 10 further comprises a shielding mechanism 300. The shielding mechanism 300 includes a rubber ring 330 and a shielding member 310. The blocking member 310 connects the pushing portion 210 and the blocking plate 120, and surrounds the pressing device 200 and the blocking plate 120. One end of the shielding member 310 is fixedly looped on the baffle 120 through the rubber ring 330, and the rubber ring 330 is connected to the baffle 120 in a snap-fit manner.

Thus, the shielding member 310 protects the piston head 230 and the piston rod 220 of the extruding device 200, so that the piston head 230 and the piston rod 220 can be prevented from being stained with dust, the content M in the container 100 can be prevented from being polluted, and the extruding device 200 can be prevented from being separated from the container 100 arbitrarily.

In the embodiment, the baffle 120 has an annular groove 121, the annular groove 121 is concavely disposed on the first surface 120S1 of the baffle 120 opposite to the first cylinder 110, and the rubber ring 330 is clamped in the annular groove 121, so as to ensure that the shielding member 310 does not separate from the baffle 120.

In the present embodiment, the shielding member 310 includes an elastic cloth 311, the elastic cloth 311 surrounds the piston head 230 and the piston rod 220 of the extruding device 200, and one end of the elastic cloth 311 is clamped in the annular clamping groove 121 through the rubber ring 330. Thus, when the user pushes the piston head 230 of the extruding device 200 into the inner space 101 to generate a restoring elastic force due to the deformation of the elastic cloth 311, the restoring elastic force can pull the extruding device 200 out of the inner space 101, which is beneficial for the piston head 230 to push the content M remained on the inner wall 102 to the discharge head 150 again, but the invention is not limited to the type of the shielding member 310.

Thus, when the user needs to apply the care product on the skin of the user, the user separates the protective cover 170 from the discharge head 150, the elastic band 160 is stretched, so that the protective cover 170 is separated from the sheathing connection with the applicator head 140, and then the pushing part 210, the piston rod 220 and the piston head 230 are pushed, so that the piston head 230 moves leftwards in the first cylinder 110, and the scale marks (not shown) on the outer side surfaces of the first cylinder 110 and the second cylinder 130 are observed, so as to quantitatively extrude the care product, as shown in fig. 1 and fig. 3, a discharge port 151 is reserved in the discharge head 150, so that the care product flows out from the discharge port 151 reserved in the discharge head 150 and is applied on the skin of the user; when the first cylinder 110, the second cylinder 130 and the applicator head 140 need to be cleaned, as shown in fig. 5 and 7, the second cylinder 130 and the first cylinder 110 and the applicator head 140 and the second cylinder 130 are connected in a threaded manner, the second cylinder 130 is rotated to disconnect the second cylinder 130 from the threaded connection with the first cylinder 110, then, as shown in fig. 3, the applicator head 140 is rotated to disconnect the applicator head 140 from the threaded connection with the second cylinder 130, and then the interiors of the first cylinder 110, the second cylinder 130 and the applicator head 140 are cleaned, so as to complete a series of operations of the extrusion feeder 10, which is not described in detail in this specification and is well known in the art.

Fig. 10 is a longitudinal sectional view of a squeeze feeding device 11 according to an embodiment of the present invention. As shown in fig. 10, the container 100 includes a plurality of positioning blocks 103. The positioning blocks 103 are disposed on the inner wall 102 of the container 100 at intervals along the longitudinal direction L of the internal space 101, for example, the positioning blocks 103 are disposed on the inner wall 102 of the container 100 at equal intervals. The piston head 230 has an annular groove 232. An annular groove 232 is recessed in the circumferential surface 231 of the piston head 230. Thus, when the user pushes the pressing device 200 into the inner space 101 to move the piston head 230 along the inner wall 102 of the container 100 until one of the positioning blocks 103 slides into and is clamped in the annular groove 232 of the piston head 230, the pressing device 200 is free to be withdrawn from the container 100 due to external force.

103 are distributed on the side wall of the conical surface, the inner diameter is gradually reduced, and the outer diameter of 230 is fixed, and only one of the conical surfaces can be clamped.

In addition, since the outer side of the container 100 is provided with scale marks, the positioning blocks 103 are sequentially arranged according to specific data of the scale marks. In this way, when the user pushes the pressing device 200 into the inner space 101 and moves the piston head 230 along the inner wall 102 of the container 100, so that any one of the positioning blocks 103 slides into the annular groove 232 of the piston head 230, the user can be assisted in accurately controlling the amount of the contents M.

For example, each positioning block 103 is, for example, an annular body, and is circumferentially protruded on the inner wall 102 of the inner space 101, however, the invention is not limited thereto, and each positioning block 103 may be an upper block and a lower block located above or below the inner wall 102.

Fig. 6 is a longitudinal sectional view of the die feed device 12 according to an embodiment of the present invention. As shown in fig. 6, the embodiment of fig. 6 is substantially the same as the embodiment of fig. 5, except that the annular slot 122 of the baffle 120 is not located on the first surface 120S1 of the baffle 120 facing away from the first cylinder 110, but located on the second surface 120S2 of the baffle 120 facing away from the pushing part 210, so that the rubber ring 330 is clamped in the annular slot 121.

Fig. 7 is a schematic view of the entire structure of a squeeze feeding device 13 according to an embodiment of the present invention. As shown in fig. 7, the shielding member 310 includes an accordion-type retractable folding unit 312, and the retractable folding unit 312 can be retracted and extended to change the length of the retractable folding unit 312 according to the movement of the pressing device 200 relative to the container 100.

Thus, through the characteristics, the beneficial effects of the invention are as follows: extrusion formula feedway of biological micrite structure is convenient for the ration to be released the maintenance article, utilizes the visor protection to scribble the head to keep scribbling the cleanness of head, conveniently wash the inner space of container.

1. The longitudinal sections of the containers are both in a trapezoidal structure, so that the inner space of the containers is convenient to extrude, the outer side surfaces of the containers are both provided with scale marks, and maintenance articles in the containers can be conveniently and quantitatively pushed out by observing the scale marks;

2. the extrusion type feeding device is provided with a protective cover, a coating head, a shielding mechanism and a piston rod, wherein the coating head is sleeved outside the protective cover, the protective cover is used for protecting the coating head, a shielding piece of the shielding mechanism is used for protecting the piston rod, the piston rod is prevented from being stained with dust, and the extrusion type feeding device is kept clean;

3. be provided with first barrel, second barrel and scribble the head, rotate the second barrel in proper order and scribble the head, split first barrel, second barrel and scribble the head, conveniently wash the inner space of first barrel, second barrel and scribble the head.

Those not described in detail in this specification are within the skill of the art. The standard parts used in the invention can be purchased from the market, the special-shaped parts can be customized according to the description of the specification and the accompanying drawings, the specific connection mode of each part adopts conventional means such as bolts, rivets, welding and the like mature in the prior art, the machines, the parts and equipment adopt conventional models in the prior art, and the circuit connection adopts the conventional connection mode in the prior art, so that the detailed description is omitted.

Although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that various changes in the embodiments and modifications of the embodiments and/or equivalent arrangements of some features may be made without departing from the spirit and scope of the invention.

Claims (10)

1. A maintenance structure of a special biological microcrystal structure that can fill, its characterized in that: the method comprises the following steps:

the device comprises a cylinder body (1), wherein a first baffle (2) is fixed on the right side surface of the cylinder body (1);

the piston rod (3) is located inside the barrel (1), a second baffle (4) is fixed to the right side face of the piston rod (3), a blocking plate (5) is installed at the left end of the piston rod (3), a discharge hole (11) is formed in the left end of the piston rod (3), a connecting rod (6) is fixed to the right side face of the blocking plate (5), a sealing plate (7) is fixed to the right side face of the connecting rod (6), a supporting rod (8) is connected to the right side of the sealing plate (7), a supporting plate (9) is fixed to the right side face of the supporting rod (8), and suckers (10) are uniformly fixed to the right side face of the supporting plate (9);

the smearing head (12), the smearing head (12) is installed at the left end of the barrel body (1).

2. A fillable specialty bio-microcrystalline structure maintenance structure as defined in claim 1 wherein: the interior of the piston rod (3) is of a hollow structure, and the longitudinal section of the left end of the piston rod (3) is of a T-shaped structure.

3. A fillable specialty bio-microcrystalline structure maintenance structure as defined in claim 1 wherein: the blocking plate (5) is connected with the piston rod (3) in a clamping manner, and the sealing plate (7) is connected with the piston rod (3) in a threaded manner;

wherein, the diameter size of the sealing plate (7) is equal to the diameter size of the right end of the plugging plate (5).

4. A fillable specialty bio-microcrystalline structure maintenance structure as defined in claim 1 wherein: the smearing head (12) is connected with the cylinder body (1) in a threaded manner, and the inner wall of the cylinder body (1) is attached to the outer side face of the left end of the piston rod (3).

5. A fillable specialty bio-microcrystalline structure maintenance structure as defined in claim 1 wherein: the maintenance structure comprises a container (100), a discharge head (150), an extrusion device (200) and a protective cover (170); the discharging head (150) and the extruding device (200) are respectively positioned at two opposite ends of the container (100);

the container (100) has an inner space (101), and the inner space (101) is communicated with the discharging head (150) and the extruding device (200); the inner space (101) is filled with contents, one or more discharge ports (151) are distributed on the discharge head (150), and the discharge ports (151) of the discharge head (150) are respectively communicated with the inner space (101); the extrusion device (200) extends into the inner space (101), and the protective cover (170) removably covers the discharge head (150) and the discharge port (151).

6. A fillable specialty bio-microcrystalline structure maintenance structure as defined in claim 5 wherein: the container comprises a first cylinder (110), a second cylinder (130), a baffle 120 and a smearing head (140), wherein the baffle 120 surrounds one end of the first cylinder (110) and forms a T-shaped structure together with the cross section of the first cylinder (110); one end of the second cylinder (130) is detachably connected with the other end of the first cylinder (110).

7. A fillable specialty bio-microcrystalline structure maintenance structure as defined in claim 6 wherein: the minimum caliber of the left end of the first cylinder (110) is not smaller than the maximum caliber of the right end of the second cylinder (130), the smearing head (140) is of a conical structure, one end of the smearing head (140) is detachably connected to the other end of the second cylinder (130), and the other end of the smearing head (140) is rotatably connected with the discharge head (150).

8. A fillable specialty bio-microcrystalline structure maintenance structure as defined in claim 5 wherein: the extrusion device (200) comprises a pushing part (210), a piston head (230) and a piston rod (220);

the piston rod (220) is connected with the pushing part (210) and the piston head (230), the cross section of the piston rod (220) is cross-shaped, the piston rod (220) is integrally connected with the pushing part (210) and the piston head (230), and the piston rod (220) is connected with the middle part of the side surface of the pushing part (210) and the middle part of the side surface of the piston head (230).

9. A fillable specialty bio-microcrystalline structure maintenance structure as defined in claim 5 wherein: the container (100) comprises a plurality of positioning blocks (103), the positioning blocks (103) are arranged on the inner wall (102) of the container (100) at intervals along the long axis direction of the inner space (101), the piston head (230) is provided with an annular groove (232), and the annular groove (232) is arranged on the circumferential surface (231) of the piston head (230).

10. A fillable specialty bio-microcrystalline structure maintenance structure as defined in claim 9 wherein: the blocking ring-shaped clamping groove (122) is positioned on the surface of the blocking plate (120) back to the pushing part (210), so that the rubber ring (330) is fixedly clamped in the ring-shaped clamping groove (121).

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