CN219594748U - Sweat gland excision operation tissue scissors - Google Patents

Abstract

The utility model relates to a tissue shear for sweat gland excision operation, which relates to the technical field of tissue shear and comprises a plurality of shear bars, a control ring fixed at one end of each shear bar and blades hinged at one end of each shear bar far away from the control ring, wherein each shear bar is rotationally connected to the adjacent shear bar, a limiting part for limiting the rotation of each blade is arranged on each shear bar, a containing groove for the rotation of each blade is formed in each shear bar, a shielding plate slides in each shear bar and is used for covering the corresponding containing groove, and a fixing part for limiting the sliding of each shielding plate is arranged in each shear bar. According to the utility model, the shielding plate is arranged to cover the notch of the accommodating groove, so that dust is reduced from entering the accommodating groove along the notch, and dust is reduced from being stuck on the blade when the blade is accommodated, and the utility model has the advantage of reducing dust pollution to the tissue scissors.

Description

Sweat gland excision operation tissue scissors

Technical Field

The utility model relates to the technical field of tissue scissors, in particular to a sweat gland excision operation tissue scissors.

Background

The sweat gland excision comprises sweat gland curettage, partial sweat gland liposuction, partial sweat gland excision and skin sweat gland excision with haired areas in armpits, and belongs to one of the surgical plastic surgery. It is often used to treat excessive or insufficient sweat excretion and abnormal sweat. In performing excision, care is usually taken that the local aesthetics and the direction, shape, etc. of the incision meet the cosmetic requirements

The technical scheme includes that the sweat gland excision operation tissue scissors disclosed in the prior art with the authorization bulletin number of CN214907766U comprise two scissors rods, the two scissors rods are connected through a hinge in a rotating mode, control rings are fixedly connected to the bottoms of the two scissors rods, an opening and closing mechanism is arranged at the bottoms of the two control rings, a first scissors head and a second scissors head are fixedly arranged at the top ends of the two scissors rods respectively, a toothed blade is fixedly arranged on the front side of one side surface of the first scissors head, a first sealing groove is formed in the rear side of one side surface of the first scissors head, a toothless blade is fixedly arranged on the rear side of one side surface of the second scissors head, and a second sealing groove is formed in the front side of one side surface of the second scissors head. After the control ring is rotated, the control ring drives the shear rod to rotate, so that the toothed blade slides into the second sealing groove, and the toothless blade slides into the first sealing groove, so that the toothed blade and the toothless blade are stored.

For the above related art, the inventors found that: when using the tissue to cut, need slide tooth blade and toothless blade out first seal groove and second seal groove, make first seal groove and second seal groove notch department be open-ended state, in the well dust of air can get into first seal groove and second seal groove along the notch, again will tooth blade and toothless blade slide first seal groove and second seal groove take in the time dust can adhere to on the blade to make dust pollution tissue cut.

Disclosure of Invention

In order to reduce the pollution of dust to the tissue scissors, the utility model aims to provide the sweat gland excision operation tissue scissors.

The utility model provides a sweat gland excision operation tissue shear, which adopts the following technical scheme:

the utility model provides a sweat gland excision operation tissue scissors, includes a plurality of scissors poles, is fixed in the control ring of scissors pole one end, articulate in the scissors pole is kept away from the blade of control ring one end, the scissors pole rotates to be connected in adjacent on the scissors pole, be equipped with the restriction on the scissors pole the pivoted locating part of blade, offer in the scissors pole and supply the holding tank that the blade was changeed into, it has the sunshade to slide in the scissors pole, the sunshade is used for covering the holding tank, be equipped with the restriction in the scissors pole the gliding mounting of sunshade.

Through adopting above-mentioned technical scheme, when using the tissue to cut, remove the mounting earlier and to the fixed of sunshade, then slide the sunshade along the horizontal direction to expose the holding tank notch. And then the blade rotates in the direction away from the scissor rod until the blade rotates to a position parallel to the scissor rod, and the rotation of the blade is limited by the limiting piece so as to be convenient for fixing the blade. Then slide the sunshade along the horizontal direction again, make the sunshade cover holding tank notch, restrict the sunshade through the mounting and slide, cover the state of holding tank notch with the sunshade fixed, reduce the dust and follow holding tank notch and get into the holding tank in. When the tissue scissors are stored again, the restriction of the fixing piece on the shielding plate is released, and the shielding plate slides into the scissors rod along the horizontal direction. The limit of the limiting piece on the blade is removed, the blade is turned into the accommodating groove, and then the shielding plate slides along the horizontal direction, so that the shielding plate covers the notch of the accommodating groove, the blade is blocked in the accommodating groove, and the shielding plate is limited to slide through the fixing piece. Through setting up the sunshade, make the sunshade cover holding tank notch, reduce the dust and get into the holding tank along the notch in to in making the holding tank keep clean and tidy, dust glues on the blade when reducing to accomodate the blade once more, thereby reduces dust pollution tissue and cuts.

Optionally, the fixing piece includes a plurality of springs fixed in the scissor rod, a chute for sliding the shielding plate in is formed in the scissor rod, one end of each spring is fixed on the chute wall of the chute, the other end of each spring is fixed on the shielding plate, and the spring props against the shielding plate to slide out of the chute

Through adopting above-mentioned technical scheme, when accomodating the blade, slide the sunshade earlier along the horizontal direction, slide into the spout with the sunshade in, make the sunshade extrusion spring, the spring receives the extrusion force compression, exposes the holding tank notch. The blade is then rotated in a direction toward the scissor lever, and the blade is rotated into the accommodating groove. And then the shielding plate is loosened, the spring props against the shielding plate to slide out of the sliding groove along the horizontal direction, and the spring is restored to deform, so that the shielding plate covers the notch of the containing groove to block the containing groove, and then the blade is blocked in the containing groove. Through setting up the spring, make the spring support move the sunshade slip spout and cover in holding tank notch department, the sunshade covers in the state of holding tank when making the sunshade not receive the promotion of external force fixed to the restriction sunshade slides, thereby is convenient for fix the sunshade.

Optionally, the locating part include run through and threaded connection in the gag lever post of blade articulated department, be fixed in the gag lever post stretches out the spacing piece of scissor one end, the spacing piece support tightly in on the lateral wall of scissor.

Through adopting above-mentioned technical scheme, when fixed blade, earlier with the sunshade slide into the spout along the horizontal direction in, the sunshade extrusion spring, the spring receives the extrusion force compression, releases the sunshade and covers the holding tank notch. The blade is then rotated out of the receiving slot until the blade is rotated to a position parallel to the scissor lever. The shielding plate is loosened, the spring props against the shielding plate to slide out of the sliding groove along the horizontal direction, the spring is restored to deform, and the shielding plate slides into the accommodating groove so as to cover the notch of the accommodating groove, and the condition that dust enters the accommodating groove along the notch of the accommodating groove is reduced. And then the limiting piece is rotated, the limiting piece drives the limiting rod to rotate, one end of the limiting rod, which is far away from the limiting piece, penetrates through and is in threaded connection with the hinged part of the blade and the scissor rod, so that the limiting piece is abutted against the outer wall of the scissor rod, the limiting rod is enabled to block the blade from rotating, and the blade is convenient to fix.

Optionally, the one end that the gag lever post was kept away from the spacing piece runs through the articulated department of blade, the gag lever post stretches out the one end of blade articulated department stretches into in the holding tank and in the roof of scissor lever flushes mutually.

Through adopting above-mentioned technical scheme, when covering the holding tank, earlier with the sunshade slide into the spout along the horizontal direction in, the sunshade extrudees the spring, makes the spring receive the extrusion force compression. To release the cover of the cover plate to the notch of the accommodating groove. The blade is then rotated out of the receiving slot until the blade is rotated to a position parallel to the scissor lever. And then the shielding plate is released, and the spring props against the shielding plate to slide out of the sliding groove along the horizontal direction and slide into the accommodating groove so as to cover the notch of the accommodating groove. And then the limiting piece is rotated, and the limiting piece drives the limiting rod to rotate, so that one end of the limiting rod, which is far away from the limiting piece, penetrates through and is in threaded connection with the hinged part of the blade and the shear rod, so as to limit the rotation of the blade, and the limiting piece is abutted against the outer wall of the shear rod. One end of the limiting rod, which is far away from the limiting piece, penetrates through the hinge part of the blade and the shearing rod and stretches into the accommodating groove so as to cover the accommodating groove opening formed in the top wall of the shearing rod, and dust enters the accommodating groove along the accommodating groove opening in the top wall of the shearing rod when the tissue shearing is used in a reduced manner, so that the accommodating groove is conveniently covered.

Optionally, an insulating layer is arranged on the inner wall of the accommodating groove, an electrostatic dust suction layer is arranged on the insulating layer, and the electrostatic dust suction layer is used for adsorbing dust in the accommodating groove and on the blade.

Through adopting above-mentioned technical scheme, when accomodating the blade, rotate the spacing piece earlier, the spacing piece drives the gag lever post and rotates, rotates the gag lever post towards the direction of keeping away from the blade, rotates out the articulated department of blade and scissor lever with the gag lever post to remove the restriction of gag lever post to the blade. One end of the limiting rod, which is far away from the limiting piece, slides out of the accommodating groove so as to release the covering of the notch of the accommodating groove on the top wall of the shear rod. And then the shielding plate slides into the sliding groove along the horizontal direction, the shielding plate presses the spring, and the spring is compressed by the pressing force so as to expose the notch of the accommodating groove on the side wall of the shear bar. And then the blade is turned into the accommodating groove, so that the electrostatic dust collection layer adsorbs dust entering along the notch of the accommodating groove. The blade is rotated into the accommodating groove, so that the electrostatic dust collection layer adsorbs dust adhered to the blade, and the insulation layer can reduce the condition that static electricity is conducted to the shearing rod and the blade, so that the safety of technicians when using tissue shears is improved. Through setting up the static dust absorption layer to the dust on holding tank and the blade is accomodate to reduce the circumstances that the dust pollutes the blade, thereby be convenient for accomodate the blade.

Optionally, an adhesion layer is disposed on a side of the insulating layer facing the electrostatic dust collection layer, and the adhesion layer is used for adhering the electrostatic dust collection layer to the insulating layer.

Through adopting above-mentioned technical scheme, when changing the static dust absorption layer, the static dust absorption layer will adsorb many dust after long-time use, and the dust can weaken the effect of static dust absorption layer dust absorption. The shielding plate slides into the sliding groove along the horizontal direction, the shielding plate presses the spring, and the spring is compressed by the pressing force. So as to release the cover of the shielding plate to the notch of the containing groove and expose the notch of the containing groove on the side wall of the shear bar. And then tearing off the electrostatic dust-absorbing layer on the groove wall of the accommodating groove from the adhesive layer, and sliding the torn electrostatic dust-absorbing layer out of the accommodating groove along the notch of the accommodating groove. Placing the replaced electrostatic dust collection layer into the accommodating groove along the notch of the accommodating groove, and then adhering dust collection paper to the adhesive layer to enable the electrostatic dust collection layer to be connected with the insulating layer so as to fix the electrostatic dust collection layer in the accommodating groove, thereby facilitating replacement of the electrostatic dust collection layer.

Optionally, the scissors rod and adjacent the rotation department of scissors rod slides there is the end cover, the end cover orientation one side of scissors rod is equipped with a plurality of spliced pole, spliced pole keep away from the one end of end cover slide in the scissors rod with adjacent the rotation department of scissors rod, be equipped with the locking piece that restriction self slided on the end cover.

Through adopting above-mentioned technical scheme, when accomodating the tissue and cut, the direction that adjacent control ring moved towards being close to each other, control ring drove and cut the pole rotation, overlaps a plurality of scissors poles each other. And then the limit of the locking piece on the end cover is released, the end cover slides towards the direction close to the shear bar, and the shear bar drives the plug bar to slide, so that the plug bar slides into the rotation position of the shear bar and the adjacent shear bar along the horizontal direction. And the locking piece is used for limiting the end cover to slide, so that the rotation position of the inserting-connecting rod and the adjacent cutting rod is limited. The splicing rod is used for limiting the rotation of the shearing rod, and the shearing rods are fixed in a mutually overlapped state, so that the tissue scissors can be conveniently accommodated.

Optionally, the locking piece includes a plurality of elastic pieces that are fixed in on the end cover circumference lateral wall, cut the pole and seted up the confession the breach that the elastic piece stretched into, cut the pole in set up the confession the locking groove that the elastic piece slided in, the locking groove with the breach is linked together.

Through adopting above-mentioned technical scheme, when fixed end cover, slide the end cover towards the direction that is close to the pole that cuts, the end cover drives the grafting pole and slides into the rotation department of cutting pole and adjacent cutting pole. The end cover drives the elastic sheet to slide, and the elastic sheet slides into the locking groove along the notch, so that the elastic sheet is deformed by the extrusion force. Until the elastic sheet slides into the locking groove completely, the elastic sheet recovers deformation and is abutted on the wall of the locking groove, the elastic sheet is limited to slide out of the locking groove, and then the end cover is limited to slide so as to limit the plug rod to slide, thereby being convenient for fixing the end cover.

In summary, the present utility model includes at least one of the following beneficial technical effects:

1. the shutter is restricted from sliding by the fixing member. Through setting up the sunshade, make the sunshade cover holding tank notch, reduce the dust and get into the holding tank along the notch to in order to make holding tank keep clean and tidy, reduce when accomodating the blade again dust glues on the blade, thus reduce dust pollution tissue and cut;

2. the electrostatic dust suction layer is arranged so as to be convenient for accommodating dust on the accommodating groove and the blade, reduce the condition that the blade is polluted by the dust and be convenient for accommodating the blade;

3. through setting up the gag lever post, make the gag lever post run through and threaded connection in the articulated department of blade and scissor lever to make the gag lever post block the blade and rotate, thereby be convenient for fixed blade.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an embodiment of the present utility model.

Fig. 2 is a schematic cross-sectional view showing a stop lever according to an embodiment of the present utility model.

Fig. 3 is an enlarged view of a portion a in fig. 2.

Fig. 4 is a schematic cross-sectional view showing a shutter according to an embodiment of the present utility model.

Fig. 5 is a schematic cross-sectional view of an embodiment of the present utility model for showing an end cap.

Reference numerals illustrate: 1. cutting a rod; 11. a limiting piece; 111. a limit rod; 112. a limiting piece; 12. a receiving groove; 121. an insulating layer; 122. an adhesive layer; 123. an electrostatic dust-absorbing layer; 13. a shutter; 14. a chute; 15. a fixing member; 151. a spring; 16. an end cap; 161. inserting a connecting rod; 17. a locking member; 171. an elastic sheet; 172. a notch; 173. a locking groove; 2. a control loop; 21. a latex strip; 3. a blade.

Detailed Description

The utility model is described in further detail below with reference to fig. 1-5.

The embodiment of the utility model discloses a pair of sweat gland excision operation tissue scissors.

Referring to fig. 1, the tissue scissors comprise a plurality of scissors rods 1, a control ring 2 fixed at the lower end of the scissors rods 1, and blades 3 hinged at the upper ends of the scissors rods 1, wherein two scissors rods 1 are selected in the embodiment of the utility model, the scissors rods 1 are rotatably connected to adjacent scissors rods 1, and the rotation axes of the scissors rods 1 extend along the horizontal direction. The hinge axis of the blade 3 is parallel to the rotation axis of the scissor rod 1, the shape of the blade 3 on the scissor rod 1 is a toothless blade and a toothed blade respectively, and the scissor rod 1 is provided with a limiting piece 11 for limiting the rotation of the blade 3. The finger is inserted into the control ring 2, so that the finger controls the control ring 2 to move, the control ring 2 drives the shear rod 1 to rotate, and the shear rod 1 drives the blade 3 to move, so that the blade 3 shears tissues in a human body.

Referring to fig. 2 and 3, the limiting member 11 includes a limiting rod 111 penetrating through and screwed to the hinge portion of the blade 3 and the scissor lever 1, and a limiting plate 112 fixed to one end of the limiting rod 111 extending out of the scissor lever 1, and a rotation axis of the limiting rod 111 extends in a horizontal direction. And the limiting piece 112 is rotated, and the limiting piece 112 drives the limiting rod 111 to rotate, so that one end, far away from the limiting piece 112, of the limiting rod 111 penetrates through and is in threaded connection with the hinge joint of the blade 3 and the shear rod 1, so that the rotation of the blade 3 is limited, and the blade 3 is conveniently fixed.

Referring to fig. 3 and 4, the scissor lever 1 starts to have a receiving groove 12 into which the blade 3 is turned, the blade 3 is hinged to the wall of the receiving groove 12, and the receiving groove 12 penetrates through the top wall and the side wall of the scissor lever 1. The shear bar 1 is internally provided with a shielding plate 13 sliding along the horizontal direction, the shear bar 1 is internally provided with a chute 14 for the shielding plate 13 to slide in, and the shear bar 1 is internally provided with a fixing piece 15 for limiting the sliding of the shielding plate 13. The shielding plate 13 slides out of the sliding groove 14 along the horizontal direction and slides into the accommodating groove 12, the shielding plate 13 is fixed through the fixing piece 15, the shielding plate 13 covers the notch of the accommodating groove 12 formed in the side wall of the scissor rod 1, when the blade 3 rotates out of the accommodating groove 12, dust enters the accommodating groove 12 along the notch of the accommodating groove 12, and then when the blade 3 is accommodated, the dust is adhered to the blade 3, so that the dust pollution to the blade 3 is reduced, and the blade 3 is kept clean.

Referring to fig. 4, the fixing member 15 includes a plurality of springs 151 fixed to the wall of the chute 14, and 6 springs 151 are selected in the embodiment of the present utility model, one end of each spring 151 away from the wall of the chute 14 is fixed to the shutter 13, and the springs 151 push the shutter 13 to slide out of the chute 14 and into the receiving groove 12. The shielding plate 13 is covered on the notch of the containing groove 12 arranged on the side wall of the scissor lever 1, and the sliding condition of the shielding plate 13 when not pushed by external force is limited, so that the shielding plate 13 is fixed.

Referring to fig. 3, one end of the limit lever 111 away from the limit piece 112 penetrates through the hinge between the blade 3 and the scissor lever 1, and one end of the limit lever 111 extending out of the hinge between the blade 3 and the scissor lever 1 extends into the accommodating groove 12 in the horizontal direction. The limit rod 111 covers the notch of the accommodating groove 12 formed in the top wall of the scissor rod 1, so that dust falls into the accommodating groove 12 along the notch of the accommodating groove 12 in the top wall of the scissor rod 1, and the accommodating groove 12 is covered conveniently.

Referring to fig. 2 and 3, an insulating layer 121 is fixed on the wall of the accommodating groove 12, an adhesive layer 122 is fixed on the sidewall of the insulating layer 121, and the adhesive layer 122 is selected as a self-adhesive according to the present utility model, so that the adhesive layer 122 can be reused. An electrostatic dust-absorbing layer 123 is adhered to the sidewall of the insulating layer 121, and the electrostatic dust-absorbing layer 123 is adhered to the adhesive layer 122, connecting the electrostatic dust-absorbing layer 123 with the insulating layer 121. The electrostatic dust-absorbing layer 123 is made to absorb dust adhering to the blade 3 and dust entering the accommodating groove 12, reducing the adhesion of dust to the groove wall of the accommodating groove 12 and to the blade 3, so as to collect dust.

Referring to fig. 1 and 5, an end cover 16 is slid in a horizontal direction at the rotation position of the scissor rod 1 and the adjacent scissor rod 1, a plurality of inserting rods 161 are fixed at one side of the end cover 16 facing the scissor rod 1, the inserting rods 161 slide in the horizontal direction at the rotation position of the scissor rod 1 and the adjacent scissor rod 1, and a locking piece 17 for limiting self sliding is arranged on the end cover 16. So as to limit the insertion rod 161 from sliding out of the rotation position of the cutting rod 1 and the adjacent cutting rod 1, and further limit the rotation of the cutting rod 1, and fix the state that the cutting rods 1 are overlapped with each other, so as to facilitate the storage of the tissue scissors.

Referring to fig. 1 and 5, the locking member 17 includes a plurality of elastic pieces 171 formed on the circumferential side wall of the end cap 16, and the elastic pieces 171 are selected to be two in the embodiment of the present utility model, and the elastic pieces 171 are fixed to the end cap 16 at a side close to the scissor lever 1. The shear bar 1 is provided with a notch 172 for the elastic piece 171 to extend into at one end far away from the end cover 16, the shear bar 1 is internally provided with a locking groove 173 for the elastic piece to slide in, and the locking groove 173 is communicated with the notch 172. The end cover 16 drives the elastic sheet 171 to slide into the scissor rod 1 along the notch 172, so that the elastic sheet 171 is deformed by extrusion force, the elastic sheet 171 slides into the locking groove 173 along the notch 172, and the elastic sheet 171 recovers deformation and abuts against the groove wall of the locking groove 173 so as to limit the end cover 16 to slide out of the scissor rod 1, thereby being convenient for fixing the end cover 16.

Referring to fig. 1, the control ring 2 is wound with a latex strip 21, and fingers penetrate into the control ring 2, so that the fingers are abutted on the latex strip 21, the friction between the fingers and the control ring 2 is reduced, the situation of abrasion is reduced, technicians are protected conveniently, and the comfort level of using the tissue scissors is improved.

The embodiment of the utility model provides a tissue shear for sweat gland excision operation, which comprises the following implementation principles: when the tissue shears are used, the end cover 16 is firstly slid in a direction away from the shear rod 1, and the end cover 16 drives the elastic sheet 171 to slide out of the locking groove 173, so that the elastic sheet 171 is compressed by the extrusion force. Until the elastic sheet 171 is slid out entirely along the notch 172, the elastic sheet 171 resumes its deformation. The end cover 16 drives the inserting rod 161 to slide out of the rotation position of the shearing rod 1 and the adjacent shearing rod 1, and the limit of the inserting rod 161 to the shearing rod 1 is released. The shielding plate 13 is slid into the sliding groove 14 along the horizontal direction, the shielding plate 13 presses the spring 151, and the spring 151 is compressed by the pressing force. The blade 3 is then rotated out of the receiving slot 12 until the blade 3 is rotated into a position parallel to the scissor lever 1. The shutter 13 is released, and the spring 151 pushes the shutter 13 to slide out of the slide groove 14 in the horizontal direction and into the accommodating groove 12, so that the shutter 13 covers the notch of the accommodating groove 12, and dust is reduced from entering the accommodating groove 12 along the notch. And the limiting piece 112 is rotated, and the limiting piece 112 drives the limiting rod 111 to rotate, so that the limiting rod 111 penetrates through and is in threaded connection with the hinge joint of the blade 3 and the shear rod 1, and the rotation of the blade 3 is limited. One end of the limiting rod 111 far away from the limiting sheet 112 penetrates through the hinge joint of the blade 3 and the shear rod 1 and slides into the accommodating groove 12 so as to cover the notch of the accommodating groove 12 on the top wall of the shear rod 1 and reduce dust from entering the accommodating groove 12. To keep the inside of the accommodating groove 12 clean, and to reduce the dust in the accommodating groove 12 from adhering to the blade 3 when the blade 3 is accommodated again, thereby reducing the dust from polluting the tissue shears.

The above embodiments are not intended to limit the scope of the present utility model, so: all equivalent changes in structure, shape and principle of the utility model should be covered in the scope of protection of the utility model.

Claims (8)

1. A sweat gland excision operation tissue scissors, which is characterized in that: including a plurality of scissors (1), be fixed in control ring (2) of scissors (1) one end, articulate in scissors (1) keep away from blade (3) of control ring (2) one end, scissors (1) rotate and connect adjacent on scissors (1), be equipped with the restriction on scissors (1) blade (3) pivoted locating part (11), offer in scissors (1) supplies holding tank (12) that blade (3) were changeed in, it has sunshade (13) to slide in scissors (1), sunshade (13) are used for covering holding tank (12), be equipped with the restriction in scissors (1) shutter (13) gliding mounting (15).

2. A sweat gland resecting surgical tissue scissors as claimed in claim 1, wherein: the fixing piece (15) comprises a plurality of springs (151) fixed in the shear bar (1), a sliding groove (14) for the shielding plate (13) to slide in is formed in the shear bar (1), one end of each spring (151) is fixed on the wall of the sliding groove (14), the other end of each spring (151) is fixed on the shielding plate (13), and the springs (151) prop against the shielding plate (13) to slide out of the sliding groove (14).

3. A sweat gland resecting surgical tissue scissors as claimed in claim 1, wherein: the limiting piece (11) comprises a limiting rod (111) penetrating through and in threaded connection with the hinging part of the blade (3) and the shear rod (1), and a limiting piece (112) fixed on one end of the limiting rod (111) extending out of the shear rod (1), wherein the limiting piece (112) abuts against the side wall of the shear rod (1).

4. A sweat gland resecting surgical tissue scissors according to claim 3, wherein: one end of the limiting rod (111) far away from the limiting piece (112) penetrates through the hinge position of the blade (3) and the shear rod (1), and one end of the hinge position of the limiting rod (111) extending out of the blade (3) and the shear rod (1) extends into the accommodating groove (12) and is flush with the top wall of the shear rod (1).

5. A sweat gland resecting surgical tissue scissors as claimed in claim 1, wherein: an insulating layer (121) is arranged on the inner wall of the accommodating groove (12), an electrostatic dust suction layer (123) is arranged on the insulating layer (121), and the electrostatic dust suction layer (123) is used for sucking dust in the accommodating groove (12) and on the blade (3).

6. A sweat gland resecting surgical tissue scissors as claimed in claim 5, wherein: an adhesion layer (122) is arranged on one side, facing the electrostatic dust collection layer (123), of the insulation layer (121), and the adhesion layer (122) is used for adhering the electrostatic dust collection layer to the insulation layer (121).

7. A sweat gland resecting surgical tissue scissors according to claim 3, wherein: the utility model discloses a scissors, including scissors (1) and articulated department, scissors (1) are located, and the articulated department of scissors (1) slides has end cover (16), end cover (16) orientation one side of scissors (1) is equipped with a plurality of spliced pole (161), spliced pole (161) keep away from one end of end cover (16) slide in the pivot of scissors (1), be equipped with on end cover (16) and restrict self gliding locking piece (17).

8. The sweat gland resection surgical tissue scissors according to claim 7, wherein: the locking piece (17) comprises a plurality of elastic pieces (171) fixed on the circumferential side wall of the end cover (16), a notch (172) for the elastic pieces (171) to extend in is formed in the scissor (1), a locking groove (173) for the elastic pieces (171) to slide in is formed in the scissor (1), and the locking groove (173) is communicated with the notch (172).