CN111453515A - Use method of release paper adhesive tape treatment device for clinical laboratory sample test tubes - Google Patents

Abstract

The application discloses a release paper adhesive tape processing device for a clinical laboratory sample test tube, which comprises a device shell, an adhesive tape winding device, an action device and a clutch device; the using method comprises the following steps: step 1, drawing a release tape to drive a tape winding device; and 2, respectively operating the two operating devices: step 2.1, the actuating device positioned at the rear acts; step 2.2, the action device positioned in front acts; further comprising step 3, amplitude adjustment of the action device: step 3.1, unlocking the torque locking device; step 3.2, adjusting the motion amplitude of the reciprocating connecting rod; and 3, repeating the step 3.1 and the step 3.2, and adjusting the two action devices in sequence.

Description

Use method of release paper adhesive tape treatment device for clinical laboratory sample test tubes

Technical Field

The application relates to the technical field of medical equipment, in particular to a using method of a release paper adhesive tape processing device for a specimen test tube in a clinical laboratory.

Background

Clinical laboratories are the bridge between clinical and basic medicine, and include clinical chemistry, clinical microbiology, clinical immunology, hematology, humoral, and transfusions. The patient needs to place a body fluid specimen in the tube and hand over to the clinical laboratory window when visiting the doctor.

In the prior art, standard labels are required to be pasted on test tubes to record disease information of patients. However, for some special patients, such as the elderly with poor memory, even if the nurse has completed the previous task of placing the body fluid in the test tube, where to send the test tube to whom, and when to send the information, it is difficult to write down on the standard label. Therefore, a nurse often tears off the cloth tape used for fixing the infusion needle and stands on the test tube, and then clearly writes details needing attention. The cloth tape is difficult to tear and write, and the cloth tape for fixing the infusion needle is wasted.

It is therefore desirable to design a release paper tape processing apparatus that can automatically imprint common information and can press a tooth mark in advance for tearing.

Disclosure of Invention

The application provides a use method of a release paper adhesive tape processing device for a specimen test tube in a clinical laboratory;

the release paper adhesive tape processing device for the clinical laboratory sample test tube comprises a device shell, an adhesive tape winding device, an action device and a clutch device;

the device shell comprises a hollow rectangular shell body, a paper outlet opening arranged on the right side of the front end face of the shell body and a hand-dialing side hole arranged on the left side of the inner wall of the shell body, wherein an output plug block is fixedly arranged on the upper end face of the inner cavity of the shell body, and two output jacks along the left and right directions are arranged in the output plug block;

the adhesive tape winding device is used for winding and releasing a release adhesive tape, and comprises:

the adhesive tape winding drum comprises an adhesive tape mandrel which is longitudinally arranged at the bottom of the shell body, an adhesive tape winding drum which is rotatably sleeved on the adhesive tape mandrel and used for winding a release adhesive tape, and an input gear which is arranged at the lower end of the adhesive tape winding drum, wherein the end part of the release adhesive tape penetrates out of the shell of the device through the paper outlet opening;

the middle wheel set comprises a middle mandrel which is rotatably arranged at the bottom of the shell body and a middle gear which is rotatably arranged on the middle mandrel and is in transmission connection with the input gear;

the output wheel set comprises an output mandrel arranged at the bottom of the shell body, an output gear which is rotatably arranged on the output mandrel and is in transmission connection with the intermediate gear, and a first bevel gear formed at the upper end of the output gear;

the actuating devices are provided with a pair, the front and the back of the clutch device are respectively provided with one actuating device, and the actuating devices are used for performing stamping or cutting actions on the release adhesive tape;

the side of each actuating device close to the clutch device is called the proximal end, and the side of each actuating device far away from the clutch device is called the distal end, and the actuating device comprises:

the auxiliary rotating element comprises an auxiliary base arranged on the upper end surface of the device shell, an auxiliary middle hole which is arranged on the auxiliary base in a front-back penetrating manner, an auxiliary concave ring formed in the middle of the auxiliary middle hole, an auxiliary disc which is rotatably arranged in the auxiliary middle hole, an auxiliary convex ring which is formed on the periphery of the auxiliary disc and matched with the auxiliary concave ring, and an auxiliary jack which is arranged at one end of the auxiliary disc far away from the clutch device along the radial direction; the end face of the auxiliary disc close to the clutch device is circumferentially and uniformly provided with meshing tooth marks arranged along the radial direction;

the driving rotating element comprises a driving base arranged on the upper end surface of the device shell, a driving middle hole which is arranged on the driving base in a front-back penetrating way, a driving concave ring which is formed in the middle of the driving middle hole, a driving disc which is rotatably arranged in the driving middle hole, a driving convex ring which is formed on the outer edge of the driving disc and is rotatably arranged in the driving concave ring, and a driving cylinder which is arranged at the far end of the driving disc and penetrates through the device shell, the device comprises a clamping ring, a far-end jack, a near-end jack, a separating ring, a radial sliding hole and a sliding side hole, wherein the clamping ring is formed at the far end of a driving cylinder body and clamped on the inner wall of a shell of the device;

the torque adjusting device comprises a torque mandrel, an expanding convex ring, a driving bevel gear, an output screw rod, a small-diameter inserted rod, a driven bevel gear, a sliding connecting rod and a sliding connecting rod, wherein the torque mandrel is rotatably inserted into the far-end jack and the near-end jack, the expanding convex ring is formed on the outer wall of the torque mandrel and clamped at the far-end position of the near-end jack at the far-end position of the separating circular ring, the driving bevel gear is formed at the near-end of the torque mandrel, the output screw rod is radially arranged in the sliding side hole, the small-diameter inserted rod is arranged at the end part of the output screw rod and inserted into the near-end jack, the driven bevel gear is arranged at the end part of the small-diameter inserted rod and is in transmission connection with the driving bevel gear, the far-end of the torque adjusting device is inserted into;

the connecting rod assembly comprises a follow-up connecting rod hinged to the sliding connecting rod and located between the auxiliary rotating element and the driving rotating element, and a reciprocating connecting rod hinged to the follow-up connecting rod and inserted into the corresponding output insertion hole;

the actuating device also comprises a torque locking device, which comprises a torque sleeve inserted in the near-end jack and sleeved outside the torque mandrel, a locking insert arranged at the near end of the torque sleeve and abutted against the adjusting rack bar, a compression spring wound on the torque mandrel and positioned between the torque sleeve and the separating ring, barrel side holes circumferentially and uniformly distributed on the driving barrel, sleeve outer rods circumferentially and uniformly distributed on the outer wall of the torque sleeve and in one-to-one insertion fit with the barrel side holes, an internal thread barrel rotatably sleeved on the outer wall of the driving barrel, and a torsion convex ring formed at the far end of the outer wall of the internal thread barrel, wherein the far end of the sleeve outer rod is formed with an external thread screwed with the internal thread barrel;

a toothed cutter is arranged downwards on the right side of a reciprocating connecting rod of the action device positioned in front;

the right side of the reciprocating connecting rod of the actuating device positioned at the rear part is downwards provided with a stamping plate;

and a second bevel gear in transmission connection with the first bevel gear is also formed on the outer wall of the driving cylinder of the actuating device positioned at the rear.

The clutch device is used for realizing the transmission connection of the two action devices; the clutch device includes:

the clutch lantern rings are arranged in pairs and fixed on the upper end surface of the device shell;

the rotating assembly comprises a rotating mandrel which is rotatably inserted into the clutch sleeve ring, the front end and the rear end of the rotating mandrel are respectively provided with a mandrel retaining ring which is clamped at the outer end of the clutch sleeve ring, and the middle part of the rotating mandrel is formed with a circular middle cavity, an arc-shaped side hole which is arranged on the side surface of the circular middle cavity along the circumferential direction and an axial side hole which is arranged on the side surface of the circular middle cavity along the axial direction;

the extrusion element comprises an extrusion rotating ring which is rotatably sleeved on the outer wall of the rotating mandrel, a connecting cross shaft which is fixed on the inner wall of the extrusion rotating ring and is inserted into the arc-shaped side hole, and a rotating pressure plate which is rotatably arranged in the circular cavity, wherein a circle of spherical convex blocks are respectively and uniformly distributed on the front end surface and the rear end surface of the rotating pressure plate in the circumferential direction; the spherical convex blocks and the spherical grooves are arranged in a staggered manner in a normal state;

the locking plug-in units are provided with two groups, a group of locking plug-in units are respectively arranged at the front end part and the rear end part of the rotating assembly, each group of locking plug-in units comprises at least three locking plug-in units which are uniformly distributed in the circumferential direction, each locking plug-in unit comprises a locking jack which is arranged at the end part of the rotating assembly and is communicated with the circular middle cavity, a locking plug-in block which is slidably inserted into the locking jack, a spring concave hole which is formed at one end, far away from the circular middle cavity, of the locking plug-in block, a spring baffle which is fixed on the locking jack and corresponds to the spring concave hole, and;

the group of locking insertion blocks positioned at the front is in butt contact with an auxiliary disc of the action device positioned at the front;

the rear set of locking tabs contact the rear auxiliary disk of the actuator.

As a further implementation scheme, a rotary roller is rotatably arranged on the right side of the inner wall of the device shell, and the release tape rolls around the rotary roller and then extends out of the paper outlet opening.

As a further embodiment, the outer edges of the proximal end and the distal end of the expanding convex ring are circumferentially and uniformly provided with balls.

The using method comprises the following steps:

step 1, drawing the release tape to drive the tape winding device:

the part of the pull release tape exposed at the front end of the device shell drives the tape reel and the input gear to rotate;

the input gear drives the intermediate gear, the output gear and the first bevel gear to rotate;

and 2, respectively operating the two operating devices:

step 2.1, the action device positioned at the rear acts:

the first bevel gear drives a second bevel gear, a driving cylinder, a clamping ring, a driving disc and a driving convex ring of the actuating device positioned behind to rotate;

the driving disc drives the sliding connecting rod, the connecting rod nut, the adjusting toothed bar and the auxiliary disc to rotate;

the sliding connecting rod rotates and drives the reciprocating connecting rod to reciprocate in the corresponding output jack through the follow-up connecting rod, and the reciprocating connecting rod drives the stamping plate to stamp traces on the release adhesive tape

Step 2.2, the action device positioned in front acts:

the auxiliary disc of the actuating device positioned at the rear part drives the group of locking plug-in units positioned at the rear part to rotate, and further drives the rotating assembly, the extrusion element and the group of locking plug-in units positioned at the front part to rotate;

the group of locking plug-in units positioned in front drives the auxiliary disc of the action device positioned in front to rotate, and the auxiliary disc positioned in front drives the corresponding sliding connecting rod, the connecting rod nut, the adjusting toothed bar, the driving disc, the driving convex ring, the driving cylinder and the clamping ring to rotate;

the sliding connecting rod rotates and drives the reciprocating connecting rod to reciprocate in the corresponding output jack through the follow-up connecting rod, and the reciprocating connecting rod drives the toothed cutter to cut tooth marks on the release tape.

As a further embodiment, further comprising the steps of:

further comprising step 3, amplitude adjustment of the action device:

step 3.1, unlocking the torque locking device:

the part of the driving cylinder exposed at the rear end of the device shell is held by one hand, fingers of the other hand penetrate through the hand-pulling opening to be inserted into the device shell, and the finger tips are used for pulling the twisting convex ring and the internal thread cylinder to enable the internal thread cylinder to rotate relative to the driving cylinder;

the internal thread cylinder drives the sleeve outer rod, the torque sleeve and the locking insert block to retract by overcoming the elasticity of the compression spring, and the locking insert block is separated from the adjusting toothed bar;

the adjusting toothed bar, the sliding connecting rod and the connecting rod nut are unlocked;

step 3.2, adjusting the motion amplitude of the reciprocating connecting rod:

the part of the driving cylinder exposed at the rear end of the device shell is held by one hand and kept still, and the other hand rotates the part of the torque mandrel exposed at the rear end of the driving cylinder, so that the expanding convex ring and the driving bevel gear are driven to rotate;

the driving bevel gear drives the driven bevel gear, the small-diameter inserted rod and the output screw rod to rotate;

the output screw rod rotates to drive the connecting rod nut, the sliding connecting rod and the adjusting toothed bar to move along the direction of the radial sliding hole;

the rotating radius R of the sliding connecting rod is changed, so that the amplitude of the reciprocating motion of the reciprocating connecting rod is changed;

and 3, repeating the step 3.1 and the step 3.2, and adjusting the two action devices in sequence.

Has the advantages that:

according to the release paper adhesive tape processing device for the clinical laboratory sample test tubes, the action device can be driven to act by pulling the release adhesive tape, and the back surface of the release adhesive tape is imprinted for carrying out marks of warning information or other information and cutting tooth marks so as to be torn conveniently.

The invention relates to a release paper adhesive tape processing device for a clinical laboratory sample test tube, which is characterized in that a slippage connecting rod has extremely high posture stability in a normal state:

firstly, thanks to the nut-screw fit between the connecting rod nut and the output screw, the connecting rod nut has a self-locking effect, i.e. the connecting rod nut can only be driven to move by rotating the output screw, but cannot be driven to rotate by rotating the connecting rod nut. Therefore, the postures of the connecting rod nut and the sliding connecting rod are stable in a normal state;

then, the existence of the torque locking device further ensures that the postures of the connecting rod nut and the sliding connecting rod are stable under normal conditions, so that the sliding connecting rod cannot move along the radial direction to cause the change of the rotating radius in the rotating process of the action device.

The invention relates to a release paper adhesive tape processing device for a specimen test tube in a clinical laboratory, which can adjust the action amplitude of an action device, further adjust the cutting force of a serrated knife and the force of a pressing plate gum trace:

a finger penetrates through the hand poking opening to be inserted into the device shell, and the finger tip pokes the torsion convex ring and the internal thread cylinder to rotate; the internal thread cylinder drives the sleeve outer rod, the torque sleeve and the locking insert block to retract by overcoming the elasticity of the compression spring, and the locking insert block is separated from the adjusting toothed bar; the adjusting toothed bar, the sliding connecting rod and the adjusting toothed bar are unlocked;

the driving cylinder body is pinched by one hand, and the torque mandrel, the expanding convex ring and the driving bevel gear are rotated by the other hand; the driving bevel gear drives the driven bevel gear, the small-diameter inserted rod and the output screw rod to rotate; the output screw rod rotates to drive the sliding connecting rod and the adjusting toothed rod to move along the direction of the radial sliding hole; the rotating radius of the sliding connecting rod is changed, so that the amplitude of the reciprocating motion of the reciprocating connecting rod is changed; and sequentially adjusting the two action devices.

The invention relates to a release paper adhesive tape processing device for a specimen test tube in a clinical laboratory, which can also realize phase adjustment between two action devices, and further adjust the time interval between the cutting action of a toothed cutter and the impressing action of a stamping plate:

inserting a hand into the device shell through the hand-pulling opening, pulling the extrusion swivel, the connection cross shaft, the rotation pressure plate and the spherical convex block by fingertips of other fingers while pinching the rotating assembly by a thumb and a forefinger until the spherical convex block is aligned with the spherical groove and is inserted and matched with the spherical groove; the locking pressure spring acts on the locking plug-in block, the pressed push disc retracts, the locking plug-in block is separated from contact with the corresponding auxiliary disc, namely the clutch device is separated from contact with the two action devices; the relative rotation of the two action devices can be realized by rotating any action device, and the phase adjustment between the two action devices is realized.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings needed to be used in the embodiments will be briefly described below.

Fig. 1 is a sectional view of an embodiment of the release tape.

Fig. 2 is a partial cross-sectional view of one embodiment of the release tape.

FIG. 3 is a cross-sectional view of one embodiment of section A-A of FIG. 1.

FIG. 4 is a cross-sectional view of an alternative embodiment of section A-A of FIG. 1.

Fig. 5 is a sectional view of one embodiment of the actuator.

Fig. 6 is a sectional view of one embodiment of the actuator.

Fig. 7 is a cross-sectional view of one embodiment of the clutch device.

Fig. 8 is a cross-sectional view of another embodiment of the clutch device.

Fig. 9 is a sectional view taken along line B-B in fig. 7.

FIG. 10 is a top view of one embodiment of the clutch device.

Fig. 11 is a schematic view of an embodiment of the release tape.

Icon:

a. release tape, a1. adhesive layer, a2 release paper;

1. the device comprises a device shell, 11, a shell body, 12, a paper outlet opening, 13, a hand-poking side hole and 14, an output plug block;

2. the belt winding device comprises a belt winding device, 21 belt reels, 21a belt mandrels, 21b belt reels, 21c input gears, 22 intermediate wheel groups, 22a intermediate mandrels, 22b intermediate gears, 23 output wheel groups, 23a output mandrels, 23b output gears and 23c first bevel gears;

3. an actuating device;

31. an auxiliary rotating member 31a auxiliary base 31b auxiliary center hole 31c auxiliary concave ring 31d auxiliary circular disc 31e auxiliary convex ring 31f auxiliary insertion hole;

32. an active rotating element, 32a, an active base, 32b, an active middle hole, 32c, an active concave ring, 32d, an active disc, 32e, an active convex ring, 32f, an active cylinder, 32g, a clamping ring, 32h, a distal end jack, 32i, a proximal end jack, 32j, a separation ring, 32k, a radial slide hole and 32l, a slide side hole;

33. a torque adjusting device, 33a, a rotating mandrel, 33b, an expanding convex ring, 33c, a driving bevel gear, 33d, an output screw rod, 33e, a small-diameter inserted rod, 33f, a driven bevel gear, 33g, a sliding connecting rod, 33h, an adjusting toothed rod and 33i, a connecting rod nut;

34. a torque locking device, 34a. a torque sleeve, 34b. a locking insert, 34c. a compression spring, 34d. a barrel side hole, 34e. a sleeve outer rod, 34f. an internal threaded barrel, 34g. a torsion convex ring;

35. a connecting rod assembly, 35a, a follow-up connecting rod and 35b, a reciprocating connecting rod;

4. the clutch device comprises a clutch device body 41, a clutch collar 42, a rotating assembly 42a, a rotating mandrel 42b, a mandrel retaining ring 42c, a circular middle cavity 42d, an arc-shaped side hole 42e, a circumferential side hole 43, a pressing element 43a, a pressing rotating ring 43b, a connecting transverse shaft 43c, a rotating pressure plate 43d, a spherical convex block 43e, a pressed push plate 43e, an axial side block 43f, a spherical groove 43g, a locking plug 44, a locking jack 44a, a locking plug 44b, a spring concave hole 44c, a spring retaining plate 44d and a locking pressure spring 44e.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application clearer, the technical solutions in the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are some embodiments of the present application, but not all embodiments. The components of the embodiments of the present application, generally described and illustrated in the figures herein, can be arranged and designed in a wide variety of different configurations.

The release tape a in the present application refers to a tape in which release paper a2 is disposed on the adhesive surface of the adhesive layer a1 of the adhesive tape, and the release paper a2 may be silicone paper or other material having a release function.

When in use, the release tape a is wound on the tape reel 21, the release paper a2 of the release tape a is tightly attached to the right inner wall of the housing body 11, and the non-adhesive surface of the adhesive layer a1 of the release tape a faces the toothed blade or the platen on the reciprocating link 25 b.

The application provides a release paper adhesive tape processing device for a specimen test tube in a clinical laboratory, which comprises a device shell 1, an adhesive tape winding device 2, an action device 3 and a clutch device 4;

the device shell 1 comprises a hollow rectangular shell body 11, a paper outlet opening 12 arranged on the right side of the front end face of the shell body 1 and a hand-operated side hole 13 arranged on the left side of the inner wall of the shell body 11, wherein an output plug block 14 is fixedly arranged on the upper end face of the inner cavity of the shell body 1, and two output jacks 15 in the left-right direction are arranged in the output plug block 14;

the adhesive tape winding device 2 is used for winding and releasing a release adhesive tape a, and the adhesive tape winding device 2 includes:

the adhesive tape winding drum 21 comprises an adhesive tape core shaft 21a arranged at the bottom of the shell body 1 along the longitudinal direction, an adhesive tape winding drum 21b which is rotatably sleeved on the adhesive tape core shaft 21a and used for winding a release adhesive tape a, and an input gear 21c arranged at the lower end of the adhesive tape winding drum 21b, wherein the end part of the release adhesive tape a penetrates out of the device shell 1 through the paper outlet opening 12;

the middle wheel set 22 comprises a middle mandrel 22a which is rotatably arranged at the bottom of the shell body 1 and a middle gear 22b which is rotatably arranged on the middle mandrel 22a and is in transmission connection with the input gear 21 c;

the output wheel set 23 comprises an output mandrel 23a arranged at the bottom of the shell body 1, an output gear 23b which is rotatably arranged on the output mandrel 23a and is in transmission connection with the intermediate gear 22b, and a first bevel gear 23c formed at the upper end of the output gear 23 b;

the actuating devices 3 are provided with a pair, the front and the back of the clutch device 4 are respectively provided with one actuating device 3, and the actuating devices 3 are used for performing stamping or cutting actions on the release adhesive tape a;

a side of each of the action means 3 close to the clutch means 4 is referred to as a proximal end, and a side of each of the action means 3 far from the clutch means 4 is referred to as a distal end, the action means 3 including:

an auxiliary rotating element 31, which comprises an auxiliary base 31a arranged on the upper end surface of the device shell 1, an auxiliary middle hole 31b penetrating the auxiliary base 31a in the front-back direction, an auxiliary concave ring 31c formed in the middle of the auxiliary middle hole 31b, an auxiliary circular disc 31d rotatably arranged in the auxiliary middle hole 31b, an auxiliary convex ring 31e formed on the periphery of the auxiliary circular disc 31d and matched with the auxiliary concave ring 31c, and an auxiliary inserting hole 31f arranged on one end of the auxiliary circular disc 31d far away from the clutch device 4 along the radial direction; the end surface of the auxiliary disc 31d close to the clutch device 4 is circumferentially and uniformly provided with meshing tooth marks arranged along the radial direction;

an active rotating element 32, which comprises an active base 32a arranged on the upper end surface of the device shell 1, an active central hole 32b arranged on the active base 32a in a front-back through manner, an active concave ring 32c formed in the middle of the active central hole 32b, an active disc 32d rotatably arranged in the active central hole 32b, an active convex ring 32e formed on the outer edge of the active disc 32d and rotatably arranged in the active concave ring 32c, an active cylinder 32f arranged at the far end of the active disc 32d and arranged through the device shell 1, a clamping ring 32g formed at the far end of the active cylinder 32f and clamped on the inner wall of the device shell 1, a far end jack 32h arranged at the far end of the active cylinder 32f in a radial direction, a near end jack 32i arranged at the near end of the active cylinder 32f and in the middle of the active disc 32d in a radial direction, a separation ring 32j arranged in the near end jack 32i, A radial slide hole 32k provided radially inside the driving disk 32d and communicating with the proximal insertion hole 32i, a slide side hole 32l provided at the proximal end of the driving disk 32d and communicating with the radial slide hole 32 k;

the torque adjusting device 33 comprises a torque mandrel 33a which is rotatably inserted into the far-end insertion hole 32h and the near-end insertion hole 32i, an expanding convex ring 33b which is formed on the outer wall of the torque mandrel 33a and clamped at the far-end position of the near-end insertion hole 32i on the separating circular ring 32j, a drive bevel gear 33c which is formed at the near-end of the torque mandrel 33a, an output screw rod 33d which is radially arranged in the sliding side hole 32l, a small-diameter insertion rod 33e which is arranged at the end of the output screw rod 33d and inserted into the near-end insertion hole 32i, a driven bevel gear 33f which is arranged at the end of the small-diameter insertion rod 33e and is in transmission connection with the drive bevel gear 33c, the torque adjusting device 33 further comprises a sliding connecting rod 33g of which the far-end is inserted into the sliding side hole 32l and the near-end is inserted into the auxiliary insertion hole 31f, and an adjusting toothed rod 33h which is inserted, the far end of the sliding connecting rod 33g is provided with a connecting rod nut 33i meshed with the output screw rod 33 d;

a link assembly 35 including a follower link 35a hinged to the sliding link 33g at a position between the auxiliary rotating member 31 and the driving rotating member 32, and a reciprocating link 35b hinged to the follower link 35a and inserted into the corresponding output insertion hole 15;

the action device 3 further comprises a torque locking device 34, which comprises a torque sleeve 34a inserted in the near-end jack 32i and sleeved outside the torque mandrel 33a, a locking plug 34b arranged at the near end of the torque sleeve 34a and abutted against the adjusting toothed bar 33h, a compression spring 34c wound on the torque mandrel 33a and positioned between the torque sleeve 34a and the separating ring 32j, cylinder side holes 34d circumferentially and uniformly distributed on the driving cylinder 32f, sleeve outer bars 34e circumferentially and uniformly distributed on the outer wall of the torque sleeve 34a and in one-to-one insertion fit with the cylinder side holes 34d, an internal thread cylinder 34f rotatably sleeved on the outer wall of the driving cylinder 32f, and a torsion convex ring 34g formed at the far end of the outer wall of the internal thread cylinder 34f, the far end of the sleeve outer rod 34e is formed with an external thread which is screwed with the internal thread cylinder 34 f;

a toothed cutter is arranged downwards on the right side of a reciprocating connecting rod 35b of the action device 3 positioned in front;

a platen is arranged on the rear action device 3 with the right side of the reciprocating connecting rod 35b facing downwards;

the serrated knife is a longitudinally-arranged long knife with sharp teeth, and the stamping plate is a stamping plate which is pre-engraved with characters corresponding to common information and coated with red or ink for stamping characters on the non-adhesive surface of the adhesive layer a1.

Furthermore, a paint opening is formed in the position, corresponding to the stamping plate, of the upper end face of the shell body 1, and is used for coating red or paint on the right side of the stamping plate through a hairbrush and the like, so that the phenomenon that clear character marks cannot be stamped after frequent use is avoided.

Still further, be connected through foraminiferous connecting seat between serrated knife or the platen and the reciprocal connecting rod 35b, foraminiferous connecting seat is provided with and is used for the cover to establish the jack on reciprocal connecting rod 35b, terminal surface and rear end face are equipped with soft adhesive layer before the jack inner wall, make serrated knife or platen can carry out a small amount of removal for reciprocal connecting rod 35b in the front and back direction for serrated knife or platen press down from the instant of type sticky tape a, can continue to drive serrated knife or platen and remove a segment distance and not blocked from type sticky tape a, remove a segment distance back serrated knife or platen and retract for can go out paper in succession from type sticky tape a.

And a second bevel gear 36 in transmission connection with the first bevel gear 23c is formed on the outer wall of the driving cylinder 32f of the actuating device 3 positioned at the rear.

The sliding connecting rod 33g has extremely high posture stability under a normal state:

firstly, thanks to the nut-screw fit between the connecting rod nut 33i and the output screw 33d, the connecting rod nut 33 has a self-locking effect, i.e. the connecting rod nut 33i can only be driven to move by rotating the output screw 33d, and the connecting rod nut 33i cannot be moved to drive the output screw 33d to rotate. Therefore, the postures of the connecting rod nut 33i and the sliding connecting rod 33g are stable in a normal state;

then, the presence of the torque lock device 34 further ensures that the postures of the link nut 33i and the slip link 33g are stable in a normal state, so that the slip link 33g does not move in the radial direction during the rotation of the action device 3 to cause a change in the rotation radius.

The clutch device 4 is used for realizing the transmission connection of the two action devices 3; the clutch device 4 includes:

a pair of clutch collars 41, wherein the clutch collars 41 are fixed on the upper end surface of the device shell 1;

the rotating assembly 42 comprises a rotating mandrel 42a which is rotatably inserted into the clutch collar 41a, the front end and the rear end of the rotating mandrel 42a are respectively provided with a mandrel baffle ring 42b which is clamped at the outer end of the clutch collar 41, the middle part of the rotating mandrel 42a is formed with a circular middle cavity 42c, an arc-shaped side hole 42d which is arranged on the side surface of the circular middle cavity 42c along the circumferential direction, and an axial side hole 42e which is arranged on the side surface of the circular middle cavity 42c along the axial direction;

the extrusion element 43 comprises an extrusion rotating ring 43a which is rotatably sleeved on the outer wall of the rotating mandrel 42a, a connecting transverse shaft 43b which is fixed on the inner wall of the extrusion rotating ring 43a and is inserted into the arc-shaped side hole 42d, and a rotating pressure plate 43c which is rotatably arranged in the circular middle cavity 42c, a circle of spherical convex blocks 43d are respectively and evenly distributed on the front end surface and the rear end surface of the rotary pressure plate 43c in the circumferential direction, said pressing element 43 further comprises a pressed pushing disk 43e slidably inserted in said circular central cavity 42c, the two pressed push disks 43e are symmetrically distributed on the front side and the rear side of the rotary pressure disk 43c, the side surface of each pressed push disk 43e is respectively provided with an axial side block 43f which is in inserted connection with the axial side hole 42e, the end surface of the pressed pushing disc 43e close to the rotating pressure disc 43c is also circumferentially and uniformly provided with spherical grooves 43g matched with the spherical bumps 43 d; the spherical projection 43d and the spherical groove 43g are arranged in a staggered manner in a normal state;

two groups of locking plug-in units 44 are provided, a group of locking plug-in units 44 is respectively provided at the front end and the rear end of the rotating assembly 42, each group of locking plug-in units 44 comprises at least three locking plug-in units 44 uniformly distributed circumferentially, each locking plug-in unit 44 comprises a locking jack 44a arranged at the end of the rotating assembly 42 and communicated with the circular middle cavity 42c, a locking plug-in block 44b slidably inserted in the locking jack 44a, a spring concave hole 44c formed at one end, far away from the circular middle cavity 42c, of the locking plug-in block 44b, a spring baffle 44d fixed on the locking jack 44a and corresponding to the spring concave hole 44c, and a locking pressure spring 44e arranged in the spring concave hole 44c and abutted to the spring baffle 44 d;

the one set of lock insertion pieces 44b located forward abuts against and contacts the auxiliary disk 31d of the action device 3 located forward;

the one set of lock projections 44b located rearward abuts against and contacts the auxiliary disk 31d of the actuator 3 located rearward.

As a further embodiment, a rotary roller 16 is rotatably arranged at the right side of the inner wall of the device shell 1, and the release tape a is wound around the rotary roller 16 and then extends out of the paper outlet opening 12.

As a further embodiment, the proximal outer edge and the distal outer edge of the enlarged convex ring 33b are circumferentially and uniformly provided with balls.

The utility model provides a clinical laboratory's sample test tube is with leaving type paper sticky tape processing apparatus's application method which characterized in that: the method comprises the following steps:

step 1, drawing the release tape a to drive the tape winding device 2:

the part of the drawing release tape a exposed at the front end of the device shell 1 drives the tape reel 21b and the input gear 21c to rotate;

the input gear 21c drives the intermediate gear 22b, the output gear 23b and the first bevel gear 23c to rotate;

and 2, respectively operating the two operating devices 3:

step 2.1, the action device 3 positioned at the rear acts:

the first bevel gear 23c drives the second bevel gear 36, the driving cylinder 32f, the clamping ring 32g, the driving disc 32d and the driving convex ring 32e of the actuating device 3 positioned at the rear to rotate;

the driving disc 32d drives the sliding connecting rod 33g, the connecting rod nut 33i, the adjusting toothed bar 33h and the auxiliary disc 31d to rotate;

the sliding connecting rod 33g rotates and drives the reciprocating connecting rod 35b to reciprocate in the corresponding output jack 35 through the following connecting rod 35a, and the reciprocating connecting rod 35b drives the stamping plate to stamp traces on the release adhesive tape a

Step 2.2, the action device 3 positioned in front acts:

the auxiliary disc 31d of the rear actuating device 3 drives the rear set of locking inserts 44 to rotate, and further drives the rotating assembly 42, the pressing element 43 and the front set of locking inserts 44 to rotate;

the group of locking inserts 44 positioned in front drives the auxiliary disc 31d of the action device 3 positioned in front to rotate, and the auxiliary disc 31d positioned in front drives the corresponding sliding connecting rod 33g, the connecting rod nut 33i, the adjusting toothed bar 33h, the driving disc 32d, the driving convex ring 32e, the driving cylinder 32f and the clamping ring 32g to rotate;

the sliding connecting rod 33g rotates and drives the reciprocating connecting rod 35b to reciprocate in the corresponding output insertion hole 35 through the follow-up connecting rod 35a, and the reciprocating connecting rod 35b drives the toothed cutter to cut tooth marks on the release tape a.

As a further embodiment, further comprising the steps of:

further comprising step 3, amplitude adjustment of the action device 3:

step 3.1, unlocking the torque locking device 34:

the part of the driving cylinder 32f exposed at the rear end of the device shell 1 is held by one hand, the fingers of the other hand are inserted into the device shell 1 through the hand-pulling opening 13, and the finger tips are used for pulling the twisting convex ring 34g and the internal thread cylinder 34f to rotate relative to the driving cylinder 32 f;

the internal thread cylinder 34f drives the sleeve outer rod 34e, the torque sleeve 34a and the locking insert 34b to retract against the elastic force of the compression spring 34c, and the locking insert 34b is separated from contact with the adjusting toothed rod 33 h;

the adjusting toothed bar 33h, the sliding connecting rod 33g and the connecting rod nut 33i are unlocked;

step 3.2, adjusting the motion amplitude of the reciprocating connecting rod 35 b:

the part of the driving cylinder 32f exposed at the rear end of the device shell 1 is held by one hand, and the other hand rotates the part of the torque mandrel 33a exposed at the rear end of the driving cylinder 32f, so that the expanding convex ring 33b and the driving bevel gear 33c are driven to rotate;

the driving bevel gear 33c drives the driven bevel gear 33f, the small-diameter inserted link 33e and the output screw 33d to rotate;

the output screw rod 33d rotates to drive the connecting rod nut 33i, the sliding connecting rod 33g and the adjusting toothed bar 33h to move along the direction of the radial sliding hole 32 k;

the rotation radius R of the sliding connecting rod 33g is changed, so that the amplitude of the reciprocating motion of the reciprocating connecting rod 35b is changed;

and 3, repeating the step 3.1 and the step 3.2, and sequentially adjusting the two action devices 3.

The utility model provides a clinical laboratory's sample test tube is with preconditioning method from type paper sticky tape processing apparatus which characterized in that: the method comprises the following steps:

inserting the hand into the device housing 1 through the hand-dialing opening 13, and dialing and extruding the rotating ring 43a, the connecting transverse shaft 43b, the rotating pressure plate 43c and the spherical convex block 43d by the fingertips of other fingers while pinching the rotating assembly 42 by the thumb and the forefinger until the spherical convex block 43d is aligned with and attached to the spherical groove 43 g;

the locking pressure spring 44e acts on the spring concave hole 44c and the locking insert 44b to enable the spring concave hole and the locking insert 44b to retract so as to enable the pair of pressed pushing disks 43e to move close to each other, the locking insert 44b is separated from contact with the corresponding auxiliary disk 31d, namely the clutch device 4 is separated from contact with the two action devices 3 respectively;

the relative rotation of the two action devices 3 can be realized by rotating any action device 3, and the phase adjustment between the two action devices 3 is realized.

The above description is only a preferred embodiment of the present application and is not intended to limit the present application, and various modifications and changes may be made by those skilled in the art. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (4)

1. The utility model provides a clinical laboratory's sample test tube is with leaving type paper sticky tape processing apparatus's application method which characterized in that:

the release paper adhesive tape processing device for the clinical laboratory sample test tube comprises a device shell (1), an adhesive tape winding device (2), an action device (3) and a clutch device (4);

the device shell (1) comprises a hollow rectangular shell body (11), a paper outlet opening (12) arranged on the right side of the front end face of the shell body (1), and a hand-dialing side hole (13) arranged on the left side of the inner wall of the shell body (11), wherein an output plug block (14) is fixedly arranged on the upper end face of the inner cavity of the shell body (1), and two output jacks (15) are arranged in the output plug block (14) along the left-right direction;

the tape winding device (2) is used for winding and releasing a release tape (a), and the tape winding device (2) comprises: :

the adhesive tape winding drum (21) comprises an adhesive tape mandrel (21a) arranged at the bottom of the shell body (1) along the longitudinal direction, an adhesive tape winding drum (21b) which is rotatably sleeved on the adhesive tape mandrel (21a) and is used for winding a release adhesive tape (a), and an input gear (21c) arranged at the lower end of the adhesive tape winding drum (21b), wherein the end part of the release adhesive tape (a) penetrates out of the shell (1) through the paper outlet opening (12);

the middle wheel set (22) comprises a middle mandrel (22a) which is rotatably arranged at the bottom of the shell body (1) and a middle gear (22b) which is rotatably arranged on the middle mandrel (22a) and is in transmission connection with the input gear (21 c);

the output wheel set (23) comprises an output mandrel (23a) arranged at the bottom of the shell body (1), an output gear (23b) which is rotatably arranged on the output mandrel (23a) and is in transmission connection with the intermediate gear (22b), and a first bevel gear (23c) formed at the upper end of the output gear (23 b);

the action devices (3) are provided with a pair, the clutch device (4) is provided with one action device (3) respectively in front and at the back, one side of each action device (3) close to the clutch device (4) is called a proximal end, one side of each action device (3) far away from the clutch device (4) is called a distal end, and the action devices (3) comprise:

the auxiliary rotating element (31) comprises an auxiliary base (31a) arranged on the upper end surface of the device shell (1), an auxiliary middle hole (31b) formed in the auxiliary base (31a) in a penetrating mode in the front and back direction, an auxiliary concave ring (31c) formed in the middle of the auxiliary middle hole (31b), an auxiliary disc (31d) rotatably arranged in the auxiliary middle hole (31b), an auxiliary convex ring (31e) formed on the periphery of the auxiliary disc (31d) and matched with the auxiliary concave ring (31c), and an auxiliary inserting hole (31f) formed in one end, far away from the clutch device (4), of the auxiliary disc (31d) in the radial direction; the end face, close to the clutch device (4), of the auxiliary disc (31d) is circumferentially and uniformly provided with meshing tooth marks arranged along the radial direction;

the active rotating element (32) comprises an active base (32a) arranged on the upper end surface of the device shell (1), an active middle hole (32b) arranged on the active base (32a) in a front-back penetrating mode, an active concave ring (32c) formed in the middle of the active middle hole (32b), an active disc (32d) rotatably arranged in the active middle hole (32b), an active convex ring (32e) formed on the outer edge of the active disc (32d) and rotatably arranged in the active concave ring (32c), an active cylinder (32f) arranged at the far end of the active disc (32d) and penetrating through the device shell (1), a clamping ring (32g) formed at the far end of the active cylinder (32f) and clamped on the inner wall of the device shell (1), a far end insertion hole (32h) radially arranged at the far end of the active cylinder (32f), a near end (32i) radially arranged at the near end of the active cylinder (32f) and the middle of the active disc (32d), and a driving disc insertion, A separating ring (32j) arranged in the near end insertion hole (32i), a radial sliding hole (32k) radially arranged in the driving disk (32d) and communicated with the near end insertion hole (32i), and a sliding side hole (32l) arranged at the near end of the driving disk (32d) and communicated with the radial sliding hole (32 k);

a torque adjusting device (33) including a torque mandrel (33a) rotatably inserted into the distal end insertion hole (32h) and the proximal end insertion hole (32i), an expanded convex ring (33b) formed on the outer wall of the torque mandrel (33a) and clamped at the distal end position of the proximal end insertion hole (32i) on the separating ring (32j), a driving bevel gear (33c) formed on the proximal end of the torque mandrel (33a), an output screw rod (33d) radially arranged in the sliding side hole (32l), a small diameter insertion rod (33e) arranged at the end of the output screw rod (33d) and inserted into the proximal end insertion hole (32i), and a driven bevel gear (33f) arranged at the end of the small diameter insertion rod (33e) and in transmission connection with the driving bevel gear (33c), the torque adjusting device (33) further including a sliding connecting rod (33g) having a distal end inserted into the sliding side hole (32l) and a proximal end inserted into the auxiliary insertion hole (31f), an adjusting toothed bar (33h) inserted into the radial sliding hole (32k) is also vertically arranged on the side surface of the sliding connecting rod (33g), and a connecting rod nut (33i) meshed with the output screw rod (33d) is arranged at the far end of the sliding connecting rod (33 g);

torque locking device (34), establish including inserting in near-end jack (32i) and establish torque sleeve (34a) outside torque dabber (33a), establish torque sleeve (34a) near-end and with locking inserted block (34b) of adjusting ratch (33h) butt, wire-wrap are in on torque dabber (33a) and be located compression spring (34c) of position between torque sleeve (34a) and separation ring (32j), circumference equipartition are in barrel side opening (34d), circumference equipartition on initiative barrel (32f) are at torque sleeve (34a) outer wall and with barrel side opening (34d) one by one grafting complex sleeve outer pole (34e), rotatable cover establish the internal thread section of thick bamboo (34f) of initiative barrel (32f) outer wall, shaping in the torsion bulge loop (34g) of internal thread section of thick bamboo (34f) outer wall distal end, the distal end shaping of sleeve outer pole (34e) have with the spiro union's of internal thread section of thick bamboo (34f) outer thread (ii) a

A connecting rod assembly (35) comprising a follower connecting rod (35a) hinged on the sliding connecting rod (33g) at a position between the auxiliary rotating element (31) and the driving rotating element (32), and a reciprocating connecting rod (35b) hinged with the follower connecting rod (35a) and inserted into the corresponding output insertion hole (15); a toothed cutter is arranged downwards on the right side of a reciprocating connecting rod (35b) of the action device (3) positioned in front; a stamping plate is arranged on the rear action device (3) downwards at the right side of a reciprocating connecting rod (35 b);

a second bevel gear (36) in transmission connection with the first bevel gear (23c) is further formed on the outer wall of a driving cylinder (32f) of the actuating device (3) positioned behind;

the clutch device (4) is used for realizing transmission connection of the two action devices (3), and the clutch device (4) comprises:

a pair of clutch collars (41), wherein the clutch collars (41) are fixed on the upper end surface of the device shell (1);

the rotating assembly (42) comprises a rotating mandrel (42a) which is rotatably inserted into the clutch sleeve ring (41a), the front end and the rear end of the rotating mandrel (42a) are respectively provided with a mandrel retaining ring (42b) which is clamped at the outer end of the clutch sleeve ring (41), the middle part of the rotating mandrel (42a) is formed with a circular middle cavity (42c), an arc-shaped side hole (42d) which is arranged on the side surface of the circular middle cavity (42c) along the circumferential direction, and an axial side hole (42e) which is arranged on the side surface of the circular middle cavity (42c) along the axial direction;

extrusion component (43), establish including rotatable cover the extrusion change (43a) of rotating dabber (42a) outer wall, fix and extrude change (43a) inner wall and insert connect cross axle (43b), rotatable the establishing of setting up in arc side opening (42d) rotation pressure disk (43c) in circular lumen (42c), the front and back terminal surface of rotation pressure disk (43c) circumference equipartition respectively has round spherical surface lug (43d), extrusion component (43) still includes slidable and inserts and establish pressurized push disk (43e) in circular lumen (42c), pressurized push disk (43e) are equipped with two and symmetric distribution and are in both sides around rotation pressure disk (43c), every pressurized push disk (43e) side is equipped with one respectively and only pegs graft complex axial side piece (43f) with axial side opening (42e), pressurized push disk (43e) are close to the terminal surface of rotating pressure disk (43c) and still circumference equipartition have with spherical surface lug (43c), (43d) are 43d) A mating spherical recess (43 g); the spherical convex block (43d) and the spherical groove (43g) are arranged in a staggered manner under a normal state;

the locking plug-in units (44) are provided with two groups, a group of locking plug-in units (44) is respectively arranged at the front end part and the rear end part of the rotating assembly (42), each group of locking plug-in units (44) comprises at least three locking plug-in units (44) which are uniformly distributed in the circumferential direction, each locking plug-in unit (44) comprises a locking jack (44a) which is arranged at the end part of the rotating assembly (42) and communicated with the circular middle cavity (42c), a locking plug-in block (44b) which is slidably inserted into the locking jack (44a), a spring concave hole (44c) which is formed at one end, far away from the circular middle cavity (42c), of each locking plug-in unit (44b), a spring baffle (44d) which is fixed on the locking jack (44a) and corresponds to the spring concave hole (44c), and a locking pressure spring (44e) which is arranged in the spring concave;

a set of forward-positioned lock plugs (44b) abutting against and contacting an auxiliary disk (31d) of the forward-positioned actuating device (3);

a set of locking plugs (44b) located at the rear part is in contact with an auxiliary disc (31d) of the action device (3) located at the rear part;

the using method comprises the following steps:

step 1, drawing a release tape (a) to drive a tape winding device (2):

the part of the drawing release tape (a) exposed at the front end of the device shell (1) drives the tape reel (21b) and the input gear (21c) to rotate;

the input gear (21c) drives the intermediate gear (22b), the output gear (23b) and the first bevel gear (23c) to rotate;

and 2, respectively operating the two operating devices (3):

step 2.1, the action device (3) positioned at the rear acts:

the first bevel gear (23c) drives a second bevel gear (36) of the action device (3) positioned at the rear, a driving cylinder (32f), a clamping ring (32g), a driving disc (32d) and a driving convex ring (32e) to rotate;

the driving disc (32d) drives the sliding connecting rod (33g), the connecting rod nut (33i), the adjusting toothed bar (33h) and the auxiliary disc (31d) to rotate;

the sliding connecting rod (33g) rotates and drives the reciprocating connecting rod (35b) to do reciprocating motion in the corresponding output insertion hole (35) through the follow-up connecting rod (35a), and the reciprocating connecting rod (35b) drives the stamping plate to stamp traces on the release adhesive tape (a)

Step 2.2, the action device (3) positioned in front acts:

the auxiliary disc (31d) of the actuating device (3) positioned at the rear drives the group of locking inserts (44) positioned at the rear to rotate, and further drives the rotating assembly (42), the extrusion element (43) and the group of locking inserts (44) positioned at the front to rotate;

the front group of locking inserts (44) drives an auxiliary disc (31d) of the front action device (3) to rotate, and the front auxiliary disc (31d) drives a corresponding sliding connecting rod (33g), a connecting rod nut (33i), an adjusting toothed bar (33h), a driving disc (32d), a driving convex ring (32e), a driving cylinder (32f) and a clamping ring (32g) to rotate;

the sliding connecting rod (33g) rotates and drives the reciprocating connecting rod (35b) to do reciprocating motion in the corresponding output insertion hole (35) through the follow-up connecting rod (35a), and the reciprocating connecting rod (35b) drives the serrated knife to cut tooth marks on the release tape (a).

2. The use method of the release paper tape processing device for clinical laboratory sample test tubes according to claim 1, characterized in that: the method comprises the following steps:

further comprising step 3, amplitude adjustment of the action device (3):

step 3.1, unlocking the torque locking device (34):

the part of the driving cylinder (32f) exposed at the rear end of the device shell (1) is held by one hand, the finger of the other hand passes through the hand-dialing opening (13) and is inserted into the device shell (1), and the finger tip is used for dialing the torsion convex ring (34g) and the internal thread cylinder (34f) to enable the torsion convex ring and the internal thread cylinder to rotate relative to the driving cylinder (32 f);

the internal thread cylinder (34f) drives the sleeve outer rod (34e), the torque sleeve (34a) and the locking insert (34b) to retract against the elastic force of the compression spring (34c), and the locking insert (34b) is separated from contact with the adjusting toothed rod (33 h);

the adjusting rack bar (33h), the sliding connecting rod (33g) and the connecting rod nut (33i) are unlocked;

step 3.2, adjusting the motion amplitude of the reciprocating connecting rod (35 b):

the part of the driving cylinder (32f) exposed at the rear end of the device shell (1) is held by one hand, and the other hand rotates the part of the torque mandrel (33a) exposed at the rear end of the driving cylinder (32f), so that the expanding convex ring (33b) and the driving bevel gear (33c) are driven to rotate;

the driving bevel gear (33c) drives the driven bevel gear (33f), the small-diameter inserted rod (33e) and the output screw rod (33d) to rotate;

the output screw rod (33d) rotates to drive the connecting rod nut (33i), the sliding connecting rod (33g) and the adjusting toothed bar (33h) to move along the direction of the radial sliding hole (32 k);

the rotating radius R of the sliding connecting rod (33g) is changed, so that the amplitude of the reciprocating motion of the reciprocating connecting rod (35b) is changed;

and 3, repeating the step 3.1 and the step 3.2, and sequentially adjusting the two action devices (3).

3. The use method of the release paper tape processing device for clinical laboratory sample test tubes according to claim 2, characterized in that: the right side of the inner wall of the device shell (1) is also rotatably provided with a rotating roller (16), and the release adhesive tape (a) is wound on the rotating roller (16) and then extends out of the paper outlet opening (12).

4. The use method of the release paper tape processing device for clinical laboratory sample test tubes according to claim 3, characterized in that: the outer edge of the near end and the outer edge of the far end of the expansion convex ring (33b) are evenly provided with balls in the circumferential direction.

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