CN112869785A - Clinical sampling censorship equipment that uses of department of neurology - Google Patents

Abstract

The invention discloses a neurology clinical sampling and submitting device, which structurally comprises: the invention relates to a corridor wheel column cap, a through pipe sleeve clamping groove, a sliding plug straw, a blood coagulation electromagnetic ring and a sampling needle tube, which realize the rapid sampling operation effect of puncture hemostasis and electric shock coagulation of the blood coagulation electromagnetic ring by utilizing the through pipe sleeve clamping groove to be matched with the sliding plug straw and inserting the sampling needle tube at a sarcoma nerve ending, so that a sample is received and stored and enters a corrugated belt clamping block and a convex arc transverse pipe groove through a suction pipe body to form the operation effects of corrugated rolling protection and convex pad clamping anti-slipping, the inspection density and sampling fineness are ensured, the spinal nerve distribution is adaptively scanned and analyzed, the virus judgment and consultation negotiation degree of the neurosarcoma is improved, the success rate of the operation and the virus killing operation are improved, and the improvement of the fine treatment efficiency is ensured.

Description

Clinical sampling censorship equipment that uses of department of neurology

Technical Field

The invention relates to a neurology clinical sampling and inspection device, and belongs to the field of medical treatment.

Background

Spinal column neurosarcoma is department of neurology clinical medicine's a difficult problem, also is the operation disease that is comparatively difficult to neural sample, and nurse and doctor can effectively cooperate medical instrument's application to form sarcoma sample censorship and the operation effect of collecting the operation and picking the cutting of restrainting, promote treatment effeciency and sample censorship preliminary treatment security, the public shortcoming of treating the optimization of current technique has:

clinical spinal neurosarcoma of department of neurology needs sampling operation, obtains virus report and the impaired condition of nerve quality after submitting to examine like this, but scanning sampling operation commonly used, to actual nerve ending and nerve sheath inspection degree limited, and a plurality of spinal nerves that the ganglion corresponds are not good to be sampled, cause secondary damage easily, this makes medical diagnosis's consultation cause the deviation at operation business timing easily, influences the operation success rate.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a sampling and submitting device for clinical use in neurology, which aims to solve the problems that the neurology clinical spinal osteosarcoma needs to be subjected to sampling operation, so that a virus report and the nerve quality damage condition are obtained after submitting for examination, but the common scanning and sampling operation has limited detection degree on actual nerve endings and nerve sheaths, a plurality of spinal nerves corresponding to ganglia are not easy to sample, secondary damage is easy to cause, and the consultation of medical diagnosis is easy to cause deviation at the time of operation negotiation, so that the success rate of the operation is influenced.

In order to achieve the purpose, the invention is realized by the following technical scheme: a clinical sampling censorship equipment that uses of department of neurology, its structure includes: the device comprises a channel wheel column cap, a through pipe sleeve clamping groove, a sliding plug straw, a blood coagulation electromagnetic ring and a sampling needle tube, wherein the through pipe sleeve clamping groove is nested on the left side of the channel wheel column cap, the axes of the through pipe sleeve clamping groove are collinear, the sliding plug straw is nested on the left side of the through pipe sleeve clamping groove and communicated with each other, the sliding plug straw is buckled with the sampling needle tube through the blood coagulation electromagnetic ring and is positioned on the same horizontal line, the through pipe sleeve clamping groove is provided with two corrugated belt clamping blocks, a convex arc transverse pipe groove and a jacket shell groove, the convex arc transverse pipe groove is nested on the right side of the jacket shell groove and communicated with each other, the two corrugated belt clamping blocks are respectively installed on the upper side and the lower side of the left side of the jacket shell groove, the corrugated belt clamping blocks and the jacket shell groove are nested into a whole and are positioned on the same vertical surface, and the jacket shell groove is nested on the left side.

In order to optimize the technical scheme, the method further comprises the following steps:

as a further improvement of the invention, the corrugated ribbon clamping block consists of an arc cushion block and a corrugated ribbon block, wherein the arc cushion block is arranged inside the corrugated ribbon block, and the arc cushion block and the corrugated ribbon block are nested into a whole and are positioned on the same vertical plane.

As a further improvement of the invention, the arc cushion block consists of a flow channel arc cushion and a fin plate, the fin plate is arranged inside the flow channel arc cushion, and the fin plate and the flow channel arc cushion are inserted and embedded together and are positioned on the same vertical surface.

As a further improvement of the invention, the convex arc transverse pipe groove consists of a pipe frame hemispherical cover and a transverse pipe groove, the pipe frame hemispherical cover is arranged inside the transverse pipe groove, and the pipe frame hemispherical cover and the transverse pipe groove are nested into a whole and the axes of the pipe frame hemispherical cover and the transverse pipe groove are collinear.

As a further improvement of the invention, the pipe frame hemispherical cover consists of a hemispherical cover groove and a liner pipe truss, wherein the liner pipe truss is arranged inside the hemispherical cover groove, and the liner pipe truss and the hemispherical cover groove are inserted together and are positioned on the same horizontal plane.

As a further improvement of the invention, the shaft wheel column cap is composed of a ball wheel disc and a shaft column groove, the ball wheel disc is installed on the left side of the shaft column groove, and the ball wheel disc is mechanically connected with the shaft column groove and is located on the same vertical surface.

As a further improvement of the invention, the ball wheel disc consists of a ball body and a propeller wheel disc groove, the ball body is arranged inside the propeller wheel disc groove, and the ball body and the propeller wheel disc groove are tightly attached together and are positioned on the same vertical plane.

As a further improvement of the invention, the sliding plug straw consists of two sliding plug clamp cushion blocks and a straw body, wherein the two sliding plug clamp cushion blocks are respectively arranged at the upper side and the lower side of the straw body, and the sliding plug clamp cushion blocks are in clearance fit with the straw body.

As a further improvement of the invention, the sliding plug clamp cushion block consists of a column block groove and a spring frame lining plate seat, the spring frame lining plate seat is arranged inside the column block groove, and the column block groove and the spring frame lining plate seat are nested into a whole and are positioned on the same horizontal plane.

As a further improvement of the invention, the flow channel arc pad is a composite flat arc pad structure with upper and lower bent flow channels, so that the neuron sampling protection operation effect is formed by conveniently bearing the infiltration of nerve fluid.

As a further improvement of the invention, the liner tube truss is a composite truss structure with left and right tube bodies sleeved with ellipsoidal cap short rods, so that the nerve endings can be conveniently and transversely butted to form a complete sampling protection operation effect.

As a further improvement of the invention, the ball body is of a ball structure with cushion blocks at the top, the left lower corner and the right lower corner, so that the regulation and control operation effect of forming wheel-guide linkage drawing of the needle tube frame by the winding of the ball cushion is facilitated.

As a further improvement of the invention, the spring frame lining plate seat is a composite spring plate seat structure with vertically staggered lining plates pressing and pasting the spring frame pipe, so that the linked ventilation and adsorption operation effect of the sliding plug clamping pipe body is conveniently formed by vertically staggered pressure bearing.

Advantageous effects

The invention relates to a clinical sampling and inspecting device for neurology department, which is characterized in that medical staff press and push a channel column groove of a channel wheel column cap and a propeller wheel disc groove roller ball body of a ball wheel disc to press and push a sliding plug suction pipe to suck a blood coagulation electromagnetic ring and a sampling thin needle tube to penetrate into an extracted spinal neurosarcoma sample through a jacket shell groove of a handheld through pipe jacket clamping groove by using a thumb, so that the test output report data can be conveniently transferred and accurately analyzed in an operation of medical consultation. Promote whole sampling efficiency and preserve the active analysis and examine efficient operation effect, let the clinical sample censorship equipment of examining that uses of department of neurology obtain accurate adaptation electronic scanning deep sampling, let live body nerve cell obtain virus analysis and promotion operation data collection efficiency.

The invention has the following advantages after operation:

application siphunculus cover clamping groove cooperatees with the sliding plug straw, form the blood shock blood coagulation's of a puncture hemostasis and blood coagulation electromagnetic ring quick sample operation effect at the neural end interlude of sarcoma through the thin needle tubing of sample, let the sample deposit through the straw body get into the ripple and take the clamp block and violently manage the inslot with the convex arc and form ripple roll-in protection and the smooth operation effect of convex pad clamping antiskid, guarantee censorship density and sample fineness, adaptation scanning analysis backbone nerve distributes, the virus that promotes neural sarcoma judges and consultation negotiation fineness, the success rate and the virus that promote the operation kill the operation, guarantee treatment effeciency's promotion.

Drawings

Other features, objects, and advantages of the present invention will become more apparent from the following detailed description of the embodiments of the invention when taken in conjunction with the accompanying drawings, in which:

FIG. 1 is a schematic structural diagram of a clinical sampling and inspecting device for neurology department according to the present invention.

FIG. 2 is a detailed sectional view of the shaft wheel column cap and the pipe sleeve clamping groove of the present invention.

Fig. 3 is a detailed cross-sectional structure diagram of the through pipe sleeve clamping groove and the sliding plug suction pipe of the invention.

FIG. 4 is a detailed sectional structure diagram of the through pipe sleeve clamping groove, the corrugated belt clamping block and the convex arc transverse pipe groove of the present invention.

Fig. 5 is an enlarged cross-sectional view of the ball-point disk according to the present invention in an operating state.

FIG. 6 is an enlarged cross-sectional view of the sliding plug collet block of the present invention in an operational state.

FIG. 7 is an enlarged cross-sectional view of the arc spacer of the present invention in an operating state.

Fig. 8 is a cross-sectional enlarged structural schematic diagram of the pipe frame hemispherical cover in the working state.

Description of reference numerals: the device comprises a channel wheel column cap-1, a through pipe sleeve clamping groove-2, a sliding plug suction pipe-3, a blood coagulation electromagnetic ring-4, a sampling thin needle pipe-5, a corrugated belt clamping block-2A, a convex arc transverse pipe groove-2B, a clamping sleeve shell groove-2C, an arc cushion block-2A 1, a corrugated belt plate block-2A 2, a flow channel arc pad-2A 11, a fin plate-2A 12, a pipe frame half spherical cover-2B 1, a transverse pipe groove-2B 2, a half spherical cover groove-2B 11, a liner pipe truss-2B 12, a ball wheel disc-11, a channel column groove-12, a ball body-111, a propeller wheel disc groove-112, a sliding plug clamping block-31, a suction pipe body-32, a column block groove-311 and a spring frame liner plate seat-312.

Detailed Description

In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.

The first embodiment is as follows:

referring to fig. 1-8, the present invention provides a clinical sampling and inspection device for neurology, which comprises: a channel wheel column cap 1, a through pipe sleeve clamping groove 2, a sliding plug suction pipe 3, a blood coagulation electromagnetic ring 4 and a sampling fine needle tube 5, the through pipe sleeve clamping groove 2 is nested at the left side of the shaft wheel column cap 1, the axes of the through pipe sleeve clamping groove and the shaft cap are collinear, the sliding plug suction pipe 3 is nested at the left side of the through pipe sleeve clamping groove 2 and is communicated with each other, the sliding plug suction tube 3 is buckled with the sampling fine needle tube 5 through the coagulation electromagnetic ring 4 and is positioned on the same horizontal line, the through pipe sleeve clamping groove 2 is provided with a corrugated belt clamping block 2A, a convex arc transverse pipe groove 2B and a clamping sleeve shell groove 2C, the convex arc transverse pipe grooves 2B are inserted and embedded at the right side of the jacket shell groove 2C and are communicated with each other, two corrugated clamping blocks 2A are arranged and are respectively arranged at the upper side and the lower side of the left side of the jacket shell groove 2C, the corrugated belt clamping block 2A and the jacket shell groove 2C are nested into a whole and are positioned on the same vertical surface, and the jacket shell groove 2C is nested on the left side of the shaft wheel column cap 1, and the axes of the jacket shell groove and the shaft column cap are collinear.

Referring to fig. 4, the corrugated ribbon clamping block 2A is composed of an arc cushion block 2A1 and a corrugated ribbon block 2A2, the arc cushion block 2A1 is installed inside the corrugated ribbon block 2A2, the arc cushion block 2A1 and the corrugated ribbon block 2A2 are nested integrally and are located on the same vertical plane, the convex arc transverse duct 2B is composed of a tube frame hemispherical cover 2B1 and a transverse duct 2B2, the tube frame hemispherical cover 2B1 is installed inside the transverse duct 2B2, the tube frame hemispherical cover 2B1 and the transverse duct 2B2 are nested integrally and have collinear axes, and the corrugated ribbon block 2A2 is butted with the transverse duct 2B2 to form an integrated tip sampling, storing and storing operation effect of neurons and nerves.

Referring to fig. 7, the arc cushion block 2a1 is composed of a flow channel arc pad 2a11 and a fin plate 2a12, the fin plate 2a12 is installed inside the flow channel arc pad 2a11, the fin plate 2a12 and the flow channel arc pad 2a11 are inserted and embedded together and are located on the same vertical plane, the flow channel arc pad 2a11 is a composite flat arc pad structure with upper and lower curved flow channels, so that the neuron sampling protection operation effect is formed by receiving the penetration of the neural fluid, and the conduction storage operation effect of the neural fluid is formed by the pressing of the flow channel arc pad 2a11 and the fin plate 2a 12.

Referring to fig. 8, the pipe frame hemispherical cover 2B1 is composed of a hemispherical cover groove 2B11 and a liner pipe truss 2B12, the liner pipe truss 2B12 is installed inside the hemispherical cover groove 2B11, the liner pipe truss 2B12 and the hemispherical cover groove 2B11 are inserted and embedded together and are located on the same horizontal plane, the liner pipe truss 2B12 is a composite truss structure with left and right pipes and sleeves short rods of an ellipsoid cap, so that a complete sampling protection operation effect is formed by transversely abutting nerve endings, and the liner pipe truss 2B12 is wrapped by the hemispherical cover groove 2B11 to form a storage operation effect of the transverse nerve endings.

Referring to fig. 2, the shaft wheel cap 1 is composed of a ball wheel disc 11 and a shaft column groove 12, the ball wheel disc 11 is installed on the left side of the shaft column groove 12, the ball wheel disc 11 is mechanically connected with the shaft column groove 12 and is located on the same vertical plane, and the shaft movement, butt joint and jacking linkage operation on one side of the shaft column groove 12 through the ball wheel disc 11 is efficient.

Referring to fig. 5, the ball wheel 11 is composed of a ball body 111 and a propeller wheel groove 112, the ball body 111 is installed inside the propeller wheel groove 112, the ball body 111 and the propeller wheel groove 112 are tightly attached together and located on the same vertical plane, the ball body 111 is a ball structure with pads at the top and left and right lower corners, so that the ball pad winding is convenient to form a regulation and control operation effect of pulling the needle tube frame in a wheel-guide linkage manner, and the ball body 111 forms an integral doctor thumb pressing and swinging operation effect in the propeller wheel groove 112 through a winding.

The working process is as follows: medical care personnel press and push the channel column groove 12 of the channel column cap 1 with a thumb to be linked with the rotary paddle wheel disc groove 112 of the ball wheel disc 11 and press and push the sliding plug suction tube 3 to suck the blood coagulation electromagnetic ring 4 and the sampling thin needle tube 5 to penetrate into an extracted spinal neurosarcoma sample through the rotary paddle wheel disc groove 111 of the ball wheel disc 11 by pressing and pushing the jacket shell groove 2C of the channel column cap 2, so that the transfer inspection output report data is convenient to be adapted to the accurate analysis of the operation of medical consultation, during the storage period of the sample transfer, the neural fluid liquid is stored in the corrugated belt plate 2A2 through the arc cushion block 2A1 of the corrugated belt clamp block 2A through the flow channel arc cushion 2A11 and the fin plate 2A12 to improve the activity of the neuron, and then the neural tip is stored in the transverse pipe groove 2B2 through the hemispherical cover groove 2B11 and the liner pipe truss 2B12 through the half pipe frame 2B1 of the convex arc transverse pipe groove 2B. Promote whole sampling efficiency and preserve the active analysis and examine efficient operation effect, let the clinical sample censorship equipment of examining that uses of department of neurology obtain accurate adaptation electronic scanning deep sampling, let live body nerve cell obtain virus analysis and promotion operation data collection efficiency.

Example two:

referring to fig. 1-8, the present invention provides a clinical sampling and examination device for neurology, which is otherwise the same as embodiment 1 except that:

referring to fig. 3, the sliding plug straw 3 is composed of two sliding plug clamp cushion blocks 31 and a straw body 32, the two sliding plug clamp cushion blocks 31 are respectively installed on the upper side and the lower side of the straw body 32, the sliding plug clamp cushion blocks 31 and the straw body 32 are in clearance fit, and a sliding friction frame protection operation effect is formed on the right side of the straw body 32 through the sliding plug clamp cushion blocks 31.

Referring to fig. 6, the sliding plug clamp pad block 31 is composed of a column block groove 311 and a spring frame liner plate seat 312, the spring frame liner plate seat 312 is installed inside the column block groove 311, the column block groove 311 and the spring frame liner plate seat 312 are nested into a whole and are located on the same horizontal plane, the spring frame liner plate seat 312 is a composite spring plate seat structure with vertically-staggered liner plates pressing and attaching a spring frame pipe, the vertically-staggered pressure bearing is facilitated to form a linkage ventilation and adsorption operation effect of the sliding plug clamp pipe body, and the sliding plug clamp telescopic pipe is efficiently sucked by vertically-staggered spacer pads in the column block groove 311 through the spring frame liner plate seat 312.

After the operation of puncture sampling hemostasis is formed by sarcoma entering the nerve endings through the early-stage needle insertion, the sample passes through the suction tube body 32 of the sliding plug suction tube 3 and slides along the column block groove 311 of the sliding plug clamp cushion block 31 and the spring frame liner plate seat 312 in an auxiliary telescopic manner to improve the receiving operation effect of sample suction and storage.

The invention achieves the rapid sampling operation effect of the puncture hemostasis and the electric shock coagulation of the coagulation electromagnetic ring 4 by utilizing the matching of the through pipe sleeve clamping groove 2 and the sliding plug suction pipe 3 and the penetration of the sampling thin needle tube 5 at the nerve ending of the sarcoma through the mutual combination of the components, so that a sample is collected and stored to enter the corrugated belt clamping block 2A and the convex arc transverse pipe groove 2B through the suction tube body 32 to form the operation effects of corrugated rolling protection and convex pad clamping anti-slipping, the inspection tightness and the sampling fineness are ensured, the spinal nerve distribution is adapted and scanned and analyzed, the virus judgment and consultation fineness of the neurosarcoma are improved, the success rate of the operation and the virus killing operation are improved, the improvement of the treatment efficiency is ensured, the sampling operation required by the clinical spondylosarcoma in the neurology is solved, and the virus report and the nerve quality damage condition are obtained after the inspection, but the common scanning sampling operation is realized, the examination degree of the actual nerve endings and nerve sheaths is limited, and a plurality of spinal nerves corresponding to the ganglia are not easy to sample, so that secondary injury is easy to cause, and the medical diagnosis consultation is easy to cause deviation at the timing of an operation, thereby influencing the success rate of the operation.

The specific embodiments described herein are merely illustrative of the invention. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims appended hereto.

Claims (9)

1. A clinical sampling censorship equipment that uses of department of neurology, its structure includes: corridor wheel column cap (1), siphunculus cover clamping groove (2), sliding plug straw (3), blood coagulation electromagnetic ring (4), sample fine needle tubing (5), its characterized in that:

the through pipe sleeve clamping groove (2) is nested on the left side of the channel wheel column cap (1), the sliding plug suction pipe (3) is inserted and nested on the left side of the through pipe sleeve clamping groove (2), and the sliding plug suction pipe (3) is buckled with the sampling thin needle tube (5) through the coagulation electromagnetic ring (4);

the through pipe sleeve clamping groove (2) is provided with a corrugated belt clamping block (2A), a convex arc transverse pipe groove (2B) and a clamping sleeve shell groove (2C);

the convex arc transverse pipe grooves (2B) are inserted and embedded on the right side of the jacket shell groove (2C), two corrugated belt clamping blocks (2A) are arranged and are respectively installed on the upper side and the lower side of the left side of the jacket shell groove (2C), the corrugated belt clamping blocks (2A) and the jacket shell groove (2C) are embedded into a whole, and the jacket shell groove (2C) is embedded and embedded on the left side of the channel wheel column cap (1).

2. A neurological clinical sampling and review apparatus according to claim 1, wherein: the corrugated belt clamping block (2A) is composed of an arc cushion block (2A 1) and a corrugated belt plate block (2A 2), the arc cushion block (2A 1) is installed inside the corrugated belt plate block (2A 2), and the arc cushion block (2A 1) and the corrugated belt plate block (2A 2) are nested into a whole.

3. A neurological clinical sampling and review apparatus according to claim 2, wherein: the arc cushion block (2A 1) is composed of a flow channel arc cushion (2A 11) and a fin plate (2A 12), the fin plate (2A 12) is installed inside the flow channel arc cushion (2A 11), and the fin plate (2A 12) and the flow channel arc cushion (2A 11) are inserted and embedded together.

4. A neurological clinical sampling and review apparatus according to claim 1, wherein: convex arc transverse pipe groove (2B) comprises pipe support hemisphere cover (2B 1), transverse pipe groove (2B 2), pipe support hemisphere cover (2B 1) is installed in transverse pipe groove (2B 2), pipe support hemisphere cover (2B 1) and transverse pipe groove (2B 2) nest into an organic whole.

5. A neurological clinical sampling and review apparatus according to claim 4, wherein: pipe support hemisphere cover (2B 1) comprises hemisphere cover groove (2B 11), liner pipe truss (2B 12), the inside in hemisphere cover groove (2B 11) is installed in liner pipe truss (2B 12), insert and inlay together liner pipe truss (2B 12) and hemisphere cover groove (2B 11).

6. A neurological clinical sampling and review apparatus according to claim 1, wherein: the shaft wheel column cap (1) is composed of a ball wheel disc (11) and a shaft column groove (12), the ball wheel disc (11) is installed on the left side of the shaft column groove (12), and the ball wheel disc (11) is mechanically connected with the shaft column groove (12).

7. A neurological clinical sampling and review apparatus according to claim 6, wherein: the ball wheel disc (11) is composed of a ball body (111) and a propeller wheel disc groove (112), the ball body (111) is installed inside the propeller wheel disc groove (112), and the ball body (111) and the propeller wheel disc groove (112) are tightly attached together.

8. A neurological clinical sampling and review apparatus according to claim 1, wherein: the sliding plug straw (3) is composed of two sliding plug clamp cushion blocks (31) and a straw body (32), the two sliding plug clamp cushion blocks (31) are respectively arranged on the upper side and the lower side of the straw body (32), and the sliding plug clamp cushion blocks (31) are matched with the straw body (32).

9. A neurological clinical sampling and review apparatus according to claim 8, wherein: the sliding plug clamp cushion block (31) is composed of a column block groove (311) and a spring frame lining plate seat (312), the spring frame lining plate seat (312) is installed inside the column block groove (311), and the column block groove (311) and the spring frame lining plate seat (312) are nested into a whole.

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