CN216763924U - Medical electrocardiograph wire storage device - Google Patents
Medical electrocardiograph wire storage device Download PDFInfo
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- CN216763924U CN216763924U CN202123110259.6U CN202123110259U CN216763924U CN 216763924 U CN216763924 U CN 216763924U CN 202123110259 U CN202123110259 U CN 202123110259U CN 216763924 U CN216763924 U CN 216763924U
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Abstract
The utility model discloses a medical electrocardiograph wire storage device which comprises a wire winding box, wherein the wire winding box comprises a shell, a reel arranged in the shell and a torsion spring arranged in the reel, the shell is provided with a wire inlet and a wire outlet, the wire is wound on the reel, one end of the wire penetrates out of the wire inlet and is connected with an electrocardiograph, and the other end of the wire penetrates out of the wire outlet and is connected with an electric plug. The utility model designs a device special for accommodating electric wires for an electrocardiograph, wherein the electric wires are wound by adopting a winding box, and wire inlets and wire outlets for discharging the electric wires are arranged at two ends of the winding box and are respectively connected with an electric plug and the electrocardiograph; in the use process, wires with certain lengths are adaptively released at two ends according to actual needs, and redundant wires are placed in the wire coiling box, so that the problem of scattered placement of redundant wires is solved, the space of a table top or the ground cannot be occupied, and more activity space is vacated for patients. In addition, the problems that the electric wires are wound and knotted and the patient is easy to trip when the electric wires are placed in a scattered way can be avoided.
Description
Technical Field
The utility model belongs to the field of medical equipment, and particularly relates to a wire storage device of a medical electrocardiograph.
Background
The electrocardiograph can automatically record the bioelectric signals (electrocardio signals) generated by exciting cardiac muscle during heart activity, and is a medical electronic instrument commonly used for clinical diagnosis and scientific research.
Before the heart beats, the cardiac muscle is excited first, and weak current is generated during excitation and is conducted to various parts through human tissues. Because the distance between each part of the body and the heart is different due to different tissues of each part, different potential changes are shown at each part of the body surface, and the relation between the surface potential generated by the electrical activity in the human heart and the time is called electrocardiogram. Electrocardiographs are instruments that record these physiological electrical signals.
The electrocardiograph is the most frequently used equipment in hospitals, and is mainly arranged in a ward except an operating room; in practical use, the problem that the multi-bed ward is inconvenient to move due to the fact that the space is limited, and after the electrocardiograph is placed and connected in parallel, the redundant electric wires are not provided with accommodating devices and are scattered nearby the bed.
SUMMERY OF THE UTILITY MODEL
The utility model aims to provide a wire storage device of a medical electrocardiograph, which is designed for the electrocardiograph to be specially used for storing wires aiming at the problems in the prior art, a wire winding box is adopted to wind the wires, wire inlets and wire outlets are arranged at two ends to discharge the wires, and an electric plug and the electrocardiograph are respectively connected; in the use process, wires with certain lengths are adaptively released at two ends according to actual needs, and redundant wires are placed in the wire coiling box, so that the problem of scattered placement of redundant wires is solved, the space of a table top or the ground cannot be occupied, and more activity space is vacated for patients. In addition, the problems that the electric wires are wound and knotted and the patient is easy to trip when the electric wires are placed in a scattered way can be avoided.
In order to solve the technical problems, the following technical scheme is adopted:
medical electrocardiograph electric wire storage device, its characterized in that: including the spiral box, the spiral box includes the shell, locates the reel in the shell and locates the torsional spring in the reel, and the shell is equipped with inlet wire and outlet, and it has this electric wire to wind on the reel, and the one end of electric wire is worn out and is connected this electrocardiograph from the inlet wire, and the other end of electric wire is worn out and is connected with the electric plug from the outlet.
Furthermore, a positioning rod is connected to the surface of the shell, a positioning structure is arranged on the positioning rod, and the winding box is positioned and placed through the positioning structure. The utility model achieves the purpose of fixing the wire winding box through the positioning rod and the positioning structure, and the positioning structure can be fixed to the shell of the electrocardiograph or a designated position in a ward, so that the wire winding box is regularly and orderly placed, the wire is further cleaned, and the phenomenon that the wire winding box is randomly placed to influence the action of a patient or the placement of articles is avoided.
Further, the positioning structure is a screw positioning head. Based on this screw rod location head, set up the complex screw at the casing of electrocardio electrograph machine or assigned position, twist the screw through this screw rod location head and reach the purpose of fixed position pole, and then fixed whole spiral case realizes that its location is placed, places stably convenient operation.
Furthermore, the positioning structure is a magnet positioning head. Based on this magnet location head, can directly adsorb the iron casing position of electrocardiograph (with do not influence electrocardiograph normal use as the standard) or on other iron board, the face through the mode of magnetism absorption to reach the purpose of fixed whole spiral box, realize that its location is placed, simple structure, convenient operation.
Further, the positioning structure is a sucker positioning head. Based on this sucking disc location head, can directly adsorb on electrocardiograph's casing or appointed panel to fixed whole spiral box realizes that its location is placed, simple structure, convenient operation.
Furthermore, the locating lever passes through the otic placode to be connected in the shell, and the otic placode is located the shell to be equipped with the perforating hole, the locating lever includes spacing section, and spacing section and perforating hole match each other, make locating lever swing joint in perforating hole. The ear plate is used as a connecting structure of the positioning rod, so that the positioning rod is movably connected, the positioning rod is convenient to operate, and if the positioning rod is screwed in by rotation, a screw positioning head, an adsorption sucker positioning head and the like are fixed.
Furthermore, the wire inlet and the wire outlet are both provided with clamping pieces, and the wire is clamped through the clamping pieces. This chucking spare is used for the chucking electric wire to the restriction electric wire activity, the length that the accurate control both ends electric wire was emitted avoids the electric wire to emit the problem that back retracted again, reaches the effect that the unwrapping wire is stable, electrocardiograph wiring is safe.
Furthermore, the clamping piece comprises a connecting rod, a clamping wheel and a clamping knob, the connecting rod penetrates into the wire inlet and the wire outlet, the clamping wheel is arranged at the penetrating section, and the section of the clamping wheel is oval; the clamping knob controls the connecting rod. The clamping piece consists of a connecting rod, a clamping wheel and a clamping knob, the clamping knob is arranged on the shell and connected with the connecting rod, the connecting rod penetrates into the corresponding wire inlet and the corresponding wire outlet from the shell, and the clamping wheel with an oval cross section is arranged at the penetrating section; the clamping wheel has a long shaft and a short shaft, and the setting direction of the clamping wheel is controlled by rotating the clamping wheel based on the structural characteristics so as to realize the switching between a clamping state and an unclamping state; when the short shaft is not clamped, the short shaft is close to the electric wire but cannot contact and clamp the electric wire, and the electric wire can be freely stretched and contracted to pay off and take up; when the wire is clamped, the long shaft is close to and clamps the wire, and the wire is limited to move. The clamping piece can control the switching between the clamping state and the non-clamping state through rotation, so that a user can conveniently control the paying-off length as required, and the structural design is ingenious.
The clamping knob is connected with a shifting lever, and the user can conveniently rotate the clamping knob through the shifting lever, so that two states of clamping and non-clamping can be conveniently switched.
Furthermore, the connecting rod penetrates into the wire inlet and the wire outlet through the connecting hole, the connecting rod is provided with a threaded section, the connecting hole is provided with an internal thread, and the threaded section is matched with the internal thread. This screw thread section and internal thread play limiting displacement, prevent the random automatic activity of connecting rod, and can increase the chucking resistance, improve the stability of chucking effect.
Furthermore, limiting grooves are arranged in the wire inlet and the wire outlet and are matched with the clamping wheels. When in clamping, one end of the long shaft of the clamping wheel is clamped, and the other end of the long shaft of the clamping wheel moves to the position of the limiting groove; the bottom surface of the limiting groove is arc-shaped, and the inlet of the clamping wheel is the shallowest position of the limiting groove and smoothly enters the limiting groove; the limiting position of the clamping wheel is the deepest position of the limiting groove, and the clamping wheel cannot rotate out of the limiting groove; thereby the chucking rotation direction of restriction chucking wheel and the rotation direction that resets avoid it to rotate and can not realize the chucking effect after the dislocation, further promote the practicality of chucking spare.
Due to the adoption of the technical scheme, the method has the following beneficial effects:
the utility model relates to a wire storage device of a medical electrocardiograph, which is a device specially used for storing wires and designed for the electrocardiograph, wherein a wire winding box is adopted to wind the wires, wire inlets and wire outlets are arranged at two ends to discharge the wires, and an electric plug and the electrocardiograph are respectively connected; in the use process, wires with certain lengths are adaptively released at two ends according to actual needs, and redundant wires are placed in the wire coiling box, so that the problem of scattered placement of redundant wires is solved, the space of a table top or the ground cannot be occupied, and more activity space is vacated for patients. In addition, the problems that the electric wires are wound and knotted and the patient is easy to trip when the electric wires are placed in a scattered way can be avoided. The concrete beneficial effects are as follows:
the utility model achieves the purpose of fixing the wire winding box through the positioning rod and the positioning structure, and the positioning structure can be fixed to the shell of the electrocardiograph or a designated position in a ward, so that the wire winding box is regularly and orderly placed, the wire is further cleaned, and the phenomenon that the wire winding box is randomly placed to influence the action of a patient or the placement of articles is avoided.
The utility model designs the clamping piece for clamping the electric wire, thereby limiting the movement of the electric wire, accurately controlling the length of the electric wire at two ends, avoiding the problem that the electric wire retracts after being released, and achieving the effects of stable paying-off and safe wiring of the electrocardiograph.
The clamping piece consists of a connecting rod, a clamping wheel and a clamping knob, the clamping knob is arranged on the shell and connected with the connecting rod, the connecting rod penetrates from the shell to the corresponding wire inlet and the corresponding wire outlet, and the clamping wheel with an oval cross section is arranged at the penetrating section; the clamping wheel has a long shaft and a short shaft, and the setting direction of the clamping wheel is controlled by rotating the clamping wheel based on the structural characteristics so as to realize the switching between a clamping state and an unclamping state; when the short shaft is not clamped, the short shaft is close to the electric wire but cannot contact and clamp the electric wire, and the electric wire can be freely stretched and contracted to pay off and take up; when the wire is clamped, the long shaft is close to and clamps the wire, and the wire is limited to move. This chucking spare is through rotatory steerable chucking promptly and not switching of chucking state, convenience of customers as required control unwrapping wire length, structural design is ingenious.
Drawings
The utility model will be further described with reference to the accompanying drawings in which:
FIG. 1 is a perspective view of a wire winding box;
FIG. 2 is a schematic top view of the winding box;
FIG. 3 is a schematic view of the internal structure of the wire winding box;
FIG. 4 is a schematic view of the structure of the retainer;
FIG. 5 is a schematic view of the positioning groove;
FIG. 6 is a schematic view of a positioning rod with a positioning structure being a magnet positioning head;
FIG. 7 is a schematic view of a positioning rod with a positioning structure being a chuck positioning head.
Wherein, the structure of the wire inlet is the same as that of the wire outlet, and the structure of the wire inlet is not shown in the attached drawings.
Detailed Description
The present invention is further illustrated with reference to specific embodiments in fig. 1 to 7:
example 1
The wire containing device for the medical electrocardiograph comprises a winding box, wherein the winding box comprises a shell 1, a reel 12 arranged in the shell 1 and a torsion spring 13 arranged in the reel 12, one end of the torsion spring 13 is fixed, and the other end of the torsion spring 13 is connected with the reel 12 and can rotate together with the reel 12; after the rotation, the torsion spring 13 generates a rotation force, and can drive the reel 12 to generate reset rotation, so that the automatic winding function is achieved.
The shell 1 is provided with a wire inlet and a wire outlet 11, the wire 2 is wound on the reel 12, one end of the wire 2 penetrates out of the wire inlet and is connected with the electrocardiograph, the other end of the wire 2 penetrates out of the wire outlet 11 and is connected with the electric plug 3, and electricity is connected through the electric plug 3.
The utility model adopts a winding box to wind an electric wire 2, and both ends are provided with a wire inlet and a wire outlet 11 to discharge the electric wire 2, and the electric plug 3 and the electrocardiograph are respectively connected; in the use process, the wires 2 with certain lengths are adaptively paid out at the two ends according to actual needs, and the redundant wires 2 are put in the winding box, so that the problem of scattered placement of the redundant wires 2 is solved, the space of a table top or the ground cannot be occupied, and more activity space is vacated for patients. In addition, the problems that the electric wires 2 are wound and knotted and the patient is easy to trip when the electric wires are placed in a scattered mode can be avoided.
The surface of the shell 1 is connected with a positioning rod 5, the positioning rod 5 is provided with a positioning structure, and the winding box is positioned and placed through the positioning structure. The utility model achieves the purpose of fixing the wire winding box through the positioning rod 5 and the positioning structure, and the positioning structure can be fixed to the shell of the electrocardiograph or a designated position in a ward, so that the wire winding box is regularly and orderly placed, the wire 2 is further cleaned, and the phenomenon that the wire winding box is randomly placed to influence the action of a patient or the placement of articles is avoided.
The positioning structure is a screw positioning head 51. Based on this screw rod locating head 51, set up the complex screw at the casing of electrocardio electrograph machine or assigned position, twist the screw through this screw rod locating head 51 and reach the purpose of fixed position pole 5, and then fixed whole spiral case realizes that its location is placed, places stably convenient operation.
The positioning rod 5 is connected to the housing 1 through the ear plate 4, the ear plate 4 is arranged on the housing 1 and is provided with a through hole 41, the positioning rod 5 comprises a limiting section 52, and the limiting section 52 is matched with the through hole 41 so that the positioning rod 5 is movably connected to the through hole 41. The ear plate 4 is used as a connecting structure of the positioning rod 5, so that the positioning rod 5 is movably connected, and the positioning rod 5 is conveniently fixed by operation, such as rotating and screwing into a screw positioning head 51.
The wire inlet and the wire outlet 11 are both provided with clamping pieces 6, and the wire 2 is clamped through the clamping pieces 6. This chucking spare 6 is used for chucking electric wire 2 to the activity of restriction electric wire 2, the length that 2 electric wires at the accurate control both ends were emitted avoids electric wire 2 to emit the problem of back retraction again, reaches the effect that the unwrapping wire is stable, electrocardiograph wiring is safe.
The clamping piece 6 comprises a connecting rod 62, a clamping wheel 63 and a clamping knob 61, the connecting rod 62 penetrates into the wire inlet and the wire outlet 11, the penetrating section is provided with the clamping wheel 63, and the section of the clamping wheel 63 is oval; the chucking knob 61 controls the link 62. The clamping piece 6 consists of a connecting rod 62, a clamping wheel 63 and a clamping knob 61, the clamping knob 61 is arranged on the shell 1 and connected with the connecting rod 62, the connecting rod 62 penetrates from the shell 1 to the corresponding wire inlet and wire outlet 11, and the clamping wheel 63 with an oval cross section is arranged at the penetrating section; the clamping wheel 63 has a long shaft and a short shaft, and the setting direction of the clamping wheel 63 is controlled by rotating based on the structural characteristics so as to realize the switching between a clamping state and an unclamping state; when the cable is not clamped, the short shaft is close to the electric wire 2 but cannot contact and clamp the electric wire 2, and the electric wire 2 can be freely stretched and retracted to pay off and take up; when the long shaft is close to and clamps the electric wire 2, the electric wire 2 is limited to move. This chucking spare 6 is through rotatory steerable chucking promptly and not switching of chucking state, convenience of customers as required control unwrapping wire length, structural design is ingenious.
The clamping knob 61 is connected with a shifting rod 65, the shifting rod 65 has a certain length, and a user can rotate the clamping knob 61 conveniently, so that two states of clamping and non-clamping can be switched conveniently.
The connecting rod 62 penetrates into the wire inlet and the wire outlet 11 through a connecting hole, the connecting rod 62 is provided with a threaded section 64, the connecting hole is provided with internal threads (not marked in the figure), and the threaded section 64 is matched with the internal threads. This screw thread section 64 and internal thread play limiting displacement, prevent connecting rod 62 automatic activity at will, and can increase the chucking resistance, improve the stability of chucking effect.
Limiting grooves 111 are formed in the wire inlet and the wire outlet 11, and the limiting grooves 111 are matched with the clamping wheels 63. During clamping, one end of the long shaft of the clamping wheel 63 is clamped, and the other end of the long shaft moves to the limiting groove 111; the bottom surface of the limiting groove 111 is arc-shaped, and the inlet of the clamping wheel 63 is the shallowest position of the limiting groove 111 and smoothly enters; the limiting position of the clamping wheel 63 is the deepest position of the limiting groove 111, and the clamping wheel 63 cannot be transferred out of the limiting groove 111; thereby the chucking rotation direction of restriction chucking wheel 63 and the rotation direction that resets avoid it to rotate to cross and can not realize the chucking effect after the position, further promote chucking spare 6's practicality.
Example 2
Example 3
The above is only a specific embodiment of the present invention, but the technical features of the present invention are not limited thereto. Any simple changes, equivalent substitutions or modifications made on the basis of the present invention to solve the same technical problems and achieve the same technical effects are all covered in the protection scope of the present invention.
Claims (10)
1. Medical electrocardiograph electric wire storage device, its characterized in that: including the spiral box, the spiral box includes the shell, locates reel in the shell and locating torsional spring in the reel, the shell is equipped with inlet wire and outlet, it has this electric wire to wind on the reel, the one end of electric wire is followed the inlet wire is worn out and is connected this electrocardiograph, the other end of electric wire is followed the outlet is worn out and is connected with the electric plug.
2. The medical electrocardiograph wire housing device according to claim 1, wherein: the surface of the shell is connected with a positioning rod, the positioning rod is provided with a positioning structure, and the wire coiling box is positioned and placed through the positioning structure.
3. The medical electrocardiograph wire housing device according to claim 2, wherein: the positioning structure is a screw positioning head.
4. The medical electrocardiograph wire housing device according to claim 2, wherein: the positioning structure is a magnet positioning head.
5. The medical electrocardiograph wire housing device according to claim 2, wherein: the positioning structure is a sucker positioning head.
6. The medical electrocardiograph wire housing device according to claim 2, wherein: the locating lever pass through the otic placode connect in the shell, the otic placode is located the shell to be equipped with the perforating hole, the locating lever includes spacing section, spacing section with the perforating hole matches each other, makes locating lever swing joint in the perforating hole.
7. The medical electrocardiograph wire housing device according to claim 1, wherein: the inlet with the outlet all is equipped with the chucking spare, through the chucking spare chucking the electric wire.
8. The medical electrocardiograph wire housing device according to claim 7, wherein: the clamping piece comprises a connecting rod, a clamping wheel and a clamping knob, the connecting rod penetrates into the wire inlet and the wire outlet, the clamping wheel is arranged at the penetrating section, and the section of the clamping wheel is oval; the clamping knob controls the connecting rod.
9. The medical electrocardiograph wire housing device according to claim 8, wherein: the connecting rod penetrates into the wire inlet and the wire outlet through a connecting hole, the connecting rod is provided with a threaded section, the connecting hole is provided with an internal thread, and the threaded section is matched with the internal thread.
10. The medical electrocardiograph wire housing device according to claim 9, wherein: and the wire inlet and the wire outlet are internally provided with a limiting groove, and the limiting groove is matched with the clamping wheel.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123110259.6U CN216763924U (en) | 2021-12-09 | 2021-12-09 | Medical electrocardiograph wire storage device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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CN202123110259.6U CN216763924U (en) | 2021-12-09 | 2021-12-09 | Medical electrocardiograph wire storage device |
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CN216763924U true CN216763924U (en) | 2022-06-17 |
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CN202123110259.6U Active CN216763924U (en) | 2021-12-09 | 2021-12-09 | Medical electrocardiograph wire storage device |
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CN (1) | CN216763924U (en) |
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2021
- 2021-12-09 CN CN202123110259.6U patent/CN216763924U/en active Active
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