CN218105903U - Electrocardiogram line storage box - Google Patents

Abstract

The utility model discloses an electrocardiogram circuit receiver, including box main part, baffle and a plurality of piece of accomodating. Two opposite side walls of the box main body are respectively provided with an incoming line intersection and an outgoing line intersection; the partition plate is detachably and horizontally arranged in the box main body so that the internal space of the box main body is divided into an upper space and a lower space, the upper space is respectively communicated with the upper half part of the incoming line intersection and the upper half part of the outgoing line intersection, and the lower space is respectively communicated with the lower half part of the incoming line intersection and the lower half part of the outgoing line intersection; a part of the plurality of receiving blocks is positioned in the upper space of the box main body and is rotatably connected with the partition board at intervals; the remaining receiving blocks of the plurality of receiving blocks are located in the lower space of the box main body and are rotatably connected to the bottom plate of the box main body at intervals. The utility model discloses can avoid many lead wire twines of electrocardiograph together effectively, possible arrangement is convenient, alleviates the burden, facilitates the use.

Description

Electrocardiogram line storage box

Technical Field

The utility model relates to the technical field of medical equipment, in particular to electrocardiogram circuit receiver.

Background

When the medical staff inspects the patient, an electrocardiograph is often needed, the electrocardiograph can automatically record the bioelectric signals generated by exciting the cardiac muscle during the heart activity, and effective information can be provided for clinical diagnosis of the medical staff.

When the electrocardiograph lead wires are used up, if the lead wires are not arranged and arranged in order in time, the lead wires are very easy to be wound together, the reuse is extremely inconvenient, a large amount of time is spent when the lead wires are disconnected, and a large workload is brought to medical staff.

SUMMERY OF THE UTILITY MODEL

The utility model discloses aim at solving one of the technical problem that exists among the prior art at least. Therefore, an object of the utility model is to provide an electrocardiogram circuit receiver, can avoid the many lead wire twines of electrocardiograph together effectively, can accomplish the arrangement convenience, alleviates the burden, facilitates the use.

According to the utility model discloses heart electrograph circuit receiver, include:

the box comprises a box main body, wherein the top of the box main body is open, and two opposite side walls of the box main body are respectively provided with an incoming line intersection and an outgoing line intersection;

the baffle is detachably and horizontally arranged in the box main body, so that the internal space of the box main body is divided into an upper space and a lower space, the upper space is respectively communicated with the upper half part of the incoming line intersection and the upper half part of the outgoing line intersection, and the lower space is respectively communicated with the lower half part of the incoming line intersection and the lower half part of the outgoing line intersection;

a plurality of receiving blocks, a part of which is positioned in the upper space of the box main body and is rotatably connected with the partition plate at intervals; the rest of the plurality of the receiving blocks are located in the lower space of the box main body and are spaced apart from each other to rotatably connect the bottom plate of the box main body.

According to the utility model discloses an electrocardiogram circuit receiver, during the use, in the many lead wire that link to each other with the electrocardiograph, partly lead wire get into the upper portion space of box main part from the first half of circuit import after respectively corresponding ground (for example one-to-one ground) around locating on the receiving block on the baffle and stretch out box main part from the first half of circuit export again, the lead wire of the rest part gets into the lower part space of box main part from the lower half of circuit import after respectively corresponding ground (for example one-to-one ground) twines on the receiving block on the bottom plate of box main part and stretches out box main part from the lower half of circuit export again, here, the one end that the lead wire stretches out from circuit export is the end of lead wire; when the lead wires need to be stored, the partition plate can be detached firstly, the storage blocks in the lower space are rotated through external action, the corresponding lead wires can be wound and stored quickly, then the partition plate is placed in the box main body, the storage blocks in the upper space are rotated through external action, and the corresponding lead wires can be wound and stored quickly; therefore, a plurality of lead wires of the electrocardiograph can be effectively prevented from being wound together, the sorting operation is convenient, and the working efficiency is increased; when the line is released to the line of leading to needs, can drive the piece of accomodating and rotate through the end of pulling line of leading to release the line of leading. In a word, the utility model discloses can avoid electrocardiograph's many lead wire winding together effectively, arrangement convenient operation has increased work efficiency, has alleviateed medical staff's burden, facilitates the use. In addition, through setting up the baffle for compact structure practices thrift occupation space.

In some embodiments, the bottom of each accommodating block is provided with a connecting column, and the bottom end of the connecting column is provided with a movable ball; annular movable grooves for mounting the movable balls are respectively formed in the partition plate and the bottom plate of the box main body; the movable balls of the plurality of receiving blocks are correspondingly installed in the annular movable grooves, so that the corresponding receiving blocks can horizontally rotate along the corresponding annular movable grooves.

In some embodiments, the receiving block comprises an upper end plate and a column body which are connected, and a first line receiving groove and a first line integration area are arranged on the upper end plate; the cylinder and the upper end plate can rotate relatively; when the guide line is used, one guide line can enter the first line integration area from one of the first line receiving grooves and then is wound on the column body and sequentially passes through the first line integration area and the other first line receiving groove.

In some embodiments, the accommodating block further includes the lower end plate, the lower end plate is provided with a second line accommodating groove and a second line integrating area, the column includes an upper column body and a lower column body, the circumferential surface of the upper column body and the circumferential surface of the lower column body are respectively provided with a fixture block at intervals for limiting the lead line in the up-down direction, the upper end of the upper column body is connected with the upper end plate, the upper column body and the upper end plate can rotate relatively, the lower end of the upper column body is connected with the upper end of the lower column body, the lower end of the lower column body is connected with the lower end plate, and the lower column body and the lower end plate can rotate relatively; when the device is used, one lead wire can enter the first line integration area from one of the first line storage grooves, then is wound on the upper cylinder and is limited in the vertical direction through the fixture block on the upper cylinder, then sequentially passes through the first line integration area and the other first line storage groove, and the other lead wire can enter the second line integration area from one of the second line storage grooves, then is wound on the lower cylinder and is limited in the vertical direction through the fixture block on the lower cylinder, and then sequentially passes through the second line integration area and the other second line storage groove.

In some embodiments, the lateral surface of the fixture block is an arc-shaped concave surface.

In some embodiments, an elastic column is arranged at the bottom end of the upper column body, a limiting block is arranged at the lower end of the elastic column, a limiting hole is arranged on the upper end face of the lower column body, and the limiting block is correspondingly located in the limiting hole.

In some embodiments, the end of the partition board and the middle part of the inner side of the box main body are respectively provided with a magnetic block, and the partition board is detachably connected with the box main body through the magnetic block.

In some embodiments, the case further comprises a case cover, and the case cover is arranged at the top of the case body.

In some embodiments, an absorption layer is arranged on the inner side of the top end of the box body, and the box cover is connected with the absorption layer.

In some embodiments, the line inlet and the line outlet extend vertically downward to proximate the bottom panel of the cartridge body and extend vertically upward to a top of the cartridge body.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

The above and/or additional aspects and advantages of the present invention will become apparent and readily appreciated from the following description of the embodiments, taken in conjunction with the accompanying drawings of which:

fig. 1 is a schematic structural view of an electrocardiogram line storage box according to an embodiment of the present invention.

Fig. 2 is a cross-sectional view of the electrocardiogram wire storage box of the embodiment of the present invention.

Fig. 3 is a schematic perspective view of a containing block in the electrocardiogram wire containing box according to an embodiment of the present invention.

Fig. 4 is a side view of the storage block in the electrocardiographic wire storage case according to the embodiment of the present invention.

Fig. 5 is a schematic structural view of a portion a in fig. 4.

Fig. 6 is a schematic structural view of a box cover in the electrocardiogram line storage box according to an embodiment of the present invention.

Reference numerals are as follows:

electrocardiographic circuit storage box 1000

Box body 1

Bottom plate 103 of incoming line intersection 101 and outgoing line intersection 102

Partition board 2

Upper space 201 and lower space 202

Receiving block 3

Upper end plate 304 of annular movable groove 303 of movable ball 302 of connecting column 301

First circuit receiving groove 3041 first circuit integration region 3042 column 305

Upper column 3051, lower column 3052, elastic column 3053, and limiting block 3054

Limiting hole 3055 and second line storage groove 3061 of lower end plate 306

Second line integration region 3062 fixture block 307

Box cover 4 handle 401

Adsorption layer 5

Detailed Description

Reference will now be made in detail to embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar function throughout. The embodiments described below with reference to the drawings are exemplary only for the purpose of explaining the present invention, and should not be construed as limiting the present invention.

An electrocardiographic line housing case 1000 according to an embodiment of the present invention is described below with reference to fig. 1 to 6.

As shown in fig. 1 to 2, an electrocardiographic circuit storage case 1000 according to an embodiment of the present invention includes a case main body 1, a partition plate 2, and a storage block 3. The top of the box main body 1 is open, and two opposite side walls of the box main body 1 are respectively provided with an incoming line intersection 101 and an outgoing line intersection 102; the partition 2 is detachably and horizontally arranged in the box main body 1 so as to divide the internal space of the box main body 1 into an upper space 201 and a lower space 202, the upper space 201 is respectively communicated with the upper half part of the incoming line intersection 101 and the upper half part of the outgoing line intersection 102, and the lower space 202 is respectively communicated with the lower half part of the incoming line intersection 101 and the lower half part of the outgoing line intersection 102; the plurality of receiving blocks 3, some of the plurality of receiving blocks 3 are positioned in the upper space 201 of the box main body 1 and are rotatably connected to the partition plate 2 at intervals; the remaining part of the plurality of housing blocks 3 is located in the lower space 202 of the cartridge body 1 and is rotatably attached with the bottom plate 103 of the cartridge body 1 at a spacing.

According to the utility model discloses an electrocardiogram circuit receiver 1000, during the use, in the many lead wires that link to each other with the electrocardiograph, after getting into the upper space 201 of box main part 1 from the first half of circuit import, respectively corresponding ground (for example one-to-one ground) around locating on the baffle 2 and receiving on the piece 3 and then stretching out box main part 1 from the first half of circuit export, after getting into the lower part space 202 of box main part 1 from the lower half of circuit import, the lead wire of the rest part twines on the piece 3 that receives on the bottom plate 103 of box main part 1 and then stretches out box main part 1 from the lower half of circuit export corresponding ground (for example one-to-one ground) respectively, here, the one end that the lead wire stretches out from the circuit export is the end of lead wire; when the lead wires need to be stored, the partition plate 2 can be detached firstly, the storage blocks 3 in the lower space 202 are rotated through external action, the corresponding lead wires can be wound and stored quickly, then the partition plate 2 is placed in the box main body 1, the storage blocks 3 in the upper space 201 are rotated through external action, and the corresponding lead wires can be wound and stored quickly; therefore, a plurality of lead wires of the electrocardiograph can be effectively prevented from being wound together, the sorting operation is convenient, and the working efficiency is increased; when the lead wire needs to be released, the tail end of the lead wire can be pulled to drive the accommodating block 3 to rotate, so that the lead wire is released. In a word, the utility model discloses can avoid electrocardiograph's many lead wire winding together effectively, arrangement convenient operation has increased work efficiency, has alleviateed medical staff's burden, facilitates the use. In addition, through setting up baffle 2 for compact structure practices thrift occupation space.

In some embodiments, as shown in fig. 4, the bottom of each receiving block 3 is provided with a connecting column 301, and the bottom end of the connecting column 301 is provided with a movable ball 302; the partition board 2 and the bottom board 103 of the box main body 1 are respectively provided with an annular movable groove 303 for installing a movable ball 302; the movable balls 302 of the plurality of receiving blocks 3 are correspondingly installed in the annular movable groove 303, so that the corresponding receiving blocks 3 can horizontally rotate along the corresponding annular movable groove 303, and the receiving blocks 3 can conveniently wind or release the lead wire.

In some embodiments, as shown in fig. 3 and 4, the receiving block 3 includes an upper end plate 304 and a column 305 connected to each other, the upper end plate 304 is provided with a first line receiving groove 3041 and a first line integrating area 3042; the column body 305 and the upper end plate 304 can rotate relatively; when in use, a lead wire may enter the first wire integration region 3042 from one of the first wire receiving grooves 3041, and then wind around the column 305, and sequentially pass through the first wire integration region 3042 and the other first wire receiving groove 3041. Thus, by providing the first wire housing groove 3041 and the first wire integrating region 3042, the winding of a plurality of lead wires of the electrocardiograph can be effectively prevented, and the sorting operation is convenient.

In some embodiments, as shown in fig. 3 and 4, the receiving block 3 further includes a lower end plate 306, the lower end plate 306 is provided with a second line receiving groove 3061 and a second line integrating area 3062, the column 305 includes an upper column 3051 and a lower column 3052, the peripheral surface of the upper column 3051 and the peripheral surface of the lower column 3052 are respectively provided with a block 307 at intervals for limiting the lead line in the up-down direction, the upper end of the upper column 3051 is connected with the upper end plate 304, the upper column 3051 and the upper end plate 304 can rotate relatively, the lower end of the upper column 3051 is connected with the upper end of the lower column 3052, the lower end of the lower column 3052 is connected with the lower end plate 306, and the lower column 3052 and the lower end plate 306 can rotate relatively; when the connecting device is used, one connecting line can enter the first line integrating area 3042 from one first line accommodating groove 3041, then is wound on the upper column body 3051 and is limited in the up-down direction through the fixture block 307 on the upper column body 3051, then sequentially passes through the first line integrating area 3042 and the other first line accommodating groove 3041, and the other connecting line can enter the second line integrating area 3062 from one second line accommodating groove 3061, then is wound on the lower column body 3052 and is limited in the up-down direction through the fixture block 307 on the lower column body 3052, and then sequentially passes through the second line integrating area 3062 and the other second line accommodating groove 3061. Like this, two lead wires can be accomodate simultaneously to same receipts piece 3, compact structure practices thrift the space. In addition, by providing the first line housing groove 3041 and the first line integrating region 3042, a plurality of lead wires of the electrocardiograph can be effectively prevented from being twisted together, and the sorting operation is convenient.

In some embodiments, as shown in fig. 3, the outer side surface of the clamping block 307 is an arc-shaped concave surface, so that the structure is simple, the processing is convenient, and the lead wire can be limited in the up-down direction.

In some embodiments, as shown in fig. 4 and 5, an elastic column 3053 is disposed at the bottom end of the upper column 3051, a limiting block 3054 is disposed at the lower end of the elastic column 3053, a limiting hole 3055 is disposed at the upper end face of the lower column 3052, and the limiting block 3054 is correspondingly disposed in the limiting hole 3055. Concretely, elastic column 3053 and stopper 3054 all adopt the elastic material preparation, be convenient for go up cylinder 3051 and the connection of cylinder 3052 down through the material that elastic column 3053 and stopper 3054 used, and wear-resisting, long service life, stopper 3054's radius is 0.2 ~ 0.3cm longer than spacing hole 3055's radius, design through stopper 3054 and spacing hole 3055, make the connection of going up cylinder 3051 and lower cylinder 3052 more firm, the dismouting is more convenient, stopper 3054 is the hemisphere, and the radian is unanimous with the radian of activity ball 302.

In some embodiments, the end of the partition board 2 and the middle position of the inner side of the box main body 1 are respectively provided with a magnetic block, and the partition board 2 is detachably connected with the box main body 1 through the magnetic block. Therefore, the partition board 2 can be prevented from moving and is convenient to disassemble and use.

In some embodiments, as shown in fig. 6, the electrocardiographic wire housing case 1000 further includes a case cover 4, and the case cover 4 is provided on the top of the case body 1. This can prevent foreign objects or dust from falling into the cartridge body 1.

Preferably, the box cover 4 is further provided with a handle 401 for facilitating the opening of the box cover 4.

In some embodiments, as shown in fig. 1, the box body 1 is provided with an absorption layer 5 at the inner side of the top end, and the box cover 4 is connected with the absorption layer 5. This prevents the cassette cover 4 from being displaced. Preferably, the adsorption layer 5 is a silica gel layer and is made of silica gel.

In some embodiments, the line inlets and line outlets extend vertically downward to near the bottom plate 103 of the cartridge body 1 and extend vertically upward to the top of the cartridge body 1. Therefore, the circuit inlet and the circuit outlet on the box main body 1 are simple in structure and convenient to process and use.

In the description herein, references to the description of the term "one embodiment," "some embodiments," "an illustrative embodiment," "an example," "a specific example," or "some examples" or the like mean that a particular feature, structure, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

While embodiments of the present invention have been shown and described, it will be understood by those of ordinary skill in the art that: various changes, modifications, substitutions and alterations can be made to the embodiments without departing from the principles and spirit of the invention, the scope of which is defined by the claims and their equivalents.

Claims (10)

1. The utility model provides an electrocardiogram line receiver which characterized in that includes:

the box comprises a box main body, wherein the top of the box main body is open, and two opposite side walls of the box main body are respectively provided with an incoming line intersection and an outgoing line intersection;

the baffle is detachably and horizontally arranged in the box main body, so that the internal space of the box main body is divided into an upper space and a lower space, the upper space is respectively communicated with the upper half part of the incoming line intersection and the upper half part of the outgoing line intersection, and the lower space is respectively communicated with the lower half part of the incoming line intersection and the lower half part of the outgoing line intersection;

a plurality of receiving blocks, a part of which is positioned in the upper space of the box main body and is rotatably connected with the partition plate at intervals; the rest of the plurality of the receiving blocks are located in the lower space of the box main body and are spaced apart from each other to rotatably connect the bottom plate of the box main body.

2. The electrocardiogram wire storage box according to claim 1, wherein a connecting column is arranged at the bottom of each storage block, and a movable ball is arranged at the bottom end of each connecting column; annular movable grooves for mounting the movable balls are respectively formed in the partition plate and the bottom plate of the box main body; the movable balls of the plurality of receiving blocks are correspondingly installed in the annular movable grooves so that the corresponding receiving blocks can horizontally rotate along the corresponding annular movable grooves.

3. The electrocardiogram line storage box according to claim 2, wherein the storage block comprises an upper end plate and a column body which are connected, the upper end plate being provided with a first line storage groove and a first line integration zone; the cylinder and the upper end plate can rotate relatively; when the guide line is used, one guide line can enter the first line integration area from one of the first line receiving grooves and then is wound on the column body and sequentially passes through the first line integration area and the other first line receiving groove.

4. The electrocardiogram line storage box according to claim 3, wherein the storage block further comprises a lower end plate, the lower end plate is provided with a second line storage groove and a second line integration area, the cylinder comprises an upper cylinder and a lower cylinder, the circumferential surface of the upper cylinder and the circumferential surface of the lower cylinder are respectively provided with a fixture block at intervals for limiting the lead line in the up-down direction, the upper end of the upper cylinder is connected with the upper end plate, the upper cylinder and the upper end plate can rotate relatively, the lower end of the upper cylinder is connected with the upper end of the lower cylinder, the lower end of the lower cylinder is connected with the lower end plate, and the lower cylinder and the lower end plate can rotate relatively; when the device is used, one lead wire can enter the first line integration area from one of the first line storage grooves, then is wound on the upper cylinder and is limited in the vertical direction through the fixture block on the upper cylinder, then sequentially passes through the first line integration area and the other first line storage groove, and the other lead wire can enter the second line integration area from one of the second line storage grooves, then is wound on the lower cylinder and is limited in the vertical direction through the fixture block on the lower cylinder, and then sequentially passes through the second line integration area and the other second line storage groove.

5. The electrocardiogram line storage box according to claim 4, wherein the outer side surface of the block is an arc concave surface.

6. The electrocardiogram line storage box according to claim 4, wherein an elastic column is arranged at the bottom end of the upper column body, a limiting block is arranged at the lower end of the elastic column, a limiting hole is arranged on the upper end face of the lower column body, and the limiting block is correspondingly located in the limiting hole.

7. The electrocardiograph line storage box according to claim 1, wherein magnetic blocks are respectively provided at an end of the partition plate and an inner middle portion of the box main body, and the partition plate is detachably connected to the box main body through the magnetic blocks.

8. The electrocardiograph line storage case according to claim 1, further comprising a case cover provided on a top of the case main body.

9. The electrocardiograph line storage box according to claim 8, wherein an adsorption layer is provided on an inner side of a top end of the box main body, and the box cover is connected to the adsorption layer.

10. The electrocardiogram line storage cassette of claim 1, wherein the line inlet and line outlet extend vertically downward to near the bottom panel of the cassette body and vertically upward to the top of the cassette body.

Images