CN113974681B - Liver elasticity detector - Google Patents

Abstract

The utility model provides a liver elasticity detector, relates to the technical field of medical appliances, and solves the problems that buffer protection and airflow dust removal of a detection head cannot be realized by structural improvement when the detection head is placed; the locking of the detection head and the wind power heat dissipation of the detector and the auxiliary anti-loosening problem of the cable plug can not be automatically realized when the cover plate of the placement box is closed through structural improvement. The liver elasticity detector comprises a detector; the detector is of a rectangular box-shaped structure. Through the arrangement of the handle rod, the auxiliary rod and the tooth row, the handle rod is connected with the cover plate in a welded mode through connection, the handle rod is of a cylindrical rod-shaped structure, and the handle rod is clamped with the groove when the cover plate is closed, so that the locking of the detection head can be realized; because the auxiliary rods are arranged in two, the two auxiliary rods are of rectangular rod-shaped structures, and the two auxiliary rods are respectively contacted with the two plugs when the cover plate is closed, the impact type fastening of the plugs can be automatically realized when the cover plate is closed, and the plugs can be prevented from loosening.

Description

Liver elasticity detector

Technical Field

The utility model belongs to the technical field of medical appliances, and particularly relates to a liver elasticity detector.

Background

Liver function tests are tests for detecting various indexes related to liver function metabolism by various biochemical test methods so as to reflect the basic condition of liver function. Liver function is various, so liver function examination methods are many, and liver elasticity is one of them.

The application number is as follows: CN201820644016.X discloses a liver B ultrasonic detection device, including the main machine cabinet, the upper end surface of main machine cabinet is provided with control panel, control panel's upper end surface is provided with the button, control panel's rear end surface fixedly connected with fixed plate, the upper end surface swing joint of fixed plate has the pivot, the upper end surface fixedly connected with linking bridge of pivot, the intermediate position parcel of linking bridge has the connecting axle, linking bridge's upper end surface fixedly connected with display, one side surface of control panel is inlayed and is had the connecting plate No. one. The liver B ultrasonic detection device is provided with the connecting support, the push rod and the protective cover, so that the position of the display can be conveniently adjusted, medical staff can observe images conveniently, dust can be prevented from falling into the probe, the liver B ultrasonic detection device can be conveniently moved, and a better application prospect is brought.

Liver detection devices similar to the above application currently suffer from the following drawbacks: firstly, the detection heads of the existing device are inserted and placed on the detector, so that buffer protection and airflow dust removal of the detection heads cannot be realized; moreover, the existing devices are generally provided with a placing box, but can not automatically realize locking of the detection head and wind power heat dissipation of the detector and auxiliary anti-loosening of the cable plug when the placing box cover plate is closed. Accordingly, the present utility model has been made in view of the above circumstances, and an object of the present utility model is to provide a liver elasticity detector which is improved in view of the conventional structure and the conventional drawbacks, and which is more practical.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a liver elasticity detector to solve the problems that in the prior art, detection heads of the existing device are inserted and placed on the detector, and buffer protection and airflow dust removal of the detection heads cannot be realized.

The aim and the effect of the liver elasticity detector are achieved by the following specific technical means:

the liver elasticity detector comprises a detector;

the detector is of a rectangular box-shaped structure;

a cleaning structure mounted on the detector;

the cleaning structure comprises:

the base body is welded on the detector and consists of two rectangular plates;

the two detection heads are arranged in total, and the two detection heads are arranged on the detector;

the placing box is welded on the detector and is of a rectangular box-shaped structure;

the cover plate is connected to the placement box in a sliding manner, and the cover plate and the placement box form a placement structure of the auxiliary tool together;

five grooves are formed in total, and the five grooves are formed in the detecting head in an array mode; the grooves are of annular groove structures, and the rectangular array-shaped grooves form an anti-skid structure of the detection head;

the handle rod is welded with the cover plate and is of a cylindrical rod-shaped structure, and the handle rod is clamped with the groove when the cover plate is closed.

Further, the detector further includes:

the gear row is welded on the handle rod, is meshed with the gear, and is in a rotating state when the cover plate is opened and closed in a sliding mode.

Further, the detector further includes:

the placing seat is welded on the detector, and two detection heads are inserted and placed on the placing seat;

the two protection seats are arranged in total, and the two protection seats are adhered to the placing seat; the two protection seats are of annular structures, and when the two detection heads are inserted into the placement seat, the head ends of the detection heads are in elastic contact with the protection seats.

Further, the detector further includes:

the through holes are formed in the shape of an annular array and are formed in the inner wall of the protection seat, the protection seat is of a hollow structure, and the through holes are in a jet shape when the head end of the detection head is in elastic contact with the protection seat.

Further, the cleaning structure includes:

the two sliding rods are welded on the seat body, and a sliding block is connected to the two sliding rods in a sliding way;

the cleaning block is adhered to the rear end face of the sliding block and is elastically contacted with a display screen on the detector.

Further, the detecting head further includes:

the connecting cable has a head end connected to the detecting head, a tail end of the connecting cable is of a plug structure, and a plug at the tail end of the connecting cable is spliced and connected with the detecting instrument;

the detector further comprises:

the auxiliary rods are arranged in two, and are of rectangular rod-shaped structures, and when the cover plate is closed, the two auxiliary rods are respectively contacted with the two plugs, so that the impact type fastening of the plugs can be automatically realized when the cover plate is closed.

Further, the detector further includes:

the rotating shaft is rotationally connected to the rear end face of the detector;

the gear is arranged on the rotating shaft;

the blade is installed on the rotating shaft, and the blade and the rotating shaft jointly form a wind power heat dissipation structure of the detector.

Compared with the prior art, the utility model has the following beneficial effects:

through the arrangement of the protection seats and the through holes, firstly, two protection seats are arranged in total, and the two protection seats are adhered to the placing seat; the two protection seats are of annular structures, and when the two detection heads are inserted into the placement seat, the head ends of the detection heads are in elastic contact with the protection seats, so that the protection of the head ends of the detection heads can be realized through the protection seats;

secondly, set up on the inner wall of protection seat because of the through-hole is annular array form, and the protection seat is hollow form structure to through-hole department is jet-propelled form when detecting head end and protection seat elastic contact, thereby can realize detecting head end's dust removal through the jet-propelled of through-hole.

Through the arrangement of the handle rod, the auxiliary rod and the tooth row, firstly, the handle rod is connected with the cover plate in a welded mode through connection, the handle rod is of a cylindrical rod-shaped structure, and the handle rod is clamped with the groove when the cover plate is closed, so that the locking of the detection head can be realized;

secondly, because the auxiliary rods are two in total and are of rectangular rod-shaped structures, and the two auxiliary rods are respectively contacted with the two plugs when the cover plate is closed, the impact type fastening of the plugs can be automatically realized when the cover plate is closed, and the plugs can be prevented from loosening;

thirdly, because the tooth row is welded on the handle rod and is meshed with the gear, and the gear and the blades are in a rotating state when the cover plate is opened and closed in a sliding mode, wind power heat dissipation of the detector can be achieved.

Drawings

Fig. 1 is an isometric view of the present utility model.

Fig. 2 is a schematic diagram of the front view structure of the present utility model.

Fig. 3 is an enlarged schematic view of the structure of fig. 2 at a in accordance with the present utility model.

Fig. 4 is a schematic diagram of an isometric view of the utility model in another direction from fig. 1.

Fig. 5 is an enlarged schematic view of the structure of fig. 4 at B according to the present utility model.

Fig. 6 is a right-side view of the present utility model.

Fig. 7 is an isometric enlarged schematic view of a removal detector and cleaning structure of the present utility model.

Fig. 8 is an enlarged schematic view of the structure of fig. 7 at C according to the present utility model.

In the figure, the correspondence between the component names and the drawing numbers is:

1. a detector; 101. placing a box; 102. a cover plate; 103. a handle bar; 104. an auxiliary lever; 105. a tooth row; 107. a placement seat; 108. a protective seat; 109. a rotating shaft; 110. a blade; 111. a gear; 112. a through hole; 2. a cleaning structure; 201. a base; 202. a slide bar; 203. a sliding block; 204. a cleaning block; 3. a detection head; 301. a connecting cable; 302. a groove.

Detailed Description

Embodiments of the present utility model are described in further detail below with reference to the accompanying drawings and examples. The following examples are illustrative of the utility model but are not intended to limit the scope of the utility model.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present utility model, it should be noted that, unless explicitly specified and limited otherwise, the terms "connected," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium. The specific meaning of the above terms in the present utility model will be understood in specific cases by those of ordinary skill in the art.

Examples:

as shown in fig. 1 to 8:

the utility model provides a liver elasticity detector, which comprises a detector 1, wherein the detector 1 is of a rectangular box-shaped structure; cleaning structure 2, cleaning structure 2 installs on detector 1, and cleaning structure 2 includes: the base 201, the base 201 is welded on the detector 1, and the base 201 is composed of two rectangular plates; the detection heads 3, the detection heads 3 are provided with two in total, and the two detection heads 3 are all installed on the detector 1.

Referring to fig. 1, a placement box 101 is arranged on a detector 1, the placement box 101 is welded on the detector 1, and the placement box 101 is of a rectangular box-shaped structure; the cover plate 102, the cover plate 102 is slidably connected to the placement box 101, and the cover plate 102 and the placement box 101 together form a placement structure for the auxiliary tool, so that the auxiliary tool can be placed in the placement box 101.

Referring to fig. 1, the cleaning structure 2 includes: the two sliding rods 202 are arranged in total, the two sliding rods 202 are welded on the seat body 201, and the two sliding rods 202 are connected with the same sliding block 203 in a sliding way; the cleaning block 204, the cleaning block 204 is adhered to the rear end face of the sliding block 203, and the cleaning block 204 is in contact with the display screen on the detector 1, so that wiping cleaning of the display screen on the detector 1 can be realized when the sliding block 203 is slid up and down.

Referring to fig. 2 and 3, the detecting head 3 includes: the grooves 302, the grooves 302 are provided with five in total, and the five grooves 302 are axially arranged on the detection head 3; the grooves 302 are of annular groove structures, and the rectangular array-shaped grooves 302 jointly form an anti-skid structure of the detection head 3, so that the anti-skid capability of the hand and the detection head 3 can be improved when the detection head 3 is held by hand.

Referring to fig. 1, the detector 1 further includes: the handle bar 103, the handle bar 103 is welded with the cover plate 102, and the handle bar 103 is in a cylindrical bar-shaped structure, and when the cover plate 102 is closed, the handle bar 103 is clamped with the groove 302, so that the locking of the detection head 3 can be realized.

Referring to fig. 4, 5 and 7, the detection head 3 further includes: the connecting cable 301, the head end of the connecting cable 301 is connected to the detecting head 3, the tail end of the connecting cable 301 is of a plug structure, and the plug at the tail end of the connecting cable 301 is connected with the detecting instrument 1 in a plug-in connection manner; the detector 1 further includes: the auxiliary rods 104 are arranged in total, the two auxiliary rods 104 are of rectangular rod-shaped structures, and when the cover plate 102 is closed, the two auxiliary rods 104 are respectively contacted with the two plugs, so that impact fastening of the plugs can be automatically realized when the cover plate 102 is closed, and loosening of the plugs can be prevented.

Referring to fig. 4, the detector 1 further includes: a rotating shaft 109, wherein the rotating shaft 109 is rotatably connected to the rear end face of the detector 1; a gear 111, the gear 111 being mounted on the rotation shaft 109; the blade 110, the blade 110 is installed on the pivot 109, and the blade 110 and the pivot 109 jointly form the wind power heat dissipation structure of the detector 1, so that when the pivot 109 rotates, the wind power heat dissipation of the detector 1 can be realized through the blade 110.

Referring to fig. 4, the detector 1 further includes: the tooth row 105 is welded on the handle bar 103, the tooth row 105 is meshed with the gear 111, and when the cover plate 102 is opened and closed in a sliding mode, the tooth row 105 moves along the axial direction to drive the gear 111 and the blades 110 to be in a rotating state, so that wind power heat dissipation of the detector 1 can be realized.

Referring to fig. 7, the detector 1 further includes: the placing seat 107, the placing seat 107 is welded on the detector 1, and the two detecting heads 3 are arranged on the placing seat 107 in a plugging manner; the two protection seats 108 are arranged in total, and the two protection seats 108 are adhered to the placing seat 107; the two protection seats 108 are of annular structures and are elastic, and when the two detection heads 3 are inserted into the placement seat 107, the head ends of the detection heads 3 are in contact with the protection seats 108, so that buffer protection of the head ends of the detection heads 3 can be realized through the protection seats 108.

Referring to fig. 7 and 8, the detector 1 further includes: the through holes 112 are formed in an annular array on the inner wall of the protection seat 108, the protection seat 108 is of a hollow structure, and when the head end of the detection head 3 is in elastic contact with the protection seat 108, the through holes 112 are in a jet-type shape, so that dust removal of the head end of the detection head 3 can be realized through jet of the through holes 112.

In another embodiment, the through holes 112 are tapered hole-like structures, so that the dust removal range of the through holes 112 can be increased. Specific use and action of the embodiment: when the detection head 3 is placed, the detection head 3 is firstly inserted into the placement seat 107, and at the moment, the two protection seats 108 are arranged at the first time, and the two protection seats 108 are adhered to the placement seat 107; the two protection seats 108 are of annular structures, and when the two detection heads 3 are inserted into the placement seat 107, the head ends of the detection heads 3 are in elastic contact with the protection seats 108, so that the protection of the head ends of the detection heads 3 can be realized through the protection seats 108; secondly, because the through holes 112 are formed in an annular array shape on the inner wall of the protection seat 108, the protection seat 108 is in a hollow structure, and when the head end of the detection head 3 is in elastic contact with the protection seat 108, the through holes 112 are in a jet shape, so that the effect of dust removal of the head end of the detection head 3 can be achieved through the jet of the through holes 112.

The cover plate 102 is closed, at the moment, firstly, the handle bar 103 is welded and connected with the cover plate 102, the handle bar 103 is of a cylindrical bar-shaped structure, and when the cover plate 102 is closed, the handle bar 103 is clamped with the groove 302, so that the locking of the detection head 3 can be realized, and the fixing effect is achieved; secondly, because the auxiliary rods 104 are provided with two, and the two auxiliary rods 104 are of rectangular rod-shaped structures, and the two auxiliary rods 104 are respectively contacted with the two plugs when the cover plate 102 is closed, the impact fastening of the plugs can be automatically realized when the cover plate 102 is closed, and the plugs can be prevented from loosening; third, since the gear row 105 is welded on the handle bar 103, and the gear row 105 is engaged with the gear 111, and the gear 111 and the blade 110 are driven to rotate by the gear row 105 when the cover 102 is opened and closed in a sliding manner, thereby achieving wind power heat dissipation of the detector 1.

When the display screen is cleaned, two sliding rods 202 are arranged, the two sliding rods 202 are welded on the seat 201, and a sliding block 203 is connected to the two sliding rods 202 in a sliding way; the cleaning block 204 is adhered to the rear end face of the sliding block 203, and the cleaning block 204 is elastically contacted with the display screen on the detector 1, so that wiping cleaning of the display screen on the detector 1 can be realized when the sliding block 203 is slid up and down.

The embodiments of the utility model have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the utility model in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the utility model and the practical application, and to enable others of ordinary skill in the art to understand the utility model for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (7)

1. Liver elasticity detector, its characterized in that: comprises a detector;

the detector is of a rectangular box-shaped structure;

a cleaning structure mounted on the detector;

the cleaning structure comprises:

the base body is welded on the detector and consists of two rectangular plates;

the two detection heads are arranged in total, and the two detection heads are arranged on the detector;

the placing box is welded on the detector and is of a rectangular box-shaped structure;

the cover plate is connected to the placement box in a sliding manner, and the cover plate and the placement box form a placement structure of the auxiliary tool together;

five grooves are formed in total, and the five grooves are formed in the detecting head in an array mode; the grooves are of annular groove structures, and the rectangular array-shaped grooves form an anti-skid structure of the detection head;

the handle rod is welded with the cover plate and is of a cylindrical rod-shaped structure, and the handle rod is clamped with the groove when the cover plate is closed.

2. A liver elasticity tester as claimed in claim 1, wherein: the cleaning structure includes:

the two sliding rods are welded on the seat body, and a sliding block is connected to the two sliding rods in a sliding way;

the cleaning block is adhered to the rear end face of the sliding block and is elastically contacted with a display screen on the detector.

3. A liver elasticity tester as claimed in claim 1, wherein: the detection head further comprises:

the connecting cable has a head end connected to the detecting head, a tail end of the connecting cable is of a plug structure, and a plug at the tail end of the connecting cable is spliced and connected with the detecting instrument;

the detector further comprises:

the auxiliary rods are arranged in total, the two auxiliary rods are of rectangular rod-shaped structures, and the two auxiliary rods are respectively contacted with the two plugs when the cover plate is closed.

4. A liver elasticity tester as claimed in claim 1, wherein: the detector further comprises:

the rotating shaft is rotationally connected to the rear end face of the detector;

the gear is arranged on the rotating shaft;

the blade is installed on the rotating shaft, and the blade and the rotating shaft jointly form a wind power heat dissipation structure of the detector.

5. The liver elasticity tester of claim 4, wherein: the detector further comprises:

the gear row is welded on the handle rod, is meshed with the gear, and is in a rotating state when the cover plate is opened and closed in a sliding mode.

6. A liver elasticity tester as claimed in claim 1, wherein: the detector further comprises:

the placing seat is welded on the detector, and two detection heads are inserted and placed on the placing seat;

the two protection seats are arranged in total, and the two protection seats are adhered to the placing seat; the two protection seats are of annular structures, and when the two detection heads are inserted into the placement seat, the head ends of the detection heads are in elastic contact with the protection seats.

7. The liver elasticity tester of claim 6, wherein: the detector further comprises:

the through holes are formed in the shape of an annular array and are formed in the inner wall of the protection seat, the protection seat is of a hollow structure, and the through holes are in a jet shape when the head end of the detection head is in elastic contact with the protection seat.