CN215733536U - Flat panel detector bottom surface charging structure in flat panel storage box - Google Patents

Abstract

The utility model discloses a bottom surface charging structure of a flat panel detector in a flat panel storage box, which comprises a flat panel detector, a flat panel detector storage component and a charging component, wherein the flat panel detector storage component comprises a charging component; a charging contact is arranged on the back of the flat panel detector; the flat panel detector storage assembly comprises a tray and a storage box, the flat panel detector is fixed on the tray, and the tray is connected with the storage box in a sliding manner; the charging assembly comprises a guide groove, an upper wedge block and a lower wedge block, wherein limiting parts are arranged at two ends of the guide groove, a charging circuit board is arranged on the upper wedge block, elastic parts are arranged at two ends of the upper wedge block, and the lower wedge block is fixed at the bottom of the storage box. The charging assembly is positioned in the storage box, the taking and placing of the flat panel detector cannot be influenced, the structure is simple, the operation is convenient, and the failure rate is low.

Description

Flat panel detector bottom surface charging structure in flat panel storage box

Technical Field

The utility model relates to a bottom surface charging structure of a flat panel detector in a flat panel storage box.

Background

In order to facilitate the operation convenience of the flat panel detector, many flat panel detectors adopt a wireless type, such as leaving a corresponding charging contact or taking down a battery for charging. The charging mode of taking the battery off brings much inconvenience to doctors due to the limitation of the battery capacity. Some flat panel charging adopts the magnetism mode of inhaling, puts into the storage box with flat panel detector after, needs manual operation to charge the flat panel, has increased the complexity of operation. Some flat panel detector charging contacts are positioned at the end parts, the charging thimble is fixed in the storage box, the tray and the storage box are generally connected in a sliding rail mode, and when the tray drives the flat panel detector to move in place, the positioning of the flat panel detector charging contacts and the charging thimble is not accurate enough due to low precision of the sliding rail, so that inconvenience is brought to the installation and charging of the structure; some flat charging contacts are positioned on the back of the flat detector, which brings inconvenience to manual operation, if the charging structure is directly fixed on the tray, the contact and separation of the flat detector contacts can not be realized in the storage state and the pull-out state of the tray, certain influence is generated on the taking and placing of the flat, and certain abrasion is generated on the charging electric shock when the flat detector is taken and placed. The utility model provides a charging structure mainly aiming at automatic charging of a flat panel detector with a charging contact at the bottom in a storage box.

SUMMERY OF THE UTILITY MODEL

In view of the defects of the prior art, the utility model aims to provide a bottom charging structure for a flat panel detector in a flat panel storage box.

In order to achieve the purpose, the utility model adopts the following technical scheme:

a bottom surface charging structure of a flat panel detector in a flat panel storage box comprises the flat panel detector, a flat panel detector storage component and a charging component;

a charging contact is arranged on the back of the flat panel detector;

the flat panel detector storage assembly comprises a tray and a storage box, the flat panel detector is fixed on the tray, and the tray is connected with the storage box in a sliding manner;

the charging assembly comprises a guide groove, a sliding block and a jacking block, the jacking block is positioned below the sliding block and used for jacking the sliding block, the guide groove is embedded and fixed in the middle of the tray, and the sliding block is embedded in the guide groove;

a charging circuit board is arranged on the sliding block, a charging spring thimble is arranged on the charging circuit board, and the charging spring thimble is used for contacting with the charging contact to charge the flat panel detector; the sliding blocks positioned on two sides of the charging circuit board are provided with limiting grooves, and the limiting grooves are used for placing and fixing the elastic component; one end of the elastic component is in contact with the bottom surface of the tray, and the other end of the elastic component is fixed at the bottom of the limiting groove; the upper wedge block is provided with a groove at two ends close to the limiting groove, limiting nails are arranged at two sides of the guide groove, the bottoms of the limiting nails penetrate through the guide groove to limit the sliding block downwards, the central shaft of the limiting nails is perpendicular to the central shaft of the spring, and the bottoms of the limiting nails are positioned in the grooves.

Furthermore, a flat panel detector limiting block is arranged on the tray and used for fixing the flat panel detector on the tray.

Further, the storage box is a square box body without a cover and with an opening on one side, and the opening is convenient for pulling the tray out of the storage box or pushing the tray into the storage box through a handle.

Further, a sliding rail is arranged between the two outer sides of the tray and the two inner sides of the storage box, and the tray is connected with the storage box in a sliding mode through the sliding rail.

Further, the elastic member is a spring.

Furthermore, the sliding block is an upper wedge block, the jacking block is a lower wedge block, the bottom surface of the upper wedge block is an inclined surface, the top surface of the lower wedge block is an inclined surface with the same inclination as the bottom surface of the upper wedge block, when the bottom surface of the upper wedge block contacts with the top surface of the lower wedge block, the bottom surface completely coincides with the top surface, no gap exists, and when the bottom surface of the upper wedge block contacts with the top surface of the lower wedge block, the thinner end of the upper wedge block contacts with the thicker end of the lower wedge block firstly.

Further, the bottom surface of the lower wedge block is provided with a roller.

Further, the jacking block is a jacking motor.

Furthermore, a sliding block is arranged on the contact surface of the sliding block and the guide groove, a guide rail is arranged on the contact surface of the guide groove and the sliding block, and the sliding block is embedded in the guide rail and used for realizing the relative sliding of the sliding block and the guide groove.

The utility model has the beneficial effects that:

1) the utility model realizes that the flat panel detector with the charging contact positioned on the back can be automatically charged in the storage box.

2) When the tray is pulled out, the charging assembly cannot influence the taking and the placing of the flat panel detector.

3) The utility model has simple structure, high reliability and low failure rate.

4) The utility model can realize the charging of the flat panel detector in horizontal and non-horizontal states.

5) According to the utility model, the guide groove is fixed below the tray, so that the spring thimble on the charging circuit board can be accurately aligned and contacted with the charging contact.

Drawings

FIG. 1 is a schematic structural diagram of a flat panel detector and a flat panel detector storage assembly in a flat panel detector bottom surface charging structure in a flat panel storage box according to the present invention;

FIG. 2 is a schematic diagram of a back structure of a flat panel detector in a bottom charging structure of the flat panel detector in the flat panel storage box according to the present invention;

FIG. 3 is a cross-sectional view of a bottom charging structure of a flat panel detector in a flat panel storage box according to the present invention;

FIG. 4 is a cross-sectional view of a charging assembly in a bottom charging structure of a flat panel detector in a flat panel storage box according to the present invention;

FIG. 5 is a schematic structural diagram of a charging assembly in a bottom charging structure of a flat panel detector in a flat panel storage box according to the present invention;

FIG. 6 is a schematic structural view of a flat panel detector storage assembly in a bottom charging structure of a flat panel detector in a flat panel storage box according to the present invention in a pulled-out state;

FIG. 7 is a schematic structural view of a charging assembly in a pulled-out state in a charging structure at the bottom surface of a flat panel detector in a flat panel storage box according to the present invention.

Reference numerals: 1. a flat panel detector; 2. a storage box; 3. a tray; 4. a limiting block; 5. a charging assembly; 11. a charging contact; 51. a guide groove; 52. an upper wedge block; 53. a lower wedge block; 54. a charging circuit board; 55. a spring; 56. and a limit pin.

Detailed Description

The utility model will be further described with reference to the accompanying drawings and the detailed description below:

a bottom surface charging structure of a flat panel detector in a flat panel storage box comprises a flat panel detector 1, a flat panel detector storage component and a charging component 5; the flat panel detector storage component is used for storing the flat panel detector 1, and the charging component 5 is arranged inside the flat panel detector 1 and used for charging the flat panel detector 1.

As shown in fig. 1, the flat panel detector storage assembly includes a tray 3 and a storage box 2, wherein the storage box 2 is a square box body without a cover and with an opening at one side, and the opening is convenient for pulling out the tray 3 from the storage box 2 or pushing the tray 3 into the storage box 2 through a handle. The flat panel detector 1 is fixed on the tray 3, and the tray 3 is provided with a flat panel detector 1 limiting block 4 for fixing the flat panel detector 1 on the tray 3; tray 3 and storage box 2 sliding connection are provided with the slide rail between 3 two outsides of tray and the two inboards of storage box 2, and tray 3 passes through the slide rail and stores 2 sliding connection of box, and 3 one sides of tray are provided with the handle, and the tray 3 of being convenient for pulls out through storing 2 opening one sides of box in the storage box 2, and then makes things convenient for getting of flat panel detector 1 to put.

As shown in fig. 2 and 3, the back surface of the flat panel detector 1 is provided with a charging contact 11, and the tray 3 is provided with an opening to expose the charging contact 11 on the back surface of the flat panel detector 1, so that the charging contact can be conveniently contacted with the electric contact component.

As shown in fig. 4 and 5, the charging assembly 5 includes a guide groove 51, an upper wedge 52 and a lower wedge 53, the guide groove 51 is inserted into and fixed to the middle of the tray 3, the upper surface of the guide groove 51 contacts the bottom surface of the tray 3, the upper wedge 52 is inserted into the guide groove 51, the upper wedge 52 can move up and down in the guide groove 51, and limit pins 56 are provided at both ends of the guide groove 51, the limit pins 56 are used for limiting the downward movement position of the upper wedge 52 and preventing the upper wedge 52 from moving downward and being detached from the guide groove 51. The two ends of the upper wedge block 52 are provided with grooves, the two sides of the guide groove 51 are provided with limit nails 56, the bottoms of the limit nails 56 penetrate through the two sides of the guide groove 51 to limit the sliding block downwards and are positioned in the grooves of the upper wedge block 52, the central shaft of the limit nail 56 is vertical to the central shaft of the spring 55, and the bottoms of the limit nails 56 are positioned in the grooves.

A charging circuit board 54 is arranged on the sliding block, and a charging spring thimble is arranged on the charging circuit board 54 and is used for contacting with the charging contact 11 to charge the flat panel detector 1; limiting grooves are formed in the sliding blocks on the two sides of the charging circuit board 54 and used for placing and fixing the elastic parts; one end of the elastic component is contacted with the bottom surface of the tray 3, and the other end is fixed at the bottom of the limiting groove; the charging spring thimble contacts the charging contact 11, thereby charging the flat panel detector 1. Elastic parts are arranged at two ends of the upper wedge block 52, one end of each elastic part is contacted with the bottom surface of the tray 3, and the other end of each elastic part is positioned at the bottom of a limiting groove in the upper wedge block 52; the resilient member is a spring 55.

A lower wedge 53 is fixed to the bottom of the storage case 2, and the lower wedge 53 is used to lift the upper wedge 52 up to bring the circuit board into contact with the charging contact 11. The bottom surface of the upper wedge 52 is an upwardly inclined bottom surface, and the top surface of the lower wedge 53 is an upwardly inclined top surface. When in contact, the thinner end of the upper wedge block is firstly contacted with the thicker end of the lower wedge block.

As shown in fig. 6 and 7, when the tray 3 is pulled out from the storage box 2, the upper wedge 52 is separated from the lower wedge 53 along with the tray 3, at this time, under the action of the self gravity of the upper wedge 52 and the tension of the spring 55, the upper wedge 52 moves downwards until contacting with the limit pin 56 and stopping moving downwards, the charging circuit board 54 also moves downwards along with the upper wedge 52, the spring 55 thimble on the circuit board moves to the lower side of the bottom surface of the tray 3 along with the charging circuit board 54, at this time, the charging assembly 5 is not damaged when the flat panel detector 1 is installed or removed, and the installation and removal operation of the flat panel detector 1 is also facilitated.

When the tray 3 is pushed into the storage box 2, the upper wedge block 52 moves along with the tray 3 towards the storage box 2, the ground of the upper wedge block 52 is contacted with the bottom surface of the lower wedge block 53, and because the bottom surfaces of the upper wedge block 52 and the lower wedge block 53 are inclined upwards, in the contact process, the upper wedge block 52 is forced to move upwards until the surface of the upper wedge block 52 is contacted with the bottom surface of the tray 3, the upper wedge block 52 drives the spring 55 on the charging circuit board 54 to move upwards until the spring 55 is contacted with the charging contact 11 on the back surface of the flat panel detector 1, so that the charging function is realized. During the upward movement of the upper wedge 52, the spring 55 is compressed.

As another preferred embodiment of the present invention, the lower wedge 53 may be replaced with a roller, and when the flat panel detector 1 is pulled out to a storage state, the roller pushes the upper wedge 52 to lift upward, thereby implementing a charging function.

As another preferred embodiment of the present invention, the guide groove 51 and the upper wedge 52 can be relatively slid by adding a slide block and a guide rail structure.

As another preferred embodiment of the present invention, a motor jacking mode is adopted, when the flat panel detector 1 is in the storage box 2, the motor drives the charging board to ascend for charging, and when the flat panel detector 1 is pulled out, the motor drives the charging circuit board to descend.

Various other modifications and changes may be made by those skilled in the art based on the above-described technical solutions and concepts, and all such modifications and changes should fall within the scope of the claims of the present invention.

Claims (9)

1. A bottom surface charging structure of a flat panel detector in a flat panel storage box is characterized by comprising a flat panel detector (1), a flat panel detector storage component and a charging component (5);

a charging contact (11) is arranged on the back of the flat panel detector (1);

the flat panel detector storage component comprises a tray (3) and a storage box (2), the flat panel detector (1) is fixed on the tray (3), and the tray (3) is connected with the storage box (2) in a sliding mode;

the charging assembly (5) comprises a guide groove (51), a sliding block and a jacking block, the jacking block is positioned below the sliding block and used for jacking the sliding block, the guide groove (51) is embedded and fixed in the middle of the tray (3), and the sliding block is embedded in the guide groove (51);

a charging circuit board (54) is arranged on the sliding block, a charging spring thimble is arranged on the charging circuit board (54), and the charging spring thimble is used for contacting with the charging contact (11) to charge the flat panel detector (1); limiting grooves are formed in the sliding blocks on the two sides of the charging circuit board (54), and the limiting grooves are used for placing and fixing the elastic parts; one end of the elastic component is in contact with the bottom surface of the tray (3), and the other end of the elastic component is fixed at the bottom of the limiting groove; the sliding block both ends are provided with the recess, guide slot (51) both sides are provided with spacing nail (56), spacing nail (56) bottom is passed guide slot (51) and is carried out down spacing to the sliding block, the center pin of spacing nail (56) with the center pin of spring (55) is perpendicular, spacing nail (56) bottom is located the recess.

2. The bottom surface charging structure of the flat panel detector in the flat panel storage box according to claim 1, wherein a flat panel detector limiting block (4) is arranged on the tray (3) and used for fixing the flat panel detector (1) on the tray (3).

3. The bottom charging structure of flat panel detector in flat panel storage box according to claim 1, wherein the storage box (2) is a square box body without cover and with one side open, the opening is convenient for pulling the tray (3) out of the storage box (2) or pushing the tray (3) into the storage box (2) through a handle.

4. The bottom charging structure of the flat panel detector in the flat panel storage box according to claim 1, wherein a sliding rail is arranged between two outer sides of the tray (3) and two inner sides of the storage box (2), and the tray (3) is slidably connected with the storage box (2) through the sliding rail.

5. The bottom charging structure of flat panel detector in flat panel storage box according to claim 1, wherein the elastic member is a spring (55).

6. The bottom charging structure of flat panel detector in flat panel storage box according to claim 1, wherein said sliding block is an upper wedge (52), said lifting block is a lower wedge (53), said upper wedge (52) has an inclined bottom surface, said lower wedge (53) has an inclined top surface with a gradient consistent with that of said upper wedge (52), when said upper wedge (52) contacts said lower wedge (53), said bottom surface completely coincides with said top surface without any gap, and when said upper wedge contacts said lower wedge (52), said thinner end of said upper wedge (52) contacts said thicker end of said lower wedge first.

7. The bottom charging structure of flat panel detector in flat panel storage box according to claim 6, wherein the bottom of the lower wedge block (53) is provided with a roller.

8. The bottom charging structure of flat panel detector in flat panel storage box according to claim 1, wherein the jacking block is a jacking motor.

9. The bottom charging structure of flat panel detector in flat panel storage box according to claim 1, wherein the contact surface of the sliding block and the guiding groove (51) is provided with a sliding block, the contact surface of the guiding groove (51) and the sliding block is provided with a guiding rail, and the sliding block is embedded in the guiding rail for realizing the relative sliding of the sliding block and the guiding groove (51).

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