CN211300048U - Case and ultrasonic diagnostic equipment - Google Patents

Abstract

The utility model provides a case and ultrasonic diagnostic equipment, which comprises a main case and an auxiliary case, wherein a front end plate and an ultrasonic mainboard which are vertically arranged are arranged in the main case, the ultrasonic mainboard and the front end plate are connected in a plug-in way, and a first plug-in part is arranged on one side of the front end plate, which is far away from the ultrasonic mainboard; the auxiliary case is internally provided with a vertically placed probe plate, the probe plate is provided with a second plug-in part, the main case and the auxiliary case are arranged along the height direction, and the first plug-in part is plugged with the second plug-in part. The utility model provides a quick-witted case and ultrasonic diagnosis equipment separates probe board and supersound mainboard respectively in the inside of mainframe box and auxiliary engine case, and the mode of pegging graft each other through first grafting portion and second grafting portion is connected supersound mainboard and probe board to connect mainframe box and auxiliary engine case, can enough make the probe board have great activity space, make the height of probe seat have great unsteady adjustment space in the design, and the shielding effect between probe board and the supersound mainboard is better.

Description

Case and ultrasonic diagnostic equipment

Technical Field

The utility model relates to the technical field of medical equipment, concretely relates to machine case and ultrasonic diagnosis equipment.

Background

At present, the user is more and more high to the diversified requirement of supersound product, and to desk-top ultrasonic diagnosis equipment, host computer machine case volume is great under the prerequisite of guaranteeing ultrasonic imaging quality on the market at present, and host computer machine incasement portion is equipped with: the probe board module is used for receiving, converting and converting various ultrasonic information to the carrier board module; the ultrasonic main board module is used for processing various ultrasonic information, parameter control, image information input/output and the like; the power supply module comprises an AC component, a power supply filter plate and an adapter and is used for inputting and outputting electric signals; an I/O module comprising: various interfaces, such as an HDMI interface, an AVG interface, a USB interface, and the like, are used for transmission of various information.

Among the prior art, parallel interval sets up between probe board module and the supersound mainboard module, and directly pegs graft between probe board module and the supersound mainboard module, adopts the mode of this direct grafting to have probe board position shielding effect not good and expose the probe insert the shortcoming that the position height of dialling receives quick-witted case restriction.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a machine case and ultrasonic diagnosis equipment to solve the direct integrated circuit board of probe board module and supersound mainboard module that exists among the prior art and to inserting the technical problem that leads to the shielding effect poor and the probe board position is restricted.

In order to achieve the above object, the utility model adopts the following technical scheme: the ultrasonic diagnosis equipment comprises a main case and an auxiliary case, wherein a front end plate and an ultrasonic main plate which are vertically arranged are arranged in the main case, the ultrasonic main plate and the front end plate are connected in an opposite insertion mode, and a first insertion part is arranged on one side, away from the ultrasonic main plate, of the front end plate; the auxiliary case is internally provided with a vertically placed probe plate, the probe plate is provided with a second plugging portion, the main case and the auxiliary case are arranged along the height direction, and the first plugging portion is plugged with the second plugging portion.

Furthermore, the auxiliary case is located above the main case, the first plugging portion is located at a position where the front end plate is close to the top of the main case, and the second plugging portion is located at a position where the probe plate is close to the bottom of the auxiliary case.

Furthermore, the first plugging part penetrates through the main case and the auxiliary case to be plugged with the second plugging part, or the second plugging part penetrates through the main case and the auxiliary case to be plugged with the first plugging part.

Further, still include power strip, computer mainboard and mother board in the mainframe box, the computer mainboard with the supersound mainboard is located respectively the both sides of power strip, the front end plate is located the supersound mainboard is kept away from one side of power strip, just the front end plate the supersound mainboard the power strip with the computer mainboard is in proper order perpendicularly inserted and is located on the mother board.

Furthermore, shielding plates are arranged between the adjacent front end plate, the ultrasonic main board, the power supply board and the computer main board.

Furthermore, a guide structure for inserting the first inserting part and the second inserting part is further arranged between the front end plate and the probe plate.

Further, the guide structure includes: the positioning column is arranged on the front end plate, and the first fixing hole is formed in the probe plate and used for the positioning column to penetrate through.

Furthermore, the positioning column comprises a first fixing column and a first tapered column which is located at one end, far away from the main board, of the first fixing column, and the first fixing column is fixedly connected with the first tapered column.

Furthermore, a fixed sleeve is arranged in the first fixed hole, the fixed sleeve is fixedly connected with the probe plate, and a limiting hole for the positioning column to pass through is formed in the fixed sleeve.

Furthermore, the portable computer case further comprises a base arranged at the bottom of the main case, the base is connected with the main case in a sliding mode, and a limiting structure which limits the main case to move forwards continuously after the first inserting portion and the second inserting portion are inserted is further arranged on the base.

Further, limit structure is for setting up with the spacing post of mainframe box butt on the base.

Furthermore, the base is provided with a support column for supporting the main case and the auxiliary case, and the main case and the auxiliary case are respectively fixed on two opposite sides of the support column.

The utility model also discloses an ultrasonic diagnosis equipment, include the quick-witted case in above-mentioned arbitrary.

The utility model provides a machine case and ultrasonic diagnosis equipment's beneficial effect lies in: compared with the prior art, the utility model discloses quick-witted case and ultrasonic diagnosis equipment, separate probe board and supersound mainboard respectively in the inside of mainframe box and auxiliary engine case, and the mode of pegging graft each other through first grafting portion and second grafting portion is connected supersound mainboard and probe board, thereby connect mainframe box and auxiliary engine case, can enough make the probe board have great activity space, make the height of probe seat can have great unsteady adjustment space in the design, and the shielding effect between probe board and the supersound mainboard is better, the mainframe box can be through sliding on the base, thereby realize the interconnect of first grafting portion and second grafting portion, only need take out the mainframe box during the maintenance and can realize the maintenance operation, can conveniently maintain the assembly, can design whole model more frivolous pleasing to the eye.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments or the technical solutions in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

Fig. 1 is a schematic perspective view of an ultrasonic diagnostic apparatus provided in an embodiment of the present invention;

fig. 2 is a schematic front view of an ultrasonic diagnostic apparatus according to an embodiment of the present invention, in which the first shielding member and the second shielding member are not shown;

FIG. 3 is a sectional view taken along line A-A of FIG. 2;

fig. 4 is a partially enlarged structural view of a portion B in fig. 3;

fig. 5 is a schematic perspective view of a positioning column and a fixing sleeve according to an embodiment of the present invention;

fig. 6 is a schematic perspective view of an ultrasonic diagnostic apparatus according to an embodiment of the present invention, in which the first shielding member and the second shielding member are not shown;

fig. 7 is a partially enlarged structural view of a portion C in fig. 6;

fig. 8 is a schematic perspective view of an ultrasonic diagnostic apparatus according to another angle provided by an embodiment of the present invention.

Description of reference numerals:

1. a main chassis; 2. an auxiliary chassis; 3. a positioning column; 4. fixing a sleeve; 5. a base; 6. a support pillar; 7. a limiting column; 11. an ultrasonic main board; 12. a first insertion part; 13. a first housing; 14. a slide plate; 15. a power panel; 16. a computer motherboard; 17. a motherboard; 18. a front end plate; 21. a probe plate; 22. a second insertion part; 23. a probe base; 24. a second housing; 211. a first fixing hole; 212. a limiting groove; 31. a first fixed column; 32. a first tapered column; 41. a limiting cover; 42. a connecting portion; 43. a limiting hole; 411. a limiting bulge; 51. a chute; 71. a second fixed column; 72. a second tapered column.

Detailed Description

The technical solution of the present invention will be described clearly and completely with reference to the accompanying drawings, and obviously, the described embodiments are some, but not all embodiments of the present invention. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are only for convenience of description and simplification of description, but do not indicate or imply that the device or element referred to must have a specific orientation, be constructed and operated in a specific orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Furthermore, the technical features mentioned in the different embodiments of the invention described below can be combined with each other as long as they do not conflict with each other.

Example 1

Referring to fig. 1 and fig. 4, the case of the present invention will now be described. The case is used for ultrasonic diagnosis equipment and comprises a main case 1 and an auxiliary case 2, wherein an ultrasonic main board 11 which is vertically placed is arranged in the main case 1, and a first plug-in part 12 is arranged on the ultrasonic main board 11; a vertically-arranged probe board 21 is arranged in the auxiliary case 2, a second plugging part 22 is arranged on the probe board 21, the main case 1 and the auxiliary case 2 are arranged along the height direction, and the first plugging part 12 and the second plugging part 22 are plugged with each other.

The utility model provides a machine case compares with prior art, separates probe board 21 and supersound mainboard 11 respectively in mainframe box 1 and auxiliary engine case 2's inside to the mode of pegging graft each other through first grafting portion 12 and second grafting portion 22 is connected supersound mainboard 11 and probe board 21, thereby is connected mainframe box 1 and auxiliary engine case 2. After the probe board 21 and the ultrasonic main board 11 are separated, the probe board 21 can have a large moving space, that is, a certain height difference can exist between the probe board 21 and the ultrasonic main board 11, and the corresponding probe seat 23 can also have a large floating adjustment space in design. Set up probe board 21 and supersound mainboard 11 respectively in the inside of mainframe box 1 and auxiliary engine case 2, can also make the shielding effect between probe board 21 and the supersound mainboard 11 better, mainframe box 1 can be through sliding on base 5, thereby realize the interconnect of first grafting portion 12 and second grafting portion 22, only need take mainframe box 1 out during the maintenance and can realize the maintenance operation, can conveniently maintain the assembly, can design whole model more frivolous pleasing to the eye.

Specifically, the direction of height when the quick-witted case normal use is referred to, and main chassis 1 and auxiliary engine case 2 all set up the inside at the quick-witted case to there is the difference in height between main chassis 1 and the auxiliary engine case 2, thereby makes main chassis 1 and auxiliary engine case 2 be poor in arranging in height, can reduce the volume of whole quick-witted case. In addition, the main cabinet 1 has a large number of plates and thus has a large size, and the auxiliary cabinet 2 has only the probe plate 21 therein and thus has a small size, so that the main cabinet 1 and the auxiliary cabinet 2 are arranged along the height to utilize the space to the maximum extent, thereby making the whole cabinet slimmer.

The mutual connection between the first inserting part 12 and the second inserting part 22 can realize the connection between the ultrasound main board 11 and the probe board 21 for data, electric energy and the like, wherein the ultrasound main board 11 can collect data information collected by the probe board 21, can process the data information collected by the probe board 21, and can process the data of ultrasound information.

Further, please refer to fig. 1 to 4, as a specific embodiment of the present invention, the main chassis 1 further includes a first housing 13, the ultrasonic main board 11 is disposed inside the first housing 13, the auxiliary chassis 2 includes a second housing 24, the probe board 21 is disposed inside the second housing 24, the first housing 13 and the second housing 24 are two relatively independent housings, a height difference exists between the first housing 13 and the second housing 24, and a height between the first housing 13 and the second housing 24 can be adjusted according to actual conditions. The first shell 13 is used for shielding the ultrasonic main board 11, the second shell 24 is used for shielding the probe board 21, a through hole for the first insertion part 12 to pass through is formed in the first shell 13, and a through hole for the second insertion part 22 to pass through is also formed in the second shell 24.

Further, please refer to fig. 1 to fig. 3 together, as a specific embodiment of the present invention, the auxiliary casing 2 is located above the main casing 1, the first plugging portion 12 is located at a position where the ultrasonic main board 11 is close to the main casing top 1, and the second plugging portion 22 is located at a position where the probe board 21 is close to the bottom of the auxiliary casing 2. Specifically, the auxiliary case 2 may be located directly above the main case 1 or obliquely above the main case 1, so that a height difference exists between the auxiliary case 2 and the main case 1, and the entire case may be designed to be thinner and lighter. The positions of the first mating part 12 and the second mating part 22 are respectively arranged above and below the main chassis 1 and the auxiliary chassis 2, so that the lower part of the auxiliary chassis 2 is mated with the upper part of the main chassis 1, and the height of the probe board 21 can be increased to the maximum extent. Of course, according to practical situations and specific requirements, in other embodiments of the present invention, the positions of the first inserting portion 12 and the second inserting portion 22 may also be adjusted according to the design requirements of the chassis, and are not limited herein.

Further, please refer to fig. 1 to fig. 3 together, as a specific embodiment of the present invention, the first plugging portion 12 passes through the main chassis 1 and the auxiliary chassis 2 to be plugged with the second plugging portion 22, or the second plugging portion 22 passes through the main chassis 1 and the auxiliary chassis 2 to be plugged with the first plugging portion 12. Specifically, the first insertion part 12 and the second insertion part 22 can be directly inserted, the first insertion part 12 or the second insertion part 22 is provided with a plurality of pins, and the second insertion part 22 or the first insertion part 12 is provided with a plurality of sockets for accommodating the pins, so that the first insertion part 12 and the second insertion part 22 can be connected with each other. The first mating part 12 and the second mating part 22 are separated in two relatively independent housings, so that a sidewall penetrating through the main housing 1 and the auxiliary housing 2 is required to be adopted between the first mating part 12 and the second mating part 22, and the first mating part 12 may penetrate through the sidewalls of the main housing 1 and the auxiliary housing 2, or the second mating part 22 may penetrate through the sidewalls of the main housing 1 and the auxiliary housing 2. Of course, according to practical situations and specific requirements, in other embodiments of the present invention, it is also possible that the first inserting portion 12 passes through the main chassis 1, and the second inserting portion 22 passes through the auxiliary chassis 2, so as to implement the inserting connection between the first inserting portion 12 and the second inserting portion 22, which is not limited herein.

Further, please refer to fig. 1 to fig. 3 together, as a specific implementation manner of the case provided by the present invention, the main case 1 further includes a power board 15, a computer motherboard 16 and a motherboard 17, the computer motherboard 16 and the ultrasonic motherboard 11 are respectively disposed on two sides of the power board 15, and the ultrasonic motherboard 11, the power board 15 and the computer motherboard 16 are sequentially and vertically inserted on the motherboard 17. Specifically, the ultrasonic main board 11, the power board 15 and the computer main board 16 are arranged in parallel, the main board 17 is arranged at the bottoms of the ultrasonic main board 11, the power board 15 and the computer main board 16, and the main board 17 is respectively connected with the ultrasonic main board 11, the power board 15 and the computer main board 16 in an inserted manner. The power board 15 is used for supplying power to the ultrasound main board 11, the motherboard 17 and the computer main board 16, the computer main board 16 is used for processing other information except ultrasound information in the ultrasound diagnostic equipment, for example, control information of other software, and the motherboard 17 can connect the probe board 21, the ultrasound main board 11, the power board 15 and the computer main board 16, thereby realizing overall control.

Further, referring to fig. 1 to fig. 3, as an embodiment of the present invention, the probe seat 23 is located on the upper portion of the probe plate 21. Specifically, the second inserting part 22 is located on the probe plate 21, the second inserting part 22 is used for achieving connection between the probe plate 21 and the ultrasonic main board 11, the probe seat 23 is used for being connected with a probe, the second inserting part 22 and the probe seat 23 are respectively arranged above and below the probe plate 21, the height of the probe seat 23 can be improved to the greatest extent, and therefore operation of plugging and unplugging the probe can be achieved by an operator conveniently, and the ultrasonic probe inserting and unplugging device is convenient to use. Of course, according to practical situations and specific needs, in other embodiments of the present invention, the second inserting portion 22 and the probe seat 23 may be located at any position of the probe plate 21, and have a floating adjustment space in a better design, which is not limited herein.

Further, please refer to fig. 1 to 4, as the utility model provides a specific implementation of the case, supersound mainboard 11, power strip 15 and computer motherboard 16 all set up in the inside of mainframe box 1, set up a plurality of shield boards in the inside of mainframe box 1, all separate the shielding through this shield board with supersound mainboard 11, power strip 15 and computer motherboard 16 to guaranteed the inside mutual shielding effect of mainframe box 1, avoided power strip 15 to influence the work of supersound mainboard 11 or computer motherboard 16.

Further, referring to fig. 3 to fig. 6, as a specific embodiment of the chassis provided by the present invention, a guiding structure for inserting the first inserting portion 12 and the second inserting portion 22 is further disposed between the ultrasonic main board 11 and the probe board 21. Specifically, guide structure can lead the connection between first grafting portion 12 and the second grafting portion 22 to guarantee that first grafting portion 12 can be steadily accurate peg graft mutually with second grafting portion 22, avoid first grafting portion 12 and second grafting portion 22 directly to peg graft and cause the problem that the contact pin is bent or is difficult to peg graft.

Further, referring to fig. 3 to fig. 6, as a specific embodiment of the chassis provided by the present invention, the guiding structure includes a positioning column 3 disposed on the ultrasound main board 11, and a first fixing hole 211 disposed on the probe board 21 for the positioning column 3 to pass through. Specifically, the positioning column 3 can pass through the first fixing hole 211 when the main cabinet 1 moves towards the auxiliary cabinet 2, so that the auxiliary positioning function is realized, and the problem that the contact pin is bent or difficult to insert due to the direct insertion of the first insertion part 12 and the second insertion part 22 is solved. Of course, according to the practical situation and the specific requirement, in other embodiments of the present invention, the first inserting portion 12 and the second inserting portion 22 can also be directly inserted or the probe plate 21 and the ultrasound main plate 11 are provided with magnetic members, and the limitation of the relative position between the probe plate 21 and the ultrasound main plate 11 is realized by the way of magnetic member suction, which is not limited herein.

Further, please refer to fig. 3 to fig. 5, as an embodiment of the present invention, the positioning column 3 includes a first fixing column 31 and a first tapered column 32 located at an end of the first fixing column 31 far away from the ultrasonic main board 11, and the first fixing column 31 and the first tapered column 32 are fixedly connected. Specifically, first fixed column 31 is used for passing first fixed orifices 211, and first toper post 32 sets up the tip at first fixed column 31, and the diameter that first toper post 32 is close to one side of first fixed column 31 is greater than one side that first toper post 32 kept away from first fixed column 31 to the effect of supplementary direction can be realized through the setting of first toper post 32, guarantees that first fixed column 31 can be concentric with first fixed orifices 211, has better direction effect.

Further, referring to fig. 3 to 5, as a specific embodiment of the case provided by the present invention, a fixing sleeve 4 is disposed in the first fixing hole 211, the fixing sleeve 4 is fixedly connected with the probe plate 21, and a limiting hole 43 for the positioning column 3 to pass through is disposed in the fixing sleeve 4. Specifically, fixed cover 4 is fixed in on probe board 21, and fixed cover 4 can set up inside first fixed orifices 211, and reference column 3 can pass fixed cover 4 inside first fixed orifices 211 to can avoid reference column 3 direct and probe board 21 looks butt through fixed cover 4, avoid reference column 3 and the condition that probe board 21 wearing and tearing probably caused by the direct butt of probe board 21, effectual protection probe board 21.

Further, referring to fig. 3 to 5, as a specific embodiment of the chassis provided by the present invention, the fixing sleeve 4 includes a limiting cover 41 and a connecting portion 42 connected to one end of the limiting cover 41, the limiting hole 43 penetrates through the connecting portion 42 and the limiting cover 41, one end of the limiting cover 41 close to the connecting portion 42 abuts against the probe plate 21, and the connecting portion 42 passes through the first fixing hole 211. Specifically, the limit cover 41 and the probe plate 21 are fixedly connected by a fixing member such as a bolt, a screw, or a hook, and the connecting portion 42 and the limit cover 41 are fixedly connected by an integral molding or bonding. Wherein, spacing lid 41 is located probe board 21 and is kept away from one side of supersound mainboard 11, and connecting portion 42 passes first fixed orifices 211 and is connected with reference column 3, and spacing hole 43 sets up in connecting portion 42, can be convenient be connected reference column 3 and fixed cover 4 through connecting portion 42 to can prescribe a limit to the route of the removal of mainframe box 1, avoid first grafting portion 12 and second grafting portion 22 can not just be right mutually. The positioning between the ultrasonic main board 11 and the probe board 21 is realized in an auxiliary way by matching the positioning column 3 with the limiting sleeve.

Preferably, the connecting portion 42 passes through the first fixing hole 211 and extends to the position of the ultrasonic main board 11, the limiting hole 43 is arranged in the connecting portion 42, and the connecting portion 42 extending to the position of the ultrasonic main board 11 can guide the movement of the positioning column 3, so that the phenomenon that the first inserting portion 12 and the second inserting portion 22 cannot be opposite to each other is avoided, and the positioning between the ultrasonic main board 11 and the probe board 21 is realized.

Further, referring to fig. 3 to fig. 5, as a specific embodiment of the chassis provided by the present invention, a limiting protrusion 411 is disposed on the limiting cover 41, and a limiting groove 212 for accommodating the limiting protrusion 411 is disposed on the probe plate 21. Specifically, the rotation of the position limiting cover 41 can be limited by the matching structure of the position limiting protrusion 411 and the position limiting groove 212, so that the stability of the connection between the position limiting cover 41 and the probe plate 21 is ensured. The limiting cover 41 is connected with the probe plate 21 through a plurality of bolts surrounding the connecting portion 42, through holes are formed in the probe plate 21 corresponding to the bolts and can be communicated with the limiting groove 212, and the limiting groove 212 and the through holes can be conveniently machined.

Preferably, the shape of the position limiting cover 41 is non-circular, and at least two bolts are arranged on the position limiting cover 41 around the connecting portion 42, so that the relative rotation of the position limiting cover 41 on the probe plate 21 can be avoided, and the connection stability of the position limiting cover 41 and the probe plate 21 can be ensured.

Further, referring to fig. 2 and fig. 6, as an embodiment of the case provided by the present invention, the positioning pillars 3 are located at two opposite sides of the first inserting portion 12. Specifically, the number of the positioning columns 3 is two or a multiple of two, and the positioning columns 3 are sequentially arranged on two opposite sides of the first inserting part 12 at intervals; the quantity of fixed cover 4 is two or two multiples, and the relative both sides of second grafting portion 22 are set up to a plurality of fixed cover 4 interval in proper order, through the cooperation of reference column 3 and fixed cover 4 more than two or two, can guarantee the accuracy of direction, guarantees that grafting can be accomplished to first grafting portion 12 and second grafting portion 22.

Further, please refer to fig. 2 and fig. 6, as a specific embodiment of the present invention, the present invention further includes a base 5 disposed at the bottom of the main chassis 1, the base 5 is slidably connected to the main chassis 1, and the base 5 is further provided with a limiting structure for limiting the main chassis 1 to move forward after the first inserting portion 12 and the second inserting portion 22 are inserted. Specifically, the main chassis 1 and the auxiliary chassis 2 are two relatively independent chassis, and the main chassis 1 and the auxiliary chassis 2 are connected through a first insertion part 12 and a second insertion part 22. The limit structure can limit the moving position of the main case 1, and avoid the damage of the first plugging part 12 or the second plugging part 22 caused by the over-small distance between the main case 1 and the probe plate 21. Wherein, limit structure's one end is fixed on base 5, and the other end can with mainframe box 1 looks butt.

During assembly operation, the auxiliary cabinet 2 is fixed at a designed position, so that the height of the probe seat 23 can be suitable for an operator, the main cabinet 1 is pushed up to one side of the auxiliary cabinet 2 from the base 5, and the first insertion part 12 and the second insertion part 22 are inserted and combined. Moreover, when the ultrasonic diagnostic equipment is used, the probe board 21 is not easy to damage, and parts such as the ultrasonic mainboard 11 are easy to damage, so that the maintenance operation can be carried out only by taking out the mainframe box 1 during maintenance, the problem that the probe board 21 is repeatedly elongated to cause the forced extraction of multiple lines is avoided, and the maintenance and assembly operation can be realized more conveniently.

Further, please refer to fig. 3 and fig. 7, as a specific embodiment of the ultrasonic diagnostic apparatus provided by the present invention, the limiting structure is a limiting post 7 disposed on the base 5 and abutted against the main cabinet 1. Specifically, spacing post 7 is located the below of assisting quick-witted case 2, and spacing post 7 and base 5 fixed connection can inject the shift position of mainframe box 1 through spacing post 7, avoids the distance undersize between mainframe box 1 and probe board 21 to cause the damage of first grafting portion 12 or second grafting portion 22. The left and right positions of the mainframe box 1 are limited through the arrangement of the sliding grooves 51 and the sliding plates 14, and the advancing position of the mainframe box 1 can be limited through the limiting columns 7, so that the position of the mainframe box 1 in the assembling process is ensured.

Further, referring to fig. 3 and 7, as a specific embodiment of the ultrasonic diagnostic apparatus provided by the present invention, the limiting column 7 includes a second fixing column 71 and a second tapered column 72 close to one end of the main cabinet 1, and the second tapered column 72 is fixedly connected to the second fixing column 71. Specifically, the second fixing column 71 is fixedly connected with the base 5, and the diameter of the side of the second tapered column 72 close to the second fixing column 71 is larger than that of the side of the second tapered column 72 far from the second fixing column 71. One side of the second tapered column 72, which is far away from the second fixing column 71, can be abutted against the mainframe box 1, and the second tapered column 72 is parallel to the base 5, so that the position stability of the second tapered column 72 can be ensured, and by reducing the contact area between the limiting column 7 and the mainframe box 1, the relative position of the mainframe box 1 can be ensured, and the abrasion between the outer surface of the mainframe box 1 and the limiting column 7 is avoided.

Further, referring to fig. 6 and 7, as a specific embodiment of the ultrasonic diagnostic apparatus provided by the present invention, sliding plates 14 or sliding grooves 51 extend from two sides of the bottom of the main cabinet 1, and sliding grooves 51 or sliding plates 14 used in cooperation with the sliding plates 14 or sliding grooves 51 are disposed on the upper surface of the base 5. Specifically, when the sliding plates 14 are located on two sides of the bottom of the main chassis 1 and the two sides are perpendicular to the auxiliary chassis 2, the sliding grooves 51 are formed in the base 5 and used for being matched with the sliding plates 14, so that the main chassis 1 can move towards the auxiliary chassis 2, the push-pull operation of the main chassis 1 is achieved, and the assembly is convenient. The position of the main cabinet 1 can be limited by the sliding groove 51 and the sliding plate 14, so that the relative position between the main cabinet 1 and the auxiliary cabinet 2 is preliminarily ensured, and the position between the main cabinet 1 and the auxiliary cabinet 2 is further limited by the positioning column 3 and the fixing sleeve 4, so that the stable plugging of the first plugging part 12 and the second plugging part 22 is ensured. The bottom of the main case 1 may also be provided with a sliding groove 51, and the upper surface of the base 5 is provided with a sliding plate 14 matched with the sliding groove 51, so as to ensure that the main case 1 can move towards the auxiliary case 2, thereby realizing the push-pull operation of the main case 1, and facilitating the assembly

Preferably, the sliding plate 14 is two extension plates disposed at opposite sides of the main cabinet 1, and the sliding plate 14 is disposed to protrude from the main cabinet 1. Spout 51 is located the upper surface of base 5, and spout 51 includes the limiting plate parallel with base 5 and the backup pad that supports the limiting plate, and backup pad perpendicular to limiting plate and base 5 set up to be formed with the clearance between feasible limiting plate and the base 5, slide 14 can stretch into to the clearance between limiting plate and the base 5. Wherein, the limiting plate is kept away from the one end of probe board 21 and can also be equipped with the deflector, deflector and limiting plate integrated into one piece are formed with certain angle between deflector and the limiting plate, thereby the deflector upwarps thereby makes things convenient for slide 14 to enter into the clearance between deflector and the limiting plate promptly.

Further, please refer to fig. 2 and fig. 6, as a specific embodiment of the present invention, the base 5 is provided with a supporting pillar 6 for supporting the main chassis 1 and the auxiliary chassis 2, and the main chassis 1 and the auxiliary chassis 2 are respectively fixed on two opposite sides of the supporting pillar 6. Specifically, the support column 6 is perpendicular to the base 5, the support column 6 can support the shell and the probe board 21, and the support column 6 is arranged at four corners of the base 5. Simultaneously support column 6 can also be fixed mainframe box 1 and auxiliary engine case 2, mainframe box 1 and auxiliary engine case 2's outside all with support column 6 fixed connection, and auxiliary engine case 2 hangs through support column 6 and locates the top of the preceding terminal surface of mainframe box 1, both can so that can realize fixed connection between mainframe box 1 and the auxiliary engine case 2, can also guarantee to assist quick-witted case 2 can and form the difference in height between mainframe box 1. Of course, according to actual conditions and specific demand the utility model discloses an in other embodiments, can also increase the board in the bottom setting of auxiliary engine case 2, realize the fixed connection between main engine case 1 and the auxiliary engine case 2 through this board that increases, can also guarantee that auxiliary engine case 2 can and main engine case 1 between form the difference in height, do not do the only limit here.

Example 2

As the utility model provides a another embodiment of machine case, please refer to fig. 1 to fig. 3 together, can also set up front end plate 18 between supersound mainboard 11 and the probe board 21, front end plate 18 is located the front side of supersound mainboard 11, and supersound mainboard 11 pegs graft with front end plate 18 mutually, first grafting portion 12 is located front end plate 18, first grafting portion 12 pegs graft mutually with second grafting portion 22, realize the connection between supersound mainboard 11 and the probe board 21 through front end plate 18, can guarantee the mutual shielding effect between supersound mainboard 11 and the probe board 21, and can be applicable to more models. The front end plate 18 is used for collecting information collected by a probe on the probe plate 21 and transmitting the information to the ultrasonic main board 11, so that the connection between the ultrasonic main board 11 and the probe plate 21 is realized, and the ultrasonic information is processed by the ultrasonic main board 11.

Further, referring to fig. 1 to 4, as a specific embodiment of the case provided by the present invention, the first casing 13 is sleeved outside the ultrasonic main board 11 and the front end plate 18, and the second casing 24 is sleeved outside the probe plate 21. Specifically, the first housing 13 is used to shield the ultrasonic main board 11 and the front end plate 18, the second housing 24 is used to shield the probe board 21, and both the first housing 13 and the second housing 24 can separate the ultrasonic main board 11 or the probe board 21 for a single box, and can also separate the ultrasonic main board 11 or the probe board 21 for two or more board bodies. The first housing 13 is provided with a through hole for the first insertion part 12 to pass through, and the second housing 24 is also provided with a through hole for the second insertion part 22 to pass through.

Further, please refer to fig. 1 to fig. 3 together, as a specific embodiment of the present invention, the auxiliary casing 2 is located above the main casing 1, the first plugging portion 12 is located at a position where the front end plate 18 is close to the main casing top 1, and the second plugging portion 22 is located at a position where the probe plate 21 is close to the bottom of the auxiliary casing 2. Specifically, the auxiliary case 2 may be located directly above the main case 1 or obliquely above the main case 1, so that a height difference exists between the auxiliary case 2 and the main case 1, and the entire case may be designed to be thinner and lighter. The positions of the first mating part 12 and the second mating part 22 are respectively arranged above and below the main chassis 1 and the auxiliary chassis 2, so that the lower part of the auxiliary chassis 2 is mated with the upper part of the main chassis 1, and the height of the probe board 21 can be increased to the maximum extent. Of course, according to practical situations and specific requirements, in other embodiments of the present invention, the positions of the first inserting portion 12 and the second inserting portion 22 may also be adjusted according to the design requirements of the chassis, and are not limited herein.

Further, please refer to fig. 1 to fig. 3 together, as a specific embodiment of the present invention, the first plugging portion 12 passes through the main chassis 1 and the auxiliary chassis 2 to be plugged with the second plugging portion 22, or the second plugging portion 22 passes through the main chassis 1 and the auxiliary chassis 2 to be plugged with the first plugging portion 12. Specifically, the first insertion part 12 and the second insertion part 22 can be directly inserted, the first insertion part 12 or the second insertion part 22 is provided with a plurality of pins, and the second insertion part 22 or the first insertion part 12 is provided with a plurality of sockets for accommodating the pins, so that the first insertion part 12 and the second insertion part 22 can be connected with each other. The first mating part 12 and the second mating part 22 are separated in two relatively independent housings, so that a sidewall penetrating through the main housing 1 and the auxiliary housing 2 is required to be adopted between the first mating part 12 and the second mating part 22, and the first mating part 12 may penetrate through the sidewalls of the main housing 1 and the auxiliary housing 2, or the second mating part 22 may penetrate through the sidewalls of the main housing 1 and the auxiliary housing 2. Of course, according to practical situations and specific requirements, in other embodiments of the present invention, it is also possible that the first inserting portion 12 passes through the main chassis 1, and the second inserting portion 22 passes through the auxiliary chassis 2, so as to implement the inserting connection between the first inserting portion 12 and the second inserting portion 22, which is not limited herein.

Further, please refer to fig. 1 to 4, as a specific embodiment of the present invention, the main chassis 1 further includes a power board 15, a computer motherboard 16 and a motherboard 17, the computer motherboard 16 and the ultrasonic motherboard 11 are respectively disposed on two sides of the power board 15, the front end board 18 is located on one side of the ultrasonic motherboard 11 away from the power board 15, and the front end board 18, the ultrasonic motherboard 11, the power board 15 and the computer motherboard 16 are sequentially and vertically inserted on the motherboard 17. Specifically, the ultrasonic main board 11, the power board 15 and the computer main board 16 are arranged in parallel, the main board 17 is arranged at the bottoms of the ultrasonic main board 11, the power board 15 and the computer main board 16, and the main board 17 is respectively connected with the ultrasonic main board 11, the power board 15 and the computer main board 16 in an inserted manner. The power board 15 is used for supplying power to the ultrasound main board 11, the motherboard 17 and the computer main board 16, the computer main board 16 is used for processing other information except ultrasound information in the ultrasound diagnostic equipment, for example, control information of other software, and the motherboard 17 can connect the probe board 21, the ultrasound main board 11, the power board 15 and the computer main board 16, thereby realizing overall control.

Further, referring to fig. 3 to fig. 6, as a specific embodiment of the chassis provided by the present invention, a guiding structure for inserting the first inserting portion 12 and the second inserting portion 22 is further disposed between the front end plate 18 and the probe plate 21. Specifically, guide structure can lead the connection between first grafting portion 12 and the second grafting portion 22 to guarantee that first grafting portion 12 can be steadily accurate peg graft mutually with second grafting portion 22, avoid first grafting portion 12 and second grafting portion 22 directly to peg graft and cause the problem that the contact pin is bent or is difficult to peg graft.

Further, referring to fig. 3 to fig. 6, as an embodiment of the present invention, the guiding structure includes a positioning column 3 disposed on the front end plate 18, and a first fixing hole 211 disposed on the probe plate 21 for the positioning column 3 to pass through. Specifically, the positioning column 3 can pass through the first fixing hole 211 when the main cabinet 1 moves towards the auxiliary cabinet 2, so that the auxiliary positioning function is realized, and the problem that the contact pin is bent or difficult to insert due to the direct insertion of the first insertion part 12 and the second insertion part 22 is solved. Of course, according to the practical situation and the specific requirement, in other embodiments of the present invention, the first inserting portion 12 and the second inserting portion 22 may also be directly inserted or provided with a magnetic member on the probe plate 21 and the front end plate 18, and the limitation of the relative position between the probe plate 21 and the front end plate 18 is realized by the way of attracting the magnetic member, which is not limited herein.

Further, referring to fig. 3 to fig. 5, as an embodiment of the present invention, the positioning column 3 includes a first fixing column 31 and a first tapered column 32 located at an end of the first fixing column 31 far away from the front end plate 18, and the first fixing column 31 and the first tapered column 32 are fixedly connected. Specifically, first fixed column 31 is used for passing first fixed orifices 211, and first toper post 32 sets up the tip at first fixed column 31, and the diameter that first toper post 32 is close to one side of first fixed column 31 is greater than one side that first toper post 32 kept away from first fixed column 31 to the effect of supplementary direction can be realized through the setting of first toper post 32, guarantees that first fixed column 31 can be concentric with first fixed orifices 211, has better direction effect.

Further, referring to fig. 3 to 5, as a specific embodiment of the case provided by the present invention, a fixing sleeve 4 is disposed in the first fixing hole 211, the fixing sleeve 4 is fixedly connected with the probe plate 21, and a limiting hole 43 for the positioning column 3 to pass through is disposed in the fixing sleeve 4. Specifically, fixed cover 4 is fixed in on probe board 21, and fixed cover 4 can set up inside first fixed orifices 211, and reference column 3 can pass fixed cover 4 inside first fixed orifices 211 to can avoid reference column 3 direct and probe board 21 looks butt through fixed cover 4, avoid reference column 3 and the condition that probe board 21 wearing and tearing probably caused by the direct butt of probe board 21, effectual protection probe board 21.

Further, referring to fig. 3 to 5, as a specific embodiment of the chassis provided by the present invention, the fixing sleeve 4 includes a limiting cover 41 and a connecting portion 42 connected to one end of the limiting cover 41, the limiting hole 43 penetrates through the connecting portion 42 and the limiting cover 41, one end of the limiting cover 41 close to the connecting portion 42 abuts against the probe plate 21, and the connecting portion 42 passes through the first fixing hole 211. Specifically, the limit cover 41 and the probe plate 21 are fixedly connected by a fixing member such as a bolt, a screw, or a hook, and the connecting portion 42 and the limit cover 41 are fixedly connected by an integral molding or bonding. Wherein, spacing lid 41 is located probe board 21 and is kept away from one side of supersound mainboard 11, and connecting portion 42 passes first fixed orifices 211 and is connected with reference column 3, and spacing hole 43 sets up in connecting portion 42, can be convenient be connected reference column 3 and fixed cover 4 through connecting portion 42 to can prescribe a limit to the route of the removal of mainframe box 1, avoid first grafting portion 12 and second grafting portion 22 can not just be right mutually. The positioning between the ultrasonic main board 11 and the probe board 21 is realized in an auxiliary way by matching the positioning column 3 with the limiting sleeve.

Preferably, the connecting portion 42 passes through the first fixing hole 211 and extends to the front end plate 18, the limiting hole 43 is disposed in the connecting portion 42, and the connecting portion 42 extending to the ultrasonic main plate 11 can guide the movement of the positioning column 3, so that the phenomenon that the first inserting portion 12 and the second inserting portion 22 cannot be opposite to each other is avoided, and the positioning between the ultrasonic main plate 11 and the probe plate 21 is realized.

Further, referring to fig. 3 to fig. 5, as a specific embodiment of the chassis provided by the present invention, a limiting protrusion 411 is disposed on the limiting cover 41, and a limiting groove 212 for accommodating the limiting protrusion 411 is disposed on the probe plate 21. Specifically, the rotation of the position limiting cover 41 can be limited by the matching structure of the position limiting protrusion 411 and the position limiting groove 212, so that the stability of the connection between the position limiting cover 41 and the probe plate 21 is ensured. The limiting cover 41 is connected with the probe plate 21 through a plurality of bolts surrounding the connecting portion 42, through holes are formed in the probe plate 21 corresponding to the bolts and can be communicated with the limiting groove 212, and the limiting groove 212 and the through holes can be conveniently machined.

Preferably, the shape of the position limiting cover 41 is non-circular, and at least two bolts are arranged on the position limiting cover 41 around the connecting portion 42, so that the relative rotation of the position limiting cover 41 on the probe plate 21 can be avoided, and the connection stability of the position limiting cover 41 and the probe plate 21 can be ensured.

Further, referring to fig. 2 and fig. 6, as an embodiment of the case provided by the present invention, the positioning pillars 3 are located at two opposite sides of the first inserting portion 12. Specifically, the number of the positioning columns 3 is two or a multiple of two, and the positioning columns 3 are sequentially arranged on two opposite sides of the first inserting part 12 at intervals; the quantity of fixed cover 4 is two or two multiples, and the relative both sides of second grafting portion 22 are set up to a plurality of fixed cover 4 interval in proper order, through the cooperation of reference column 3 and fixed cover 4 more than two or two, can guarantee the accuracy of direction, guarantees that grafting can be accomplished to first grafting portion 12 and second grafting portion 22.

Example 3

Referring to fig. 1 to 7, the present invention further provides an ultrasonic diagnostic apparatus, which includes the case according to any of the above embodiments.

The utility model provides an ultrasonic diagnosis equipment, adopted and separated probe board 21 and supersound mainboard 11 respectively in mainframe box 1 and auxiliary machine case 2's inside, and the mode of pegging graft each other through first grafting portion 12 and second grafting portion 22 is connected supersound mainboard 11 and probe board 21, thereby be connected mainframe box 1 and auxiliary machine case 2, can enough make probe board 21 have great activity space, make probe seat 23 highly can have great unsteady adjustment space in the design, and the shielding effect between probe board 21 and the supersound mainboard 11 is better, mainframe box 1 can be through sliding on base 5, thereby realize the interconnect of first grafting portion 12 and second grafting portion 22, only need take mainframe box 1 out during the maintenance and can realize the maintenance operation, can make things convenient for the maintenance assembly, can be more frivolous pleasing to the eye with whole model design.

It should be understood that the above examples are only for clarity of illustration and are not intended to limit the embodiments. Other variations and modifications will be apparent to persons skilled in the art in light of the above description. And are neither required nor exhaustive of all embodiments. And obvious variations or modifications can be made without departing from the scope of the invention.

Claims (13)

1. The machine case is used for ultrasonic diagnosis equipment, and is characterized in that: comprises that

The ultrasonic diagnosis device comprises a mainframe box (1), wherein a front end plate (18) and an ultrasonic main plate (11) are vertically arranged in the mainframe box (1), the ultrasonic main plate (11) and the front end plate (18) are connected in an inserted mode, and a first inserting part (12) is arranged on one side, away from the ultrasonic main plate (11), of the front end plate (18); and

the auxiliary machine case (2), a vertically placed probe board (21) is arranged in the auxiliary machine case (2), a second inserting portion (22) is arranged on the probe board (21), the main machine case (1) and the auxiliary machine case (2) are arranged in the height direction, and the first inserting portion (12) and the second inserting portion (22) are inserted and connected with each other.

2. The chassis of claim 1, wherein: the auxiliary case (2) is located above the main case (1), the first plug-in part (12) is located at a position, close to the top of the main case (1), of the front end plate (18), and the second plug-in part (22) is located at a position, close to the bottom of the auxiliary case (2), of the probe plate (21).

3. The chassis of claim 1, wherein: the first plugging portion (12) penetrates through the main case (1) and the auxiliary case (2) to be plugged with the second plugging portion (22), or the second plugging portion (22) penetrates through the main case (1) and the auxiliary case (2) to be plugged with the first plugging portion (12).

4. The chassis of claim 1, wherein: still include power strip (15), computer motherboard (16) and motherboard (17) in mainframe box (1), computer motherboard (16) with supersound mainboard (11) are located respectively the both sides of power strip (15), front end plate (18) are located supersound mainboard (11) are kept away from one side of power strip (15), just front end plate (18) supersound mainboard (11) power strip (15) with computer motherboard (16) are in proper order perpendicularly inserted and are located on motherboard (17).

5. The chassis of claim 4, wherein: and shielding plates are arranged between the adjacent front end plate (18), the ultrasonic main board (11), the power supply board (15) and the computer main board (16).

6. A cabinet according to any one of claims 1 to 5, wherein: a guide structure for inserting the first inserting part (12) and the second inserting part (22) is further arranged between the front end plate (18) and the probe plate (21).

7. The chassis of claim 6, wherein: the guide structure includes:

the positioning device comprises a positioning column (3) arranged on the front end plate (18) and a first fixing hole (211) formed in the probe plate (21) and allowing the positioning column (3) to penetrate through.

8. A cabinet according to claim 7, wherein: the positioning column (3) comprises a first fixing column (31) and a first conical column (32) located at one end, far away from the main board (11), of the first fixing column (31), and the first fixing column (31) is fixedly connected with the first conical column (32).

9. A cabinet according to claim 8, wherein: be equipped with fixed cover (4) in first fixed orifices (211), fixed cover (4) with probe board (21) fixed connection, just be equipped with in fixed cover (4) and supply spacing hole (43) that reference column (3) passed.

10. A cabinet according to any one of claims 1 to 5, wherein: the portable computer mainframe box is characterized by further comprising a base (5) arranged at the bottom of the mainframe box (1), wherein the base (5) is in sliding connection with the mainframe box (1), and a limiting structure is further arranged on the base (5) and used for limiting the mainframe box (1) to move forwards continuously after the first inserting part (12) and the second inserting part (22) are inserted and connected.

11. A cabinet according to claim 10, wherein: the limiting structure is a limiting column (7) which is arranged on the base (5) and abutted against the mainframe box (1).

12. A cabinet according to claim 10, wherein: be equipped with on base (5) and be used for supporting mainframe box (1) with support column (6) of assisting quick-witted case (2), mainframe box (1) with assist quick-witted case (2) and be fixed in respectively the relative both sides of support column (6).

13. An ultrasonic diagnostic apparatus characterized in that: comprising a chassis according to any of claims 1 to 12.

Images