CN207850940U - Shield air channel structure and digital pathological section scanner - Google Patents

Abstract

A kind of shielding air channel structure of the utility model offer and digital pathological section scanner, are related to the technical field of scanning device.It includes support plate, occlusion part and the first air exhausting device to shield air channel structure；The switch board of one face Connection Release heat of support plate, occlusion part are connected to the one side of support plate and are located at the outside of switch board, so as to form the air duct convenient for heat flow between occlusion part and support plate；The another side of support plate connects the first air exhausting device, and the first air exhausting device is arranged at the air outlet in air duct, and the first air exhausting device discharges the heat that switch board generates outward.It solves and fan is installed in supporting rack, the dust blown afloat flows to electronic component, is damaged to electronic component, the technical issues of affecting the monitoring data accuracy of slide.The utility model is aspirated heat caused by switch board using the first fan in time, and heat discharges outward along air duct, is protected to electronic component, improves the monitoring data accuracy of scanner.

Description

Shield air channel structure and digital pathological section scanner

Technical field

The utility model is related to the technical fields of scanning device, more particularly, to a kind of shielding air channel structure and digital pathology Slice scanner.

Background technology

Digital slices scanner refers to that entire glass slide full information, comprehensive quick scanning are made the load of conventional matter Slide becomes to digitize pathological section, is to realize epoch-making change to pathological diagnosis technology, pathologist can be made to be detached from micro- Mirror solves pathological diagnosis by network whenever and wherever possible, to realize global on-line synchronous remote medical consultation with specialists or the off-line remote consultation of doctors, and And online offer full slice information, so that diagnostic value is equal to micro- sem observation, time and space interts transmission advantage with great Meaning.The scanner can be widely used for Clinico Pathologic diagnosis, pathological teaching, histology cell imaging, fluorescence analysis, immunohistochemistry Digital imagery.

There are two types of the scan modes of digital slices：A kind of mode is one high-resolution CCD phase of assembly on microscope Machine is taken pictures, and the glass slice image of magnification at high multiple, which is carried out the multiple of part, taking pictures, and by multiple figures of the N ultimately produced Piece is combined into one whole sectioning image using the software function of computer, completes the making of digital slices.Another kind side Formula is using TDI-CCD imaging sensors while motion scan on object, and image is transferred on computer, has and sweeps The advantages that retouching fast speed, high resolution, high sensitivity.

During use, the controller in scanner will produce a large amount of heat to scanner, these heats distribute In supporting rack, these heats retain in supporting rack, and the temperature in supporting rack will be made to increase, and installation is a lot of other in supporting rack Electronic component will damage the electronic component in supporting rack if the overlong time that heat retains, in order in time by this A little heats distribute, and fan is installed on supporting rack, and heat is made to be flowed according to specified direction.But it is carried out using fan When heat dissipation, the flowing of wind direction is will produce in supporting rack, these wind directions can blow afloat the dust in supporting rack, make in supporting rack Electronic component is surrounded by dust, influences the normal use of electronic component, causes the damage of electronic component, to the monitoring data of slide Accuracy cause influence.

Utility model content

It is existing in the prior art to solve the purpose of this utility model is to provide a kind of shielding air channel structure, it is propping up Fan is installed in support, when heat is flowed along wind direction, the dust blown afloat flows to electronic component, is damaged to electronic component, The technical issues of affecting the monitoring data accuracy of slide.

The utility model also provides a kind of digital pathological section scanner, to solve in the prior art, installation in supporting rack The technical issues of fan, the dust that wind direction flowing is blown afloat damages electronic component, influences the monitoring data accuracy of entire scanner.

A kind of shielding air channel structure provided by the utility model, including support plate, occlusion part and the first air exhausting device；

The switch board of one face Connection Release heat of the support plate, the occlusion part are connected to the one side of the support plate And it is located at the outside of switch board, so as to form the air duct convenient for heat flow between the occlusion part and the support plate；

The another side of the support plate connects first air exhausting device, and going out in the air duct is arranged in first air exhausting device At air port, first air exhausting device discharges the heat that switch board generates outward.

Further, further include the second air exhausting device；

Second air exhausting device is connected on switch board, and the air inlet in the air duct is arranged, second air draft Device guides the heat that controller is discharged to first air exhausting device.

Further, the occlusion part includes the first connecting plate；

First connecting plate is connected to the one side of the support plate and is located on switch board.

Further, first connecting plate, which has, accommodates switch board, with support plate surface plate disposed in parallel.

Further, first connecting plate, which has, accommodates switch board, raised circular arc panel.

Further, the occlusion part further includes the second connecting plate and third connecting plate；

Second connecting plate is connect with one end of first connecting plate, and the third connecting plate is connect with described first The other end of plate connects；Second connecting plate and the third connecting plate are arranged in the same side of first connecting plate.

Further, second connecting plate is connected with the first extension plate of fixed second connecting plate, the third Connecting plate is connected with the second extension plate of the fixed third connecting plate.

Further, the extending direction of first extension plate and second extension plate is opposite.

Further, first extension plate is identical with the extending direction of second extension plate.

The utility model also provides a kind of digital pathological section scanner, including body and the shielding air channel structure；

The shielding air channel structure is connected in the body.

A kind of shielding air channel structure provided by the utility model, the support plate is a side plate of supporting rack, described The medial surface of support plate connects switch board, and switch board can discharge heat during working, and the occlusion part is connected to the branch The medial surface of fagging, and the occlusion part is located at the outside of switch board, so that switch board is surrounded by the occlusion part, And air duct is formed between the support plate and the occlusion part, generated heat is carried out along air duct when switch board works Circulation avoids heat and flows into supporting rack, the damage caused by the electronic component in supporting rack；In the outside of the support plate Face is connected with the first air exhausting device, and first air exhausting device is arranged at the air outlet in the air duct, so that first air exhausting device When work, timely heat caused by the switch board in air duct can be discharged outward, heat is avoided to be deposited in supporting rack, Damage, improves the accuracy of slide monitoring data, improves work efficiency caused by the electronic component in supporting rack.

The utility model also provides a kind of digital pathological section scanner, and above-mentioned shielding air channel structure is mounted on body On, heat caused by switch board is aspirated in time using the first fan, and heat is made to be discharged outward along air duct, to support Electronic component in frame is protected, and the accuracy of the monitoring data of scanner is improved.

Description of the drawings

It, below will be right in order to illustrate more clearly of specific embodiment of the present invention or technical solution in the prior art Specific implementation mode or attached drawing needed to be used in the description of the prior art are briefly described, it should be apparent that, it is described below In attached drawing be that some embodiments of the utility model are not paying creativeness for those of ordinary skill in the art Under the premise of labour, other drawings may also be obtained based on these drawings.

Fig. 1 is the one side structural schematic diagram that the utility model embodiment provides；

Fig. 2 is the another side structural schematic diagram that the utility model embodiment provides；

Fig. 3 is the structural schematic diagram for the occlusion part one side that the utility model embodiment provides；

Fig. 4 is the structural schematic diagram for the occlusion part another side that the utility model embodiment provides.

Icon：100- support plates；200- occlusion parts；The first air exhausting devices of 300-；The second air exhausting devices of 400-；201- wind Road；The first connecting plates of 202-；The second connecting plates of 203-；204- third connecting plates；The first extension plates of 205-；206- second Extension plate.

Specific implementation mode

The technical solution of the utility model is clearly and completely described below in conjunction with attached drawing, it is clear that described Embodiment is the utility model a part of the embodiment, instead of all the embodiments.Based on the embodiments of the present invention, originally The every other embodiment that field those of ordinary skill is obtained without making creative work, belongs to this practicality Novel protected range.

It is in the description of the present invention, it should be noted that term "center", "upper", "lower", "left", "right", " perpendicular Directly ", the orientation or positional relationship of the instructions such as "horizontal", "inner", "outside" is to be based on the orientation or positional relationship shown in the drawings, and is only The utility model and simplifying describes for ease of description, do not indicate or imply the indicated device or element must have it is specific Orientation, with specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.In addition, term " the One ", " second ", " third " are used for description purposes only, and are not understood to indicate or imply relative importance.

In the description of the present invention, it should be noted that unless otherwise clearly defined and limited, term " is pacified Dress ", " connected ", " connection " shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integrally Connection；It can be mechanical connection, can also be electrical connection；Can be directly connected, can also indirectly connected through an intermediary, It can be the connection inside two elements.For the ordinary skill in the art, it can understand above-mentioned art with concrete condition The concrete meaning of language in the present invention.

Fig. 1 is the one side structural schematic diagram that the utility model embodiment provides；Fig. 2 provides for the utility model embodiment Another side structural schematic diagram；Fig. 3 is the structural schematic diagram for the occlusion part one side that the utility model embodiment provides；Fig. 4 For the structural schematic diagram for the occlusion part another side that the utility model embodiment provides.

As shown in figures 1-4, a kind of shielding air channel structure provided by the utility model, including support plate 100, occlusion part 200 With the first air exhausting device 300；

The switch board of one face Connection Release heat of the support plate 100, the occlusion part 200 are connected to the support plate 100 one side and the outside for being located at switch board, so as to be formed convenient for heat between the occlusion part 200 and the support plate 100 Measure the air duct 201 of circulation；

The another side of the support plate 100 connects first air exhausting device 300, and first air exhausting device 300 is arranged in institute At the air outlet for stating air duct 201, the heat that first air exhausting device 300 generates switch board discharges outward.

As shown in Figure 1, the medial surface of support plate 100 connects switch board, occlusion part 200 is connected to the inside of support plate 100 Face, and occlusion part 200 is located at the outside of switch board, and occlusion part 200 is located at the outside of switch board, makes switch board and support Other component in frame separates, and is not only protected to switch board, and is formed between occlusion part 200 and support plate 100 There is air duct 201, produced heat is flowed along air duct 201 when switch board being enable to work, without its in influence supporting rack His component.Straight slot is equipped in support plate 100, the first air exhausting device 300 is the first row of fan, and the first row of fan is connected to straight slot Interior, the lateral surface in support plate 100 is arranged in the first row of fan, and the first row of fan is additionally arranged at the air outlet in air duct 201, So that generated heat distributes in air duct 201 when switch board works, using the first row of fan by air duct 201 heat and When distribute, avoid heat and be deposited in supporting rack, caused by the electronic component in supporting rack damage.

Further, further include the second air exhausting device 400；

Second air exhausting device 400 is connected on switch board, and the air inlet in the air duct 201 is arranged, and described Two air exhausting devices 400 guide the heat that controller is discharged to first air exhausting device 300.

As shown in Figure 1, the second air exhausting device 400 is the second exhaust fan, the second exhaust fan is connected to the outside position of switch board It sets, i.e. forward position in Fig. 1, the air inlet in air duct 201 is arranged in the second exhaust fan, using the second exhaust fan to control The heat that cabinet is distributed is aspirated, and so that heat is flowed along the air inlet in air duct 201, air outlet is flowed to along air duct 201 At the first row of fan at place, heat is discharged outward using the first row of fan.

Further, the occlusion part 200 includes the first connecting plate 202；

First connecting plate 202 is connected to the one side of the support plate 100 and is located on switch board.

As shown in Figure 1, Figure 3, air duct is formed between the medial surface and the medial surface of support plate 100 of the first connecting plate 202 201, when switch board being made to work, generated heat can be flowed along air duct 201, not interfere with 202 outside of the first connecting plate, Other electronic components in supporting rack are not interfered with；Air duct 201 is arranged between the first connecting plate 202 and support plate 100 Position effectively avoids loss of the heat to other directions.

Further, first connecting plate 202, which has, accommodates switch board, disposed in parallel with the support plate 100 Surface plate.

As shown in Figure 1, Figure 3, the square plate that support plate 100 is vertically arranged, what the first connecting plate 202 was also vertically arranged Square plate, the area of the first connecting plate 202 are less than the area of support plate 100, and support plate 100 is parallel with the first connecting plate 202 to be set It sets, forms an accommodating chamber between two square plates, heat is made to circulate along this accommodating chamber, it is outer due to switch board Side is planar structure, and the first connecting plate 202 is arranged to the structure of plane, can not only be protected to the lateral surface of switch board Shield, while also allowing for circulation of the heat between switch board and the first connecting plate 202.

Further, first connecting plate 202, which has, accommodates switch board, raised circular arc panel.

First connecting plate 202 can also be arranged to raised circular arc panel, and the centre position of circular arc panel is to support The interior direction protrusion of plate 100 can facilitate heat so that switch board accommodates in the raised space of circular arc panel using arc structure Amount makes heat flow more uniform along being flowed around switch board.

Further, the occlusion part 200 further includes the second connecting plate 203 and third connecting plate 204；

Second connecting plate 203 is connect with one end of first connecting plate 202, the third connecting plate 204 and institute State the other end connection of the first connecting plate 202；Second connecting plate 203 and the third connecting plate 204 setting are described the The same side of one connecting plate 202.

As shown in figure 3, the second connecting plate 203 is horizontally arranged rectangular slab, third connecting plate 204 is also level The rectangular slab of direction setting, and the second connecting plate 203 is identical with the area of third connecting plate 204；Second connecting plate 203 The upper end vertical connection of the side of length direction and the first connecting plate 202, the side of the length direction of third connecting plate 204 and the The lower end vertical connection of one connecting plate 202 is adopted between second connecting plate 203 and third connecting plate 204 and the first connecting plate 202 With mode connected vertically, not only connection structure stabilization, also makes the heat flow between the first connecting plate 202 and support plate 100 Effect it is more preferable；In actual use, according to different product structure demands, in order to make mounting structure more stablize, second connects Mode connected vertically can not also be used between fishplate bar 203 and third connecting plate 204 and the first connecting plate 202.Such as Fig. 3 institutes Show, the second connecting plate 203 and third connecting plate 204 are all disposed within the left side position of the first connecting plate 202, convenient for connecting to first It is installed between fishplate bar 202 and support plate 100.

Further, second connecting plate 203 is connected with the first extension plate 205 of fixed second connecting plate 203, The third connecting plate 204 is connected with the second extension plate 206 of the fixed third connecting plate 204.

As shown in Figure 1, Figure 3, the upper end vertical connection of the right end of the second connecting plate 203 and the first connecting plate 202, second connects The left end of fishplate bar 203 is vertically connected with the first extension plate 205, and the first extension plate 205 is rectangular slab, is equipped on rectangular slab Multiple first through hole, corresponding position is equipped with the second through-hole in support plate 100, and screw passes through first through hole, the second through-hole by first Extension plate 205 is fixedly connected on the medial surface upper position of support plate 100；The right end of third connecting plate 204 and the first connecting plate The left end of 202 lower end vertical connection, third connecting plate 204 is vertically connected with the second extension 206, the second extension plate 206 For rectangular slab, multiple third through-holes are equipped on rectangular slab, corresponding position is equipped with fourth hole, screw in support plate 100 Second extension plate 206 is fixedly connected on to the medial surface lower position of support plate 100 across third through-hole, fourth hole, to The position of first connecting plate 202 is fixed.

Further, first extension plate 205 is opposite with the extending direction of second extension plate 206.

As shown in figure 3, the first extension plate 205 could be provided as upward direction extension, the second extension plate 206 could be provided as In downward direction extending, two extension plates extend to the lateral direction in air duct 201, are protected to the component in air duct 201, And the mode for dismounting two extension plates is simple.During actual use, the first extension plate 205 may be arranged as downwards To extension, the second extension plate 206 may be arranged as upward direction extension, and two extension plates are to the interior direction in air duct 201 Extend, avoids the area occupied inside support plate 100.

Further, first extension plate 205 is identical with the extending direction of second extension plate 206.

In actual use, the extending direction of the first extension plate 205 can be extended with upward direction, and the second extension plate 206 prolongs Length direction is also that upward direction extends or the extending direction of the first extension plate 205 is in downward direction to extend, the second extension plate 206 extending direction is also in downward direction to extend；No matter which kind of extended structure is used, as long as making the connection knot of occlusion part 200 Structure is stablized, and the heat flow direction in air duct 201 is stablized.

Shielding air channel structure provided by the utility model connects the first air exhausting device, in support plate in the outside of support plate Inside connects occlusion part, is located on switch board using occlusion part, forms air duct between occlusion part and support plate, and controlling The second air exhausting device is connected on cabinet, the first air exhausting device is arranged at the air outlet in air duct, and the air inlet in air duct is arranged in the second air exhausting device At mouthful, make the second air exhausting device that heat is sucked air duct, is then discharged, avoided in supporting rack to outside by the first air exhausting device Electronic component caused by damage.

The utility model also provides a kind of digital pathological section scanner, including body and the shielding air channel structure；

The shielding air channel structure is connected in the body.Heat in body can pass through two air exhausting devices and air duct It timely distributes to outside, effectively the electronic component in body is protected, improve the slide of scanner The accuracy of monitoring data.

Finally it should be noted that：The above various embodiments is only to illustrate the technical solution of the utility model, rather than limits it System；Although the utility model has been described in detail with reference to the foregoing embodiments, those skilled in the art should Understand：It still can be with technical scheme described in the above embodiments is modified, either to which part or whole Technical characteristic carries out equivalent replacement；And these modifications or replacements, this practicality that it does not separate the essence of the corresponding technical solution are new The range of each embodiment technical solution of type.

Claims (10)

1. a kind of shielding air channel structure, which is characterized in that including support plate (100), occlusion part (200) and the first air exhausting device (300)；

The switch board of one face Connection Release heat of the support plate (100), the occlusion part (200) are connected to the support plate (100) one side and the outside for being located at switch board, so as to be formed between the occlusion part (200) and the support plate (100) Convenient for the air duct (201) of heat flow；

The another side of the support plate (100) connects first air exhausting device (300), and the first air exhausting device (300) setting exists At the air outlet of the air duct (201), the heat that first air exhausting device (300) generates switch board discharges outward.

2. shielding air channel structure according to claim 1, which is characterized in that further include the second air exhausting device (400)；

Second air exhausting device (400) is connected on switch board, and the air inlet in the air duct (201) is arranged, and described the Two air exhausting devices (400) guide the heat that controller is discharged to first air exhausting device (300).

3. shielding air channel structure according to claim 1, which is characterized in that the occlusion part (200) includes the first connection Plate (202)；

First connecting plate (202) is connected to the one side of the support plate (100) and is located on switch board.

4. shielding air channel structure according to claim 3, which is characterized in that first connecting plate (202), which has, to be accommodated Switch board, with the support plate (100) surface plate disposed in parallel.

5. shielding air channel structure according to claim 3, which is characterized in that first connecting plate (202), which has, to be accommodated Switch board, raised circular arc panel.

6. shielding air channel structure according to claim 3, which is characterized in that the occlusion part (200) further includes the second company Fishplate bar (203) and third connecting plate (204)；

Second connecting plate (203) connect with one end of first connecting plate (202), the third connecting plate (204) with The other end of first connecting plate (202) connects；Second connecting plate (203) and the third connecting plate (204) setting In the same side of first connecting plate (202).

7. shielding air channel structure according to claim 6, which is characterized in that second connecting plate (203) is connected with solid The first extension plate (205) of fixed second connecting plate (203), the third connecting plate (204) are connected with the fixed third The second extension plate (206) of connecting plate (204).

8. shielding air channel structure according to claim 7, which is characterized in that first extension plate (205) and described The extending direction of two extension plates (206) is opposite.

9. shielding air channel structure according to claim 7, which is characterized in that first extension plate (205) and described The extending direction of two extension plates (206) is identical.

10. a kind of digital pathological section scanner, which is characterized in that including body and as described in any one of claim 1-9 Shielding air channel structure；

The shielding air channel structure is connected in the body.