CN213122885U - Software stability testing device - Google Patents
Software stability testing device Download PDFInfo
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- CN213122885U CN213122885U CN202022401071.6U CN202022401071U CN213122885U CN 213122885 U CN213122885 U CN 213122885U CN 202022401071 U CN202022401071 U CN 202022401071U CN 213122885 U CN213122885 U CN 213122885U
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Abstract
The utility model provides a software stability testing arrangement relates to software test technical field. The software stability testing device comprises a bottom plate, wherein a shell is arranged at the top of the bottom plate, a testing device body is arranged inside the shell, a cooling assembly is arranged at the bottom end of the shell and comprises a wind guide disc, the wind guide disc penetrates through the shell and extends into the shell, a cover plate is arranged at the top end of the wind guide disc, a ventilation hole is formed in the top of the cover plate, and a sleeve is arranged at the bottom end of the wind guide disc. This software stability testing arrangement has different inclination's apron through changing the through-hole for the flow direction that the wind that blows off produced changes, can be to the difference that different testing arrangement bodies required the heat dissipation, changes the apron, concentrates the heat dissipation to the position that the heat dissipation demand is big, thereby can improve radiating efficiency, and this device novel structure is compact, has efficient radiating efficiency, and the practicality is stronger when in-service use.
Description
Technical Field
The utility model relates to a software testing technology field specifically is a software stability testing arrangement.
Background
In the field of software testing in the current electronic product development stage, according to statistics, the time for electronic product software testing approximately occupies 2/3 of the whole product development cycle, so that the speed of software testing greatly influences the development speed of the whole product. In the development process of electronic products, a large number of defects exist in the programming of software, and the defects need to be found and repaired in the testing process.
However, the conventional software testing device lacks a corresponding heat dissipation component in actual use, so that the heat dissipation effect is poor, and the existing device for dissipating heat by using a fan cannot dissipate heat for different parts of the device, so that some parts with large heat cannot be effectively dissipated, and the heat dissipation efficiency is low.
SUMMERY OF THE UTILITY MODEL
Technical problem to be solved
Not enough to prior art, the utility model provides a software stability testing arrangement to solve the problem of proposing among the above-mentioned background art.
(II) technical scheme
In order to achieve the above purpose, the utility model discloses a following technical scheme realizes: the software stability testing device comprises a bottom plate, wherein a shell is arranged at the top of the bottom plate, a testing device body is arranged in the shell, and a cooling assembly is arranged at the bottom end of the shell;
the cooling assembly comprises a wind guide disc, the wind guide disc penetrates through the shell and extends to the inside of the shell, a cover plate is arranged at the top end of the wind guide disc, a ventilation hole is formed in the top of the cover plate, a sleeve is arranged at the bottom end of the wind guide disc and communicated with the wind guide disc, a sliding plate is slidably connected inside the sleeve, a sliding rod is arranged at the bottom end of the sliding plate, the sliding rod penetrates through the sleeve and extends to the outer side of the sleeve, a pressing plate is arranged at the bottom end of the sliding rod, a protruding portion is arranged on the pressing plate, a motor is arranged on the rear side of the pressing plate.
Preferably, the bottom end of the sliding rod is fixedly connected with a transverse plate, and springs are arranged on two sides of the top of the transverse plate.
Preferably, the inner side of the spring is provided with a telescopic rod, and the telescopic rod is fixedly connected between the shell and the transverse plate.
Preferably, the bottom end of the motor is provided with a base, the base is fixedly connected to the top of the bottom plate, and a supporting rod is fixedly connected between the bottom plate and the shell.
Preferably, the bottom end of the sleeve is provided with an exhaust hole.
Preferably, the four sides inside the shell are fixedly connected with partition plates, and the testing device body is arranged at the tops of the partition plates.
Preferably, the apron top is provided with the round hole that runs through, the quantity in ventilation hole sets up to a plurality ofly, and is a plurality of the ventilation hole all inclines to set up.
The utility model provides a software stability testing arrangement, its beneficial effect who possesses as follows:
1. this software stability testing arrangement can drive the inside air current of sleeve through the slide up-going motion and upwards flow, and then blow off through the ventilation hole, can dispel the heat to the testing arrangement body, and the through-hole slope on the apron sets up, and be provided with the round hole on the apron, consequently, can pull out the apron through the round hole, then change the apron that the through-hole has different inclination, the flow direction that the wind that blows off this moment produced also can be different, consequently, can be to the difference of different testing arrangement body heat dissipation requirements, change the apron, concentrate the heat dissipation to the position that the heat dissipation demand is big, thereby can improve radiating efficiency, this device novel structure is compact, efficient radiating efficiency has, the practicality is stronger when in-service use.
2. This software stability testing arrangement is through being provided with the baffle in the shell inside, arranges the testing arrangement body in on the baffle, is favorable to supporting it on the one hand, and on the other hand testing arrangement body has certain clearance with the shell bottom and can improves its radiating effect.
Drawings
Fig. 1 is a schematic view of the overall structure of the present invention;
fig. 2 is a schematic perspective view of the present invention;
FIG. 3 is a schematic view of the slide plate structure of the present invention;
FIG. 4 is a schematic view of the pressing plate structure of the present invention;
fig. 5 is an enlarged view of the structure of the portion a of fig. 1 according to the present invention.
In the figure: 1. a base plate; 2. a housing; 3. a wind guide plate; 4. a cover plate; 5. a sleeve; 6. a slide plate; 7. a slide bar; 8. pressing a plate; 9. a boss portion; 10. a motor; 11. a drive shaft; 12. a transverse plate; 13. a spring; 14. a telescopic rod; 15. a support bar; 16. an exhaust hole; 17. a partition plate; 18. a circular hole.
Detailed Description
The embodiment of the utility model provides a software stability testing arrangement, as shown in fig. 1-5, including bottom plate 1, 1 top of bottom plate is provided with shell 2, and 2 inside testing arrangement bodies that are provided with of shell, the equal fixedly connected with baffle 17 of four sides inside shell 2, the testing arrangement body sets up in baffle 17 top, and baffle 17 is favorable to supporting the testing arrangement body, its characterized in that: the bottom end of the shell 2 is provided with a cooling component;
the cooling component comprises a wind guide disc 3, the wind guide disc 3 penetrates through the shell 2 and extends into the shell 2, a cover plate 4 is arranged at the top end of the wind guide disc 3, a plurality of ventilation holes are formed in the top of the cover plate 4, a plurality of circular holes 18 are formed in the top of the cover plate 4, the plurality of ventilation holes are obliquely arranged, and the circular holes 18 are formed in the cover plate 4, so that the cover plate 4 can be pulled out through the circular holes 18, then the cover plate 4 with different inclination angles of the through holes is replaced, the flow direction of blown wind is different, the cover plate 4 can be replaced according to different heat dissipation requirements of different testing device bodies, the position with large heat dissipation requirements is intensively cooled, the heat dissipation efficiency can be improved, a sleeve 5 is arranged at the bottom end of the wind guide disc 3, exhaust holes 16 are formed in the bottom end of the sleeve 5, thereby discharging the air in the sleeve 5, the sleeve 5 is communicated with the air guide plate 3, the sleeve 5 is connected with a sliding plate 6 in a sliding way, the bottom end of the sliding plate 6 is provided with a sliding rod 7, the bottom end of the sliding rod 7 is fixedly connected with a transverse plate 12, two sides of the top of the transverse plate 12 are both provided with springs 13, the inner side of each spring 13 is provided with a telescopic rod 14, each telescopic rod 14 is fixedly connected between the shell 2 and the transverse plate 12, the telescopic rods 14 are favorable for mounting the springs 13, the sliding plate 6 can be driven to do reciprocating motion by the matching of the transverse plate 12 and the springs 13, thereby discharging the air in the sleeve 5, the sliding rod 7 penetrates through the sleeve 5 and extends to the outer side of the sleeve 5, the bottom end of the sliding rod 7 is provided with a pressing plate 8, the pressing plate 8 is provided with a convex part 9, the, the supporting rod 15 is favorable for the shell 2 to support, the output end of the motor 10 is fixedly connected with the transmission shaft 11, and the transmission shaft 11 is fixedly connected with the pressing plate 8.
The implementation mode is specifically as follows: through the partition board 17 arranged inside the shell 2, the testing device body is placed on the partition board 17 during testing, then the output end of the motor 10 drives the transmission shaft 11 to rotate, the transmission shaft 11 can drive the pressing board 8 to rotate, the sliding rod 7 can be extruded by utilizing the convex part 9 on the pressing board 8, the sliding rod 7 can be driven to move upwards, the sliding rod 7 can drive the sliding board 6 to move upwards, thereby driving the airflow inside the sleeve 5 to flow upwards, and further blowing out through the ventilation hole on the cover board 4, the testing device body can be cooled, when the convex part 9 on the pressing board 8 is gradually separated from the sliding rod 7, the transverse board 12 can be driven to move downwards under the pressure of the spring 13, thereby driving the sliding rod 7 to move downwards, and through the exhaust hole 16 arranged at the bottom end of the sleeve 5, the airflow inside the sleeve 5 can be exhausted when the sliding board 6 moves downwards, thereby facilitating the downward, the structure can drive the slide rod 7 to do reciprocating motion in the vertical direction through the rotation of the pressing plate 8, and further drive the sliding plate 6 to move up and down in the sleeve 5, so that air in the sleeve 5 can be blown out, and then blown into the shell 2 through the vent hole on the cover plate 4 at the top of the air guide disc 3, the test device body on the partition plate 17 can be radiated, the through hole on the cover plate 4 is obliquely arranged, and the circular hole 18 is arranged on the cover plate 4, so that the cover plate 4 can be pulled out through the circular hole 18, then the cover plate 4 with different inclination angles of the through hole is replaced, the flow direction of blown air is different, therefore, the cover plate 4 can be replaced according to different radiation requirements of different test device bodies, the position with large radiation requirement is subjected to concentrated radiation, the radiation efficiency can be improved, the device is novel and compact in structure, and has high radiation efficiency, the practicability is stronger in actual use.
The working principle is as follows: drive transmission shaft 11 through motor 10 output and rotate and can drive clamp plate 8 and rotate, utilize bellying 9 on clamp plate 8 to extrude slide bar 7, drive its upward movement, thereby it drives the inside air current of sleeve 5 and upwards flows to improve slide 6, and then blow out through the ventilation hole on apron 4, can dispel the heat to the testing arrangement body, the inside air of sleeve 5 blows out and enters into inside shell 2 through the ventilation hole on the apron 4 in 3 tops of guide duct dish, can dispel the heat to the testing arrangement body on baffle 17, here the through-hole slope setting on apron 4, it has different inclination's apron 4 to change the through-hole, the flow direction that the wind that blows out produced also can be different, can be to the difference of different testing arrangement body heat dissipation requirements, change apron 4.
The basic principles and the main features of the invention and the advantages of the invention have been shown and described above. It will be understood by those skilled in the art that the present invention is not limited to the above embodiments, and that the foregoing embodiments and descriptions are provided only to illustrate the principles of the present invention without departing from the spirit and scope of the present invention. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (7)
1. A software stability testing device comprises a bottom plate (1), wherein a shell (2) is arranged on the top of the bottom plate (1), a testing device body is arranged inside the shell (2), and the software stability testing device is characterized in that: a cooling component is arranged at the bottom end of the shell (2);
the cooling component comprises an air guide disc (3), the air guide disc (3) penetrates through the shell (2) and extends into the shell (2), a cover plate (4) is arranged at the top end of the air guide disc (3), a vent hole is arranged at the top of the cover plate (4), a sleeve (5) is arranged at the bottom end of the air guide disc (3), the sleeve (5) is communicated with the air guide disc (3), a sliding plate (6) is connected in the sleeve (5) in a sliding way, a sliding rod (7) is arranged at the bottom end of the sliding plate (6), the sliding rod (7) penetrates through the sleeve (5) and extends to the outer side of the sleeve (5), a pressing plate (8) is arranged at the bottom end of the sliding rod (7), a convex part (9) is arranged on the pressing plate (8), the rear side of the pressing plate (8) is provided with a motor (10), the output end of the motor (10) is fixedly connected with a transmission shaft (11), and the transmission shaft (11) is fixedly connected with the pressing plate (8).
2. A software stability testing device according to claim 1, wherein: the bottom end of the sliding rod (7) is fixedly connected with a transverse plate (12), and springs (13) are arranged on two sides of the top of the transverse plate (12).
3. A software stability testing device according to claim 2, wherein: the inner side of the spring (13) is provided with a telescopic rod (14), and the telescopic rod (14) is fixedly connected between the shell (2) and the transverse plate (12).
4. A software stability testing device according to claim 1, wherein: the motor (10) bottom is provided with the base, base fixed connection is in bottom plate (1) top, fixedly connected with bracing piece (15) between bottom plate (1) and shell (2).
5. A software stability testing device according to claim 1, wherein: the bottom end of the sleeve (5) is provided with an exhaust hole (16).
6. A software stability testing device according to claim 1, wherein: all four sides in shell (2) are fixedly connected with baffle (17), the testing arrangement body sets up in baffle (17) top.
7. A software stability testing device according to claim 1, wherein: the top of the cover plate (4) is provided with a through round hole (18), the number of the ventilation holes is set to be a plurality of, and the ventilation holes are all obliquely arranged.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022401071.6U CN213122885U (en) | 2020-10-26 | 2020-10-26 | Software stability testing device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202022401071.6U CN213122885U (en) | 2020-10-26 | 2020-10-26 | Software stability testing device |
Publications (1)
Publication Number | Publication Date |
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CN213122885U true CN213122885U (en) | 2021-05-04 |
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Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN202022401071.6U Active CN213122885U (en) | 2020-10-26 | 2020-10-26 | Software stability testing device |
Country Status (1)
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CN (1) | CN213122885U (en) |
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2020
- 2020-10-26 CN CN202022401071.6U patent/CN213122885U/en active Active
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