TEMPERATURE DETECTING DEVICE, TEMPERATURE DETECTING SYSTEM AND TEMPERATURE DETECTING METHOD
First Claim
Patent Images
1. A temperature detecting device, comprising:
- a bearing support, a first end of the bearing support being fixed;
a temperature detector, provided on a second end of the bearing support;
a moving component, configured to be connected with the bearing support,wherein the second end of the bearing support is movable with respect to the first end under driving of the moving component.
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Abstract
Embodiments of the present disclosure discloses a temperature detecting device, a temperature detecting system and a temperature detecting method. The temperature detecting device includes: a bearing support, a first end of the bearing support being fixed; a temperature detector, provided on a second end of the bearing support; a moving component, configured to be connected with the bearing support, wherein the second end of the bearing support is movable with respect to the first end under driving of the moving component.
0 Citations
20 Claims
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1. A temperature detecting device, comprising:
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a bearing support, a first end of the bearing support being fixed; a temperature detector, provided on a second end of the bearing support; a moving component, configured to be connected with the bearing support, wherein the second end of the bearing support is movable with respect to the first end under driving of the moving component.
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2. The temperature detecting device according to claim 1, wherein the bearing support includes a rotating member and a telescopic member, a first end of the rotating member is fixed, a second end of the rotating member is fixedly connected with a first end of the telescopic member, and a second end of the telescopic member is configured to bear the temperature detector.
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3. The temperature detecting device according to claim 2, wherein the moving component is respectively coupled to the rotating member and the telescopic member, under the driving of the moving component, the second end of the telescopic member is extendible and retractable, and the rotating member is rotatable, and an extension direction of the rotating member is perpendicular to an extension direction of the telescopic member.
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4. The temperature detecting device according to claim 1, wherein the bearing support includes:
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a first support, a first end of the first support being fixed; a telescopic member, a first end of the telescopic member being rotatably coupled to the first support, and a second end of the telescopic member being provided with the temperature detector.
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5. The temperature detecting device according to claim 4, wherein the moving component is coupled to the telescopic member, and under driving of the moving component, the second end of the telescopic member is extendible and retractable, and the second end of the telescopic member is rotatable with respect to the first support.
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6. The temperature detecting device according to claim 1, further comprising:
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a bearing base, configured to bear an assembly to be detected, the first end of the bearing support being fixed to the bearing base.
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7. The temperature detecting device according to claim 1, further comprising:
a control member, connected with the moving component, and configured to control the moving component, so that the moving component drives the second end of the bearing support to move with respect to the first end.
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8. A temperature detecting system, comprising:
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a temperature detecting device, which is the temperature detecting device according to claim 1; a control device, connected with the moving component in the temperature detecting device, and configured to send control data for controlling movement of the second end of the bearing support to the moving component, wherein the moving component is configured to drive the second end of the bearing support to move based on the control data.
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9. The temperature detecting system according to claim 8, wherein the control device is further configured to:
- acquire position information of elements to be detected in an assembly to be detected, and generate control data according to the position information.
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10. The temperature detecting system according to claim 9, wherein the temperature detecting device further comprises:
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a bearing base, configured to bear the assembly to be detected, a first end of the bearing support being fixed to the bearing base, wherein the bearing base has a first reference coordinate system, the assembly to be detected has a second reference coordinate system, during a detection, the first reference coordinate system coincides with the second reference coordinate system, and the position information is coordinate information.
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11. The temperature detecting system according to claim 10, wherein the control data includes:
- a distance of the second end of the bearing support with respect to coordinate origin of the first reference coordinate system and the second reference coordinate system, and an included angle between a connection line from the second end of the bearing support to the coordinate origin and a first axis in the first reference coordinate system.
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12. The temperature detecting system according to claim 11, wherein the bearing support includes a rotating member and a telescopic member, a first end of the rotating member is fixedly connected with the bearing base, a second end of the rotating member is fixedly connected with a first end of the telescopic member, a second end of the telescopic member is configured to bear the temperature detector, and an axis of the rotating member passes through the coordinate origin of the first reference coordinate system, and is perpendicular to the first reference coordinate system;
the control data includes;
a length of the telescopic member, and an included angle between an extension direction of the telescopic member and the first axis of the first reference coordinate system.
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13. The temperature detecting system according to claim 12, wherein, the assembly to be detected includes N elements to be detected, where N is a positive integer,
the control device is configured to sequentially send N pieces of control data in a preset order, the N pieces of control data are in one-to-one correspondence with the N elements to be detected; the moving component is configured to;
control movement of the second end of the telescopic member, according to current position information of the second end of the telescopic member and an Mth piece of control data, when receiving the Mth piece of control data, so that an orthogonal projection of the temperature detector on a bearing surface of the bearing base overlaps with an orthogonal projection of an Mth element to be detected on the bearing surface, where M≤
N; and
the current position information of the second end of the telescopic member includes;
a current length of the telescopic member, and a current included angle between the extension direction of the telescopic member and one of axes in the first reference coordinate system.
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14. The temperature detecting system according to claim 8, wherein, the control device is further connected with the temperature detector,
the control device is further configured to: - acquire an operating temperature of the element to be detected;
judge whether or not the operating temperature of each of the elements to be detected is within a preset temperature range; and mark at least one of the element to be detected whose operating temperature is within the preset temperature range and the element to be detected whose operating temperature is not within the preset temperature range.
- acquire an operating temperature of the element to be detected;
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15. The temperature detecting system according to claim 11, wherein the bearing support includes:
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a first support, a first end of the first support being fixed; a telescopic member, a first end of the telescopic member being rotatably coupled to the first support, and a second end of the telescopic member being provided with the temperature detector, a rotation axis of the telescopic member passes through the coordinate origin of the first reference coordinate system and is perpendicular to the first reference coordinate system; the control data includes;
a length of the telescopic member, and an included angle between an extension direction of the telescopic member and the first axis of the first reference coordinate system.
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16. A temperature detecting method, applied to the temperature detecting system according to claim 8, the method comprising:
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sending, by the control device, control data for controlling movement of the second end of the bearing support to the moving component, when an assembly to be detected is in operation; driving, by the moving component, the second end of the bearing support to move based on the control data.
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17. The temperature detecting method according to claim 16, wherein, the temperature detecting device further comprises:
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a bearing base, configured to bear the assembly to be detected, a first end of the bearing support being fixed to the bearing base, wherein the bearing base has a first reference coordinate system, and the assembly to be detected has a second reference coordinate system; and before the sending, by the control device, control data for controlling movement of the second end of the bearing support to the moving component, the method further comprises; causing the bearing base to move with respect to the assembly to be detected, so that the first reference coordinate system coincides with the second reference coordinate system.
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18. The temperature detecting method according to claim 17, before the sending, by the control device, control data for controlling movement of the second end of the bearing support to the moving component, comprising:
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acquiring position information of each of the elements to be detected on the assembly to be detected; generating the control data according to the position information, the control data including;
a distance of the second end of the bearing support with respect to the coordinate origin of the first reference coordinate system and the second reference coordinate system, and an included angle between a connection line from the second end of the bearing support to the coordinate origin and a first axis in the first reference coordinate system.
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19. The temperature detecting method according to claim 18, wherein the assembly to be detected is a printed circuit board, the acquiring position information of each of the elements to be detected on the assembly to be detected includes:
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acquiring position information of each of the elements to be detected on the assembly to be detected from a file which is stored with the position information of the elements to be detected on the printed circuit board;
ormeasuring a position of each of the elements to be detected on the assembly to be detected to obtain position information of each of the elements to be detected on the assembly to be detected.
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20. The temperature detecting method according to claim 18, wherein the assembly to be detected includes N elements to be detected, where, N is a positive integer,
the sending, by the control device, control data for controlling movement of the second end of the bearing support to the moving component includes: -
configuring the control device to sequentially send N pieces of control data in a preset order, the N pieces of control data being in one-to-one correspondence with the N elements to be detected; the driving, by the moving component, the second end of the bearing support to move based on the control data includes; controlling movement of the second end of the bearing support, according to current position information of the second end of the bearing support and an Mth piece of control data, when receiving the Mth piece of control data, so that an orthogonal projection of the temperature detector on a bearing surface of the bearing base overlaps with an orthogonal projection of an Mth element to be detected on the bearing surface, where M≤
N,the current position information of the second end of the bearing support includes a distance of the second end of the bearing support with respect to the coordinate origin of the first reference coordinate system and the second reference coordinate system, and the included angle between the connection line from the second end of the bearing support to the coordinate origin and the first axis in the first reference coordinate system.
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Specification