CN203396687U - Self-supporting separation testing device of coaxial cables - Google Patents
Self-supporting separation testing device of coaxial cables Download PDFInfo
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- CN203396687U CN203396687U CN201320296301.4U CN201320296301U CN203396687U CN 203396687 U CN203396687 U CN 203396687U CN 201320296301 U CN201320296301 U CN 201320296301U CN 203396687 U CN203396687 U CN 203396687U
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- driving device
- guide wheel
- upper block
- lower tumbler
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Abstract
The utility model discloses a self-supporting separation testing device of coaxial cables. The self-supporting separation testing device of coaxial cables comprises a wire unwinding stand, a threading wire stabilizing part, a guide wheel set, a left driving device, a right driving device, a left wire winding stand, a right wire winding stand, an electric control cabinet and a motor. The self-supporting separation testing device, disclosed by the utility model, operates under electric control directly and is convenient and simple, so that the effect on testing results due to manual work is avoided; by using the device to test, the testing results are good in consistency; due to the adoption of the device, fixation test of various angles can be realized, which is not realized and controlled by the manual work.
Description
(1) technical field
The utility model relates to a kind of concentric cable self-supporting separation test device.
(2) background technology
Concentric cable self-supporting separation test is only suitable for testing in getting short section of sample at present, and mostly adopts manual manipulation method for big-length separation.Due to the impact that different operating person's hand tears the many factors such as gimmick, angle, power, the impact that test findings is produced more complicated.
(3) utility model content
The shortcoming existing in order to solve above-mentioned big-length concentric cable self-supporting separating experiment, the utility model provides a kind of concentric cable self-supporting separation test device, has realized mechanical automation mechanized operation completely, has avoided manual influence of fluctuations.
For this reason, the utility model is taked following technical scheme:
A kind of concentric cable self-supporting separation test device, include pay off rack 1, cross line stabilization part 2, guide wheel group, left driving device 7, right driving device 8, left take-up stand 9, right take-up stand 10, electrical control cabinet 11 and motor 12, described pay off rack is existing general pay off rack, according to the size of wiring dish tool, carries out choice for use.
Described line stabilization excessively is partly positioned at the rear of pay off rack, by support, the first upper block 13 and the first lower tumbler 14, formed, described the first upper block, the first lower tumbler are rack-mount, between described the first upper block and support, there is spring 15 on top, the first upper block and spring 15 form downward convergent force, more stable while allowing concentric cable pass through between upper and lower two guide wheels;
Described guide wheel group was positioned at the rear of line stabilization part, large left-hand guide wheel 3, little left-hand guide wheel 4, large dextrad guide wheel 5, little dextrad guide wheel 6, consist of, described large left-hand guide wheel 3, little left-hand guide wheel 4 and large dextrad guide wheel 5, little dextrad guide wheel 6 are arranged in both sides; Oversteer guide wheel left when described large left-hand guide wheel 3, little left-hand guide wheel 4 are separation test, distance between large left-hand guide wheel 3 and little left-hand guide wheel 4 is set as required, allow separated cable or self-supporting part pass through between two guide wheels, and do not depart from or drop; Oversteer guide wheel to the right when described large dextrad guide wheel 5, little dextrad guide wheel 6 are separation test, distance between large dextrad guide wheel 5 and little dextrad guide wheel 6 is set as required, allow separated cable or self-supporting line pass through between two guide wheels, and do not depart from or drop;
Described left driving device 7 is positioned at the left side of large left-hand guide wheel 3, little left-hand guide wheel 4, include the second upper block 16 and the second lower tumbler 17, described the second upper block 16 is connected with the second mechanical driving device with the second lower tumbler 17, by synchronous the second upper block 16 and the second lower tumbler 17 of driving of the second mechanical driving device, inwardly rotate, described the second mechanical driving device is electrically connected to electrical control cabinet; Cable after separation or self-supporting line pass through between the second upper block 16 and the second lower tumbler 17.During test, switch activated by electrical control cabinet, inwardly rotates by synchronous the second upper blocks 16 and the second lower tumbler 17 of driving of the second mechanical driving device 20, thereby drive cable and self-supporting is automatically separated;
Described right driving device 8 is positioned at the right side of large dextrad guide wheel 5, little dextrad guide wheel 6, include the 3rd upper block 18 and the 3rd lower tumbler 19, described the 3rd upper block 18 is connected with the 3rd mechanical driving device with the 3rd lower tumbler 19, by synchronous the 3rd upper block 18 and the 3rd lower tumbler 19 of driving of the 3rd mechanical driving device 20, inwardly rotate, described the 3rd mechanical driving device is electrically connected to electrical control cabinet; Cable after separation or self-supporting line pass through between the 3rd upper block 18 and the 3rd lower tumbler 19.During test, switch activated by electrical control cabinet, inwardly rotates by synchronous the 3rd upper blocks 18 and the 3rd lower tumbler 19 of driving of the 3rd mechanical driving device 21, thereby drive cable and self-supporting is automatically separated;
Described left take-up stand 9 is arranged in the left side of left driving device 7; Described left take-up stand 9 is existing general take-up stand, according to the size of wiring dish tool, carries out choice for use;
Described right take-up stand 10 is arranged in the right side of right driving device 8; Described right take-up stand 10 is existing general take-up stand, according to the size of wiring dish tool, carries out choice for use;
The second upper block 16 of described left driving device 7 and the 3rd upper block 18 of the second lower tumbler 17, described right driving device 8 and the 3rd lower tumbler 19 are synchronizeed rotation by described electrical control cabinet 11; Described electrical control cabinet is connected with motor; Described electrical control cabinet 11 is realized the switching manipulation of test unit is controlled, and the synchro control design, right driving device 8 the 3rd upper block 18 that possess left driving device 7 second upper blocks 16 and the second lower tumbler 17 design with the synchronizing function of synchro control design, left driving device 7 and the right driving device 8 of the 3rd lower tumbler 19;
Described the second mechanical driving device is connected driving with the 3rd mechanical driving device with described motor 12; Described motor 12 need to select suitable adjustable frequency motor according to power, and synchro control is better.During test, motor drives the mechanical driving device in left driving device 7 and right driving device 8, thereby drives the inside rotation of upper and lower two guide wheels in left driving device 7 and right driving device 8, realizes automatically separated to cable and self-supporting.
Employing the utlity model has following advantage: 1, directly adopt electrical control operation, and convenient and simple, avoided the impact of handwork on test findings; 2, adopt this device to test, the high conformity of test result; 3, adopt this device can realize the fixation test of all angles, this is that handwork can not realize and control.
(4) accompanying drawing explanation
Fig. 1 is a kind of concentric cable self-supporting of the utility model separation test installation composition schematic diagram;
Fig. 2 crosses line stabilization part 2 structural representations in the utility model;
Fig. 3 is left driving device 7 structural representations in the utility model;
Fig. 4 is that the A of Fig. 3 is to cut-open view;
Fig. 6 is that the B of Fig. 5 is to cut-open view.
(5) embodiment
Below in conjunction with specific embodiment, the utility model is described further, but protection domain of the present utility model is not limited only to this:
With reference to accompanying drawing 1-6, a kind of concentric cable self-supporting separation test device, include pay off rack 1, cross line stabilization part 2, guide wheel group, left driving device 7, right driving device 8, left take-up stand 9, right take-up stand 10, electrical control cabinet 11 and motor 12, described pay off rack is existing general pay off rack, according to the size of wiring dish tool, carries out choice for use.
Described line stabilization excessively is partly positioned at the rear of pay off rack, by support, the first upper block 13 and the first lower tumbler 14, formed, described the first upper block, the first lower tumbler are rack-mount, between described the first upper block and support, there is spring 15 on top, the first upper block and spring 15 form downward convergent force, more stable while allowing concentric cable pass through between upper and lower two guide wheels;
Described guide wheel group was positioned at the rear of line stabilization part, large left-hand guide wheel 3, little left-hand guide wheel 4, large dextrad guide wheel 5, little dextrad guide wheel 6, consist of, described large left-hand guide wheel 3, little left-hand guide wheel 4 and large dextrad guide wheel 5, little dextrad guide wheel 6 are arranged in both sides; Oversteer guide wheel left when described large left-hand guide wheel 3, little left-hand guide wheel 4 are separation test, distance between large left-hand guide wheel 3 and little left-hand guide wheel 4 is set as required, allow separated cable or self-supporting part pass through between two guide wheels, and do not depart from or drop; Oversteer guide wheel to the right when described large dextrad guide wheel 5, little dextrad guide wheel 6 are separation test, distance between large dextrad guide wheel 5 and little dextrad guide wheel 6 is set as required, allow separated cable or self-supporting line pass through between two guide wheels, and do not depart from or drop;
Described left driving device 7 is positioned at the left side of large left-hand guide wheel 3, little left-hand guide wheel 4, include the second upper block 16 and the second lower tumbler 17, described the second upper block 16 is connected with the second mechanical driving device with the second lower tumbler 17, by synchronous the second upper block 16 and the second lower tumbler 17 of driving of the second mechanical driving device, inwardly rotate, described the second mechanical driving device is electrically connected to electrical control cabinet; Cable after separation or self-supporting line pass through between the second upper block 16 and the second lower tumbler 17.During test, switch activated by electrical control cabinet, inwardly rotates by synchronous the second upper blocks 16 and the second lower tumbler 17 of driving of the second mechanical driving device 20, thereby drive cable and self-supporting is automatically separated;
Described right driving device 8 is positioned at the right side of large dextrad guide wheel 5, little dextrad guide wheel 6, include the 3rd upper block 18 and the 3rd lower tumbler 19, described the 3rd upper block 18 is connected with the 3rd mechanical driving device with the 3rd lower tumbler 19, by synchronous the 3rd upper block 18 and the 3rd lower tumbler 19 of driving of the 3rd mechanical driving device 20, inwardly rotate, described the 3rd mechanical driving device is electrically connected to electrical control cabinet; Cable after separation or self-supporting line pass through between the 3rd upper block 18 and the 3rd lower tumbler 19.During test, switch activated by electrical control cabinet, inwardly rotates by synchronous the 3rd upper blocks 18 and the 3rd lower tumbler 19 of driving of the 3rd mechanical driving device 21, thereby drive cable and self-supporting is automatically separated;
Described left take-up stand 9 is arranged in the left side of left driving device 7; Described left take-up stand 9 is existing general take-up stand, according to the size of wiring dish tool, carries out choice for use;
Described right take-up stand 10 is arranged in the right side of right driving device 8; Described right take-up stand 10 is existing general take-up stand, according to the size of wiring dish tool, carries out choice for use;
The second upper block 16 of described left driving device 7 and the 3rd upper block 18 of the second lower tumbler 17, described right driving device 8 and the 3rd lower tumbler 19 are synchronizeed rotation by described electrical control cabinet 11; Described electrical control cabinet is connected with motor; Described electrical control cabinet 11 is realized the switching manipulation of test unit is controlled, and the synchro control design, right driving device 8 the 3rd upper block 18 that possess left driving device 7 second upper blocks 16 and the second lower tumbler 17 design with the synchronizing function of synchro control design, left driving device 7 and the right driving device 8 of the 3rd lower tumbler 19;
Described the second mechanical driving device is connected driving with the 3rd mechanical driving device with described motor 12; Described motor 12 need to select suitable adjustable frequency motor according to power, and synchro control is better.During test, motor drives the mechanical driving device in left driving device 7 and right driving device 8, thereby drives the inside rotation of upper and lower two guide wheels in left driving device 7 and right driving device 8, realizes automatically separated to cable and self-supporting.
Concrete process of the test is:
The self-supporting concentric cable of finished product RG6 specification is contained on pay off rack on 1, first between the first upper block 13 in crossing line stabilization part 2 and the first lower tumbler 14, passes through, note the spring pressure that adjusting is suitable.
Then cable hand is torn to a separated segment length, allow separated cable and self-supporting line, one is being passed through left between large left-hand guide wheel 3 and little left-hand guide wheel 4, then passes through two guide wheels up and down of left driving device 7, receives on left take-up stand 9; One is passed through to the right, then by two guide wheels up and down of right driving device 8, receives on right take-up stand 10 between large dextrad guide wheel 5 and little dextrad guide wheel 6.
Then, start electric operation switch cashier's office in a shop, realized the self-supporting separation test of robotization.
After off-test, close and stop.The situation of part is torn in inspection, carries out test data sheet.
After practical application, prove that this device is convenient and simple, avoided the impact of handwork on test findings; And the high conformity of test findings.
Claims (1)
1. a concentric cable self-supporting separation test device, is characterized in that: include pay off rack, cross line stabilization part, guide wheel group, left driving device, right driving device, left take-up stand, right take-up stand, electrical control cabinet and motor;
Describedly cross the rear that line stabilization is partly positioned at pay off rack, support, the first upper block and the first lower tumbler, consist of, described the first upper block, the first lower tumbler are rack-mount, and between described the first upper block and support, there is spring on top;
Described guide wheel group was positioned at the rear of line stabilization part, large left-hand guide wheel, little left-hand guide wheel, large dextrad guide wheel, little dextrad guide wheel, consisted of, and described large left-hand guide wheel, little left-hand guide wheel and large dextrad guide wheel, little dextrad guide wheel are arranged in both sides;
Described left driving device is positioned at the left side of large left-hand guide wheel, little left-hand guide wheel, include the second upper block and the second lower tumbler, described the second upper block is connected with the second mechanical driving device with the second lower tumbler, by synchronous the second upper block and the second lower tumbler of driving of the second mechanical driving device, inwardly rotate, described the second mechanical driving device is electrically connected to electrical control cabinet;
Described right driving device is positioned at the right side of large dextrad guide wheel, little dextrad guide wheel, include the 3rd upper block and the 3rd lower tumbler, described the 3rd upper block is connected with the 3rd mechanical driving device with the 3rd lower tumbler, by synchronous the 3rd upper block and the 3rd lower tumbler of driving of the 3rd mechanical driving device, inwardly rotate, described the 3rd mechanical driving device is electrically connected to electrical control cabinet;
Described left take-up stand is arranged in the left side of left driving device;
Described right take-up stand is arranged in the right side of right driving device;
The second upper block of described left driving device is synchronizeed and is rotated by described electrical control cabinet with the 3rd upper block and the 3rd lower tumbler of the second lower tumbler, described right driving device; Described electrical control cabinet is connected with motor;
Described the second mechanical driving device is connected driving with the 3rd mechanical driving device with described motor.
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CN201320296301.4U CN203396687U (en) | 2013-05-27 | 2013-05-27 | Self-supporting separation testing device of coaxial cables |
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CN201320296301.4U CN203396687U (en) | 2013-05-27 | 2013-05-27 | Self-supporting separation testing device of coaxial cables |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103278444A (en) * | 2013-05-27 | 2013-09-04 | 浙江万马集团特种电子电缆有限公司 | Coaxial electric cable self-supporting separation test device |
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2013
- 2013-05-27 CN CN201320296301.4U patent/CN203396687U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103278444A (en) * | 2013-05-27 | 2013-09-04 | 浙江万马集团特种电子电缆有限公司 | Coaxial electric cable self-supporting separation test device |
CN103278444B (en) * | 2013-05-27 | 2015-04-01 | 浙江万马集团特种电子电缆有限公司 | Coaxial electric cable self-supporting separation test device |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
AV01 | Patent right actively abandoned |
Granted publication date: 20140115 Effective date of abandoning: 20150401 |
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RGAV | Abandon patent right to avoid regrant |