CN218412111U

CN218412111U - Cable low temperature coiling testing arrangement

Info

Publication number: CN218412111U
Application number: CN202222613325.XU
Authority: CN
Inventors: 袁奇; 姜宇锋; 钱海敏; 谢潇
Original assignee: Suzhou Emtek Co ltd
Current assignee: Suzhou Emtek Co ltd
Priority date: 2022-09-30
Filing date: 2022-09-30
Publication date: 2023-01-31
Anticipated expiration: 2032-09-30

Abstract

The utility model provides a cable low temperature coiling test device, including support frame and winding mechanism, the support frame includes base, first support post and second support post, is equipped with first mounting groove on the first support post, is equipped with first bearing frame in the first mounting groove, is equipped with the second mounting groove on the second support post, is equipped with the second bearing frame in the second mounting groove; the winding mechanism comprises a winding shaft and a rotating handle, two ends of the winding shaft are respectively and coaxially connected with the first bearing block and the second bearing block, and the rotating handle is connected with one end of the winding shaft; the winding reel comprises a first winding section, a separation section and a second winding section, and the separation section is arranged between the first winding section and the second winding section. The device structure is succinct, convenient operation, and low in manufacturing cost for carry out the coiling test of cable under low temperature environment, drive the reel through rotating the handle and rotate, can two sections cables of rolling simultaneously on the reel, the efficiency of software testing is high.

Description

Cable low temperature coiling testing arrangement

Technical Field

The utility model relates to a cable performance detects technical field, especially relates to a cable low temperature coiling test device.

Background

The cable mainly has multiple functions of controlling installation, connecting equipment, transmitting electric power and the like, and is widely applied to various circuit connection systems. In some circuit connection systems, the cable needs to work in a low-temperature environment, and the cable inevitably needs to be bent, wound and the like, so that the adaptability of the cable to the low-temperature environment is one of important indexes for evaluating the performance of the cable. After the cable is manufactured, a low-temperature winding test needs to be performed on the cable to check whether the surface of the cable is cracked after the cable is wound in a low-temperature environment. The existing cable low-temperature winding testing device is complex in structure and high in manufacturing cost, only one cable can be wound at a time, the testing efficiency is low, and the time consumption is long, so that the cable low-temperature winding testing device needs to be improved.

Disclosure of Invention

The utility model aims at solving the shortcoming that exists among the prior art, and the cable low temperature coiling testing arrangement who provides reduces manufacturing cost, improves efficiency of software testing.

In order to achieve the above purpose, the utility model adopts the following technical scheme:

a cable low-temperature winding test device comprises a support frame and a winding mechanism, wherein the support frame comprises a base, a first support upright post and a second support upright post, the first support upright post and the second support upright post are respectively arranged on two sides of the top surface of the base, and the first support upright post is parallel to the second support upright post; a first mounting groove is formed in the first supporting upright, a first bearing seat is arranged in the first mounting groove, and the central axis of the first bearing seat is perpendicular to the first supporting upright; and a second mounting groove is formed in the second supporting upright, a second bearing seat is arranged in the second mounting groove, and the central axis of the first bearing seat is superposed with the central axis of the second bearing seat.

The winding mechanism comprises a winding shaft and a rotating handle, two ends of the winding shaft are respectively and coaxially connected with the first bearing seat and the second bearing seat, and the rotating handle is connected with one end of the winding shaft; the winding shaft comprises a first winding section, a separation section and a second winding section, wherein the separation section is arranged between the first winding section and the second winding section.

Preferably, the first winding section is provided with a first fixing member for fixing the end portion of the first cable to be tested, and the second winding section is provided with a second fixing member for fixing the end portion of the second cable to be tested.

Preferably, the first fixing member is arranged at one end of the first winding section far away from the separating section, and the second fixing member is arranged at one end of the second winding section far away from the separating section.

Preferably, the first fixing piece is a protruding block structure arranged on the first winding section, a first fixing hole is formed in the first fixing piece, the central axis of the first fixing hole is perpendicular to the central axis of the first winding section, and the aperture of the first fixing hole is matched with the outer diameter of the first cable to be measured.

Preferably, the second fixing part is a bump structure arranged on the second winding section, a second fixing hole is formed in the second fixing part, the central axis of the second fixing hole is perpendicular to the central axis of the second winding section, and the aperture of the second fixing hole is matched with the outer diameter of the second cable to be tested.

Preferably, a first split is arranged on the first support upright, and the first split extends from the middle of the top surface of the first support upright to the top of the first mounting groove; and a second split is arranged on the second supporting upright post, and the second split extends to the top of the second mounting groove from the middle part of the top surface of the second supporting upright post.

Preferably, the outer diameter of the first winding section is the same as or different from the outer diameter of the second winding section.

Preferably, the outer diameter of the separating section is larger than the outer diameter of the first winding section and the outer diameter of the second winding section.

Preferably, the outer end of the first winding section is coaxially connected with the first bearing seat, the outer end of the second winding section is coaxially connected with the second bearing seat, the outer end of the first winding section extends out of the first bearing seat, and the rotating handle is connected with the extending part of the first winding section.

Preferably, the surface of the spool is smooth.

Compared with the prior art, the beneficial effects of the utility model are that: the cable low-temperature winding testing device has the advantages of simple structure, convenient operation and low manufacturing cost, is used for winding testing of cables in a low-temperature environment, and is characterized in that a winding shaft is driven to rotate by rotating a handle, the winding shaft is provided with two winding sections, the two winding sections are separated by utilizing the separation section, two sections of cables can be wound on the winding shaft at the same time, and the testing efficiency is high; in addition, the two winding sections can be set to different outer diameters, and low-temperature winding tests can be performed on cables with different thicknesses.

Drawings

Fig. 1 is a perspective view of a cable low-temperature winding test device according to embodiment 1 of the present invention;

fig. 2 is a schematic structural diagram of a first bearing seat, a second bearing seat and a winding reel in a cable low Wen Juanrao testing apparatus according to embodiment 2 of the present invention.

In the figure, 100-cable low-temperature winding test device, 10-support frame, 11-base, 12-first support upright, 121-first installation groove, 122-first bearing seat, 123-first split, 13-second support upright, 131-second installation groove, 132-second bearing seat, 133-second split, 20-winding mechanism, 21-winding shaft, 211-first winding section, 2111-first fixing piece, 2112-first fixing hole, 212-separation section, 213-second winding section, 2131-second fixing piece, 2132-second fixing hole and 22-rotating handle.

Detailed Description

In order to further understand the objects, structures, features and functions of the present invention, the following embodiments are described in detail.

Please refer to fig. 1, fig. 1 is a perspective view of a cable low-temperature winding testing apparatus according to embodiment 1 of the present invention. The utility model discloses a cable low temperature coiling test device 100, including support frame 10 and winding mechanism 20, support frame 10 includes base 11, first support post 12 and second support post 13, and the top surface both sides of base 11 are located respectively to first support post 12 and second support post 13, and first support post 12 is on a parallel with second support post 13. A first mounting groove 121 is formed in the first support upright 12, a first bearing seat 122 is arranged in the first mounting groove 121, and a central axis of the first bearing seat 122 is perpendicular to the first support upright 12; a second mounting groove 131 is formed in the second support column 13, a second bearing seat 132 is disposed in the second mounting groove 131, and a central axis of the first bearing seat 122 coincides with a central axis of the second bearing seat 132.

The winding mechanism 20 includes a spool 21 and a rotating handle 22, both ends of the spool 21 are coaxially connected to the first bearing housing 122 and the second bearing housing 132, respectively, and the rotating handle 22 is connected to one end of the spool 21. In application, the winding reel 21 is used for winding the cable to be tested, and the rotating handle 22 is used for driving the winding reel 21 to rotate so as to wind the cable to be tested. The bobbin 21 includes a first winding section 211, a separation section 212, and a second winding section 213, and the separation section 212 is disposed between the first winding section 211 and the second winding section 213. Therefore, the cables can be wound on the first winding section 211 and the second winding section 213 respectively for testing, and the efficiency of the low-temperature winding test of the cables is improved.

In the preferred embodiment of the present invention, the first supporting upright 12 is provided with a first slit 123, and the first slit 123 extends from the middle portion of the top surface of the first supporting upright 12 to the top portion of the first mounting groove 121. The second support pillar 13 is provided with a second slit 133, and the second slit 133 extends from the middle of the top surface of the second support pillar 13 to the top of the second mounting groove 131. The configuration of the first slit 123 and the second slit 133 matches the configuration of the spool 21. The first slit 123 and the second slit 133 are provided to facilitate the detachment of the spool 21.

In a preferred embodiment of the present invention, the outer diameter of the first winding section 211 is the same as or different from the outer diameter of the second winding section 213. When the outer diameter of the first winding section 211 is the same as that of the second winding section 213, the device can be used for low-temperature winding test of two cables with the same thickness; when the outer diameter of the first winding section 211 is different from that of the second winding section 213, the device can be used for low-temperature winding test of two cables with different thicknesses. For example, in the cable low-temperature winding test device 100 shown in fig. 1, the outer diameter of the first winding section 211 is larger than that of the second winding section 213, a thicker cable can be wound on the first winding section 211, and a thinner cable can be wound on the second winding section 213.

In a preferred embodiment of the present invention, the outer diameter of the separation section 212 is larger than the outer diameter of the first winding section 211 and the outer diameter of the second winding section 213. The separation section 212 is used for separating the cables on the two winding sections to avoid mutual influence.

In the preferred embodiment of the present invention, the outer end of the first winding section 211 (the end of the first winding section 211 away from the separating section 212) is coaxially connected to the first bearing seat 122, the outer end of the second winding section 213 (the end of the second winding section away from the separating section 212) is coaxially connected to the second bearing seat 132, the outer end of the first winding section 211 extends from the first bearing seat 122, and the rotating handle 22 is connected to the extending portion of the first winding section 211. However, the present invention is not limited to this, and in other embodiments, the positions and the connection relations of the two winding sections, the two bearing seats and the rotating handle can be set reasonably according to actual requirements.

The utility model discloses a preferred embodiment, the surface of spool 21 is smooth, can avoid causing wearing and tearing or destruction and influence the test result to the cable surface at the coiling in-process to guarantee the reliability of test result.

Please refer to fig. 2, fig. 2 is a schematic structural diagram of a first bearing seat, a second bearing seat and a winding reel in a cable low Wen Juanrao testing apparatus according to embodiment 2 of the present invention. The embodiment 2 of the utility model provides an in, still be equipped with the first mounting 2111 that is used for fixed first cable (not shown in the figure) tip that awaits measuring on the first section 211 of convoluteing, be equipped with the second mounting 2131 that is used for fixed second cable (not shown in the figure) tip that awaits measuring on the second section 213 of convoluteing. Preferably, a first fixing element 2111 is provided at the end of the first winding section 211 remote from the separation section 212, and a second fixing element 2131 is provided at the end of the second winding section 213 remote from the separation section 212.

In an embodiment, the first fixing element 2111 is a protruding block structure disposed on the first winding section 211, a first fixing hole 2112 is disposed on the first fixing element 2111, a central axis of the first fixing hole 2112 is perpendicular to a central axis of the first winding section 211, and an aperture of the first fixing hole 2112 is matched with an outer diameter of the first cable to be tested. The second fixing member 2131 is a protruding block structure disposed on the second winding section 213, the second fixing member 2131 is provided with a second fixing hole 2132, a central axis of the second fixing hole 2132 is perpendicular to a central axis of the second winding section 213, and an aperture of the second fixing hole 2132 is matched with an outer diameter of the second cable to be tested. Before the coiling begins, penetrate the tip of the first cable that awaits measuring in first fixed orifices 2112, penetrate the tip of the second cable that awaits measuring in second fixed orifices 2132, can fix the tip of the first cable that awaits measuring, the second cable that awaits measuring to make things convenient for subsequent coiling operation, need not artifical fixed cable tip that awaits measuring, use manpower sparingly, and can improve the coiling efficiency of software testing.

Of course, in other embodiments, the first fixing member and the second fixing member may also adopt other reasonable structures, and the end portion of the cable to be tested may be fixed.

To sum up, the utility model provides a cable low temperature coiling test device, its structure is succinct, convenient operation, low in manufacturing cost for carry out the coiling test of cable under low temperature environment, drive the spool through rotating the handle and rotate, the spool has two sections coiling sections, utilize the partition section to separate two sections coiling sections, can roll two sections cables on the spool simultaneously, test efficiency is high; in addition, the two winding sections can be set to different outer diameters, and low-temperature winding tests can be performed on cables with different thicknesses.

The present invention has been described in relation to the above embodiments, which are only examples for implementing the present invention. It should be noted that the disclosed embodiments do not limit the scope of the invention. On the contrary, all changes and modifications which do not depart from the spirit and scope of the present invention are deemed to fall within the scope of the present invention.

Claims

1. The utility model provides a cable low temperature coiling testing arrangement which characterized in that: the winding device comprises a support frame and a winding mechanism, wherein the support frame comprises a base, a first support upright and a second support upright, the first support upright and the second support upright are respectively arranged on two sides of the top surface of the base, and the first support upright is parallel to the second support upright; a first mounting groove is formed in the first supporting upright, a first bearing seat is arranged in the first mounting groove, and the central axis of the first bearing seat is perpendicular to the first supporting upright; a second mounting groove is formed in the second supporting upright, a second bearing seat is arranged in the second mounting groove, and the central axis of the first bearing seat is overlapped with the central axis of the second bearing seat;

2. The cable low temperature coiling test device of claim 1, wherein: the first winding section is provided with a first fixing piece used for fixing the end part of the first cable to be tested, and the second winding section is provided with a second fixing piece used for fixing the end part of the second cable to be tested.

3. The cable low temperature coiling test device of claim 2, wherein: the first fixing piece is arranged at one end, far away from the separating section, of the first winding section, and the second fixing piece is arranged at one end, far away from the separating section, of the second winding section.

4. The cable low temperature coiling test device of claim 2, wherein: the first fixing piece is a protruding block structure arranged on the first winding section, a first fixing hole is formed in the first fixing piece, the central axis of the first fixing hole is perpendicular to the central axis of the first winding section, and the aperture of the first fixing hole is matched with the outer diameter of a first cable to be measured.

5. The cable low temperature coiling test device of claim 2, wherein: the second mounting is for locating lug structure on the second coiling section, be equipped with the second fixed orifices on the second mounting, the axis perpendicular to of second fixed orifices the axis of second coiling section, the aperture of second fixed orifices and the external diameter phase-match of the second cable that awaits measuring.

6. The cable low temperature coiling test device of any one of claims 1-5, wherein: a first split is arranged on the first supporting upright post, and the first split extends from the middle of the top surface of the first supporting upright post to the top of the first mounting groove; and a second split is arranged on the second supporting upright post, and the second split extends to the top of the second mounting groove from the middle part of the top surface of the second supporting upright post.

7. The cable low temperature coiling test device of any one of claims 1-5, wherein: the outer diameter of the first winding section is the same as or different from the outer diameter of the second winding section.

8. The cable low temperature coiling test device of any one of claims 1-5, wherein: the outer diameter of the separating section is larger than the outer diameter of the first winding section and the outer diameter of the second winding section.

9. The cable low temperature coiling test device of any one of claims 1-5, wherein: the outer end of the first winding section is coaxially connected with the first bearing seat, the outer end of the second winding section is coaxially connected with the second bearing seat, the outer end of the first winding section extends out of the first bearing seat, and the rotating handle is connected with the extending part of the first winding section.

10. The cable low temperature coiling test device of any one of claims 1-5, wherein: the surface of the winding shaft is smooth.