CN218161749U - High-efficient camera cable of carrying with reserve line - Google Patents

Abstract

The utility model provides a high-efficient camera cable of carrying with reserve line relates to camera cable technical field, include: a first protective case; a first joint is connected in the first protection box in a sliding manner; the left end face of the first joint is fixedly connected with a data plug in the middle. When the efficient camera cable conveying device is not needed to be used, the second pressing frame can be pressed to extrude the second limiting frame to enable the second limiting frame to be separated from the front second lower limiting block and the second upper limiting block, the second pressing frame is dragged to drive the second limiting frame to move in the second protection box when the second pressing frame is moved 15mm, the second pressing frame is loosened to enable the second limiting frame to reset along with the resilience of the second telescopic spring, the second lower limiting block and the second upper limiting block can limit the second limiting frame to store the USB plug in the second protection box, and the problem that the joint of the efficient camera cable is easily damaged due to external force in the storage process to influence the use of the follow-up efficient camera cable is solved.

Description

High-efficient camera cable of carrying with reserve line

Technical Field

The utility model relates to a camera cable technical field, in particular to camera cable is carried to high efficiency with reserve line.

Background

The cable is a generic term of various wires for transmitting electrical signals or optical signals, and a high-efficiency camera cable is generally used for transmitting data of an industrial camera in the process of using the industrial camera, and a standby wire is generally arranged outside the cable in order to prevent the data transmission of the industrial camera from being influenced by the damage of the cable in the process of transmitting the data of the industrial camera.

For example, the utility model with the application number CN201620256692.0 discloses a transmission cable, in particular to a transmission cable, which comprises an electrical connection plug, which conforms to Lightning specifications, the electrical connection plug is connected with a cable, wherein the cable is wrapped with a plurality of electronic wires; the electrical adapter connector can be used for data transmission after the electronic card is inserted, and comprises a base and a circuit module, wherein the base is internally provided with an accommodating space, and one side of the base is provided with a USB type metal shell which can be inserted into the butting connector; the circuit module is arranged in the accommodating space of the base and is provided with an electric connection part which accords with the metal shell and the butting connector, a plurality of elastic arm conductive terminals are arranged behind the electric connection part, an inserting space which can accommodate a default electronic card is arranged below the electric connection part, a plurality of terminals which can be electrically transmitted with the default electronic card are arranged in the inserting space, and the circuit module is electrically connected with the electronic wire of the plug of the electric connector, so that the electric connection plug and the electric butting connector can be electrically connected and transmitted.

However, as for the traditional high-efficiency camera cable, the cable is generally composed of a cable body and connectors at two ends, the industrial camera and the data transmission equipment are connected through the connectors at the two ends, and data are transmitted through the cable body.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention provides a high-efficiency camera cable with a spare cable, which has a protection box for conveniently accommodating two end connectors of the high-efficiency camera cable, when the high-efficiency camera cable is not required to be transported, a second pressing frame can be pressed to press a second pressing frame to extrude the second limiting frame, when the second limiting frame slides for 5mm in a second sliding groove, the second limiting frame will be separated from the limiting of a front second lower limiting block and a front second upper limiting block, at this time, the second pressing frame is pulled to drive the second limiting frame to move in the second protection box, when the second limiting frame moves for 15mm in the second protection box, the second pressing frame is released to reset along with the resilience of a second expansion spring, at this time, the rear second lower limiting block and the rear second upper limiting block will limit the second limiting frame, at the moment, the second connector and the USB plug are completely contained in the second protection box, then the first pressing frame is pressed to enable the first pressing frame to extrude the first limiting frame to be separated from the limiting position of the front first lower limiting block and the front first upper limiting block when the first limiting frame slides in the first sliding groove for 5mm, at the moment, the first pressing frame is dragged to drive the first limiting frame to move in the first protection box, the first pressing frame is loosened when the first limiting frame moves in the first protection box for 15mm, the first limiting frame is enabled to reset along with the resilience of the first telescopic spring, at the moment, the first lower limiting block at the rear part and the first upper limiting block at the rear part limit the first limiting frame, and at the moment, the first connector and the data plug are completely contained in the first protection box.

The utility model provides a high-efficient camera cable of carrying with reserve line specifically includes: a first protective case; a first joint is connected in the first protection box in a sliding manner; the left end face of the first joint is fixedly connected with a data plug in the middle; the right end face of the data plug is fixedly connected with a cable body in the middle; the right end face of the first protection box is fixedly connected with a first standby rack; the cable body is connected in the first standby rack in a sliding manner; the right end face of the cable body is fixedly connected with a second connector; the right end face of the second joint is fixedly connected with a USB plug in the middle; a second protection box is connected to the outer wall of the second joint in a sliding manner; the left end face of the second protection box is fixedly connected with a second standby frame; the cable body is slidably connected in the second standby rack.

Optionally, a first sliding groove is formed in the middle of each of the front end surface of the first joint and the rear end surface of the first joint; a group of first telescopic springs are fixedly connected in the two first sliding grooves respectively; each group of the first telescopic springs is provided with three first telescopic springs; the front end surfaces of the two groups of first telescopic springs and the rear end surfaces of the two groups of first telescopic springs are respectively and fixedly connected with a first limiting frame; two first spacing framves are sliding connection respectively in first sliding tray.

Optionally, the front end surfaces of the two first limiting frames and the rear end surfaces of the two first limiting frames are respectively and fixedly connected with a first pressing frame; the front end face of the first protection box and the rear end face of the first protection box are respectively provided with a guide sliding chute; the two first pressing frames are respectively connected in the two guide sliding grooves in a sliding manner.

Optionally, the bottom end surface of the inner wall of the first protection box is fixedly connected with four first lower limiting blocks in a rectangular array shape; the top end surface of the inner wall of the first protection box is in a rectangular array shape and is fixedly connected with four first upper limiting blocks; the first upper limiting block is aligned with the first lower limiting block.

Optionally, a first mounting groove is formed in the left part of the top end face of the first protection box; the bottom end surface of the first mounting groove is symmetrically and fixedly connected with two first fixing blocks; two first fixed block outer walls are connected with a first dustproof door in a rotating mode.

Optionally, a first auxiliary chute is formed in the middle of the right end face of the first mounting groove; a first clamping block is fixedly connected in the middle of the right end face of the first dustproof door; the front end surface of the first auxiliary sliding groove and the rear end surface of the first auxiliary sliding groove are respectively provided with a first limiting sliding groove; a first limiting sliding block is respectively connected in the two first limiting sliding grooves in a sliding manner; a second clamping block is fixedly connected between the two first limiting sliding blocks; the first clamping block is clamped on the second clamping block; the bottom end face of the second clamping block is fixedly connected with two first return springs.

Optionally, a second sliding groove is formed in the center of both the front end surface of the second joint and the rear end surface of the second joint; a group of second expansion springs are fixedly connected in the two second sliding grooves respectively; each group of the second telescopic springs is provided with three second telescopic springs; the front end surfaces of the two groups of second telescopic springs and the rear end surfaces of the two groups of second telescopic springs are respectively and fixedly connected with a second limiting frame; two second spacing racks are respectively connected in the second sliding grooves in a sliding manner.

Optionally, the front end surfaces of the two second limiting frames and the rear end surfaces of the two second limiting frames are respectively and fixedly connected with a second pressing frame; the front end face of the second protection box and the rear end face of the second protection box are respectively provided with a guide sliding chute; the two second pressing frames are respectively connected in the two guide sliding grooves in a sliding manner.

Optionally, the bottom end surface of the inner wall of the second protection box is fixedly connected with four second lower limiting blocks in a rectangular array shape; the top end surface of the inner wall of the second protection box is in a rectangular array shape and is fixedly connected with four second upper limiting blocks; the second upper limit block is aligned with the second lower limit block.

Optionally, a second mounting groove is formed in the right part of the top end face of the second protection box; two second fixing blocks are symmetrically and fixedly connected to the bottom end face of the second mounting groove; and the outer walls of the two second fixed blocks are rotatably connected with second dustproof doors.

Optionally, a second auxiliary chute is arranged in the middle of the left end surface of the second mounting groove; a third clamping block is fixedly connected in the middle of the left end face of the second dustproof door; the front end surface of the second auxiliary sliding groove and the rear end surface of the second auxiliary sliding groove are respectively provided with a second limiting sliding groove; a second limiting sliding block is respectively connected in the two second limiting sliding grooves in a sliding manner; a fourth clamping block is fixedly connected between the two second limiting sliding blocks; the third clamping block is clamped on the fourth clamping block; the bottom end face of the fourth fixture block is fixedly connected with two second return springs.

Optionally, a spare cable is slidably connected to a lower portion of the first spare rack; the material of the standby cable is equal to that of the cable body; the tail end of the standby cable is connected in the lower part of the second standby rack in a sliding manner; a first standby chute is formed in the lower part of the first standby frame; two groups of first clamping springs are symmetrically and fixedly connected in the first standby chute; each group of the first clamping springs is provided with two first clamping springs; the tail ends of the two groups of first clamping springs are fixedly connected with a first clamping frame; the inner walls of the two first clamping frames are in contact with the outer wall of the standby cable; a second standby chute is formed in the lower part of the second standby frame; two groups of second clamping springs are symmetrically and fixedly connected in the second standby chute; each group of the second clamping springs is provided with two second clamping springs; the tail ends of the two groups of second clamping springs are fixedly connected with a second clamping frame; the inner walls of the two second clamping frames are in contact with the outer wall of the standby cable.

Advantageous effects

The utility model discloses can accomodate into the protection box to the joint at cable both ends when not using the cable in, prevent that the joint of cable exposes the follow-up use that takes place to damage influence cable under the effect of external force when not using the cable, can seal the protection box and avoid the in-process dust of accomodating for a long time entering joint and pile up in the joint and influence and connect subsequent use after accomodating into the protection box completely simultaneously.

In addition, when the cable is not needed to be used, the second pressing frame can be pressed to extrude the second limiting frame to be carried out in the second sliding groove, when the second limiting frame slides for 5mm, the second limiting frame can be separated from the limiting of the front second lower limiting block and the front second upper limiting block, at this time, the second pressing frame can be pulled to drive the second limiting frame to move in the second protecting box, when the second limiting frame moves for 15mm in the second protecting box, the second pressing frame is released, the second limiting frame is reset along with the rebounding of the second telescopic spring, at this time, the rear second lower limiting block and the rear second upper limiting block can limit the second limiting frame, at this time, the second connector and the USB plug are completely contained in the second protecting box, at this time, the fourth clamping block is pressed down to enable the fourth clamping block to slide in the second limiting sliding groove, the third clamping block loses the limiting of the fourth clamping block in the sliding process of the fourth clamping block, at this time, the second dustproof door can be turned to the right, the USB protecting box is prevented from being damaged when dust enters the USB plug which is placed in the second protecting box, and the USB plug is damaged in the long-time.

In addition, the first pressing frame is pressed to extrude the first limiting frame to slide in the first sliding groove, when the first limiting frame slides for 5mm, the first limiting frame can be separated from the limiting position of the front first lower limiting block and the front first upper limiting block, at this time, the first pressing frame can be pulled to drive the first limiting frame to move in the first protection box, when the first limiting frame moves for 15mm in the first protection box, the first pressing frame is loosened, the first limiting frame is reset along with the resilience of the first telescopic spring, at this time, the first lower limiting block at the rear part and the first upper limiting block at the rear part can limit the first limiting frame, at this time, the first connector and the data plug are completely accommodated in the first protection box, at this time, the second clamping block is pressed to enable the second clamping block to slide in the first limiting sliding groove, the first clamping block can lose the limiting position of the second clamping block in the sliding process of the second clamping block, at this time, the first dustproof door can be turned left to seal the first protection box, dust in the long-time placing process is prevented from entering the first protection box, and the plug can damage data plug in the plug, and the plug can damage data plug.

Drawings

In order to more clearly illustrate the technical solution of the embodiments of the present invention, the drawings of the embodiments will be briefly described below.

The drawings in the following description relate to only some embodiments of the invention and are not intended to limit the invention.

In the drawings:

fig. 1 is an axial structure diagram of the present invention.

Fig. 2 is a schematic sectional view of the first protection box of the present invention.

Fig. 3 is a schematic axial structural view of the first protection box of the present invention.

Fig. 4 is an enlarged schematic view of the structure of fig. 3 according to the present invention.

Fig. 5 is a schematic sectional view of the first spare rack of the present invention.

Fig. 6 is a schematic sectional structure view of the second protection box of the present invention.

Fig. 7 is an enlarged schematic view of the structure of fig. 6B according to the present invention.

Fig. 8 is a schematic sectional view of a second spare rack of the present invention.

List of reference numerals

1. A first protective case; 101. a first joint; 102. a data plug; 103. a first sliding groove; 104. a first extension spring; 105. a first limit bracket; 106. a first pressing frame; 107. a first lower limiting block; 108. a first upper limiting block; 109. a first mounting groove; 110. a first fixed block; 111. a first dust-proof door; 112. a first clamping block; 113. a second fixture block; 114. a first return spring; 115. a cable body; 116. a first standby rack; 117. a first standby chute; 118. a first clamping spring; 119. a first clamping frame; 120. a spare cable; 121. a second joint; 122. a second protection box; 123. a second sliding groove; 124. a second extension spring; 125. a second limiting frame; 126. a second pressing frame; 127. a second lower limit block; 128. a second upper limit block; 129. a second mounting groove; 130. a second fixed block; 131. a second dust-proof door; 132. a third fixture block; 133. a fourth fixture block; 134. a second return spring; 135. a second standby rack; 136. a second standby chute; 137. a second clamping spring; 138. a second clamping frame; 139. a USB plug.

Detailed Description

In order to make the purpose, solution and advantages of the technical solution of the present invention clearer, the drawings of the specific embodiments of the present invention will be combined hereinafter to clearly and completely describe the technical solution of the embodiments of the present invention. Unless otherwise indicated, terms used herein have the ordinary meaning in the art. Like reference symbols in the various drawings indicate like elements.

Example (b): please refer to fig. 1 to 8:

the utility model provides a high-efficient camera cable of carrying with reserve line, include: a first protective case 1;

a first joint 101 is connected in the first protection box 1 in a sliding manner; a data plug 102 is fixedly connected to the left end surface of the first connector 101 in the middle; the right end face of the data plug 102 is fixedly connected with a cable body 115 in the middle; a first standby rack 116 is fixedly connected to the right end face of the first protection box 1; the cable body 115 is slidably connected in the first standby rack 116; a second joint 121 is fixedly connected to the right end face of the cable body 115; a USB plug 139 is fixedly connected to the right end surface of the second connector 121 in the middle; a second protection box 122 is connected to the outer wall of the second joint 121 in a sliding manner; a second spare rack 135 is fixedly connected to the left end face of the second protection box 122; cable body 115 is slidably connected within second slack box 135.

In addition, according to the embodiment of the present invention, as shown in fig. 2, a first sliding groove 103 is formed in the middle of each of the front end surface of the first joint 101 and the rear end surface of the first joint 101; a group of first expansion springs 104 are fixedly connected in the two first sliding grooves 103 respectively; each group of the first extension springs 104 is three first extension springs 104; the front end surfaces of the two groups of first telescopic springs 104 and the rear end surfaces of the two groups of first telescopic springs 104 are respectively and fixedly connected with a first limiting frame 105; the two first limiting frames 105 are respectively connected in the first sliding grooves 103 in a sliding mode, so that the first limiting frames 105 slide in the first sliding grooves 103 by pressing the first limiting frames 105, the first telescopic springs 104 can be extruded in the sliding process of the first limiting frames 105, and the first limiting frames 105 reset along with the resilience of the first telescopic springs 104 after the first limiting frames 105 are loosened.

In addition, according to the embodiment of the present invention, as shown in fig. 1 and fig. 2, the front end surfaces of the two first limiting frames 105 and the rear end surfaces of the two first limiting frames 105 are respectively and fixedly connected with a first pressing frame 106; the front end face of the first protection box 1 and the rear end face of the first protection box 1 are respectively provided with a guide sliding chute; the two first pressing frames 106 are respectively slidably connected in the two guide sliding grooves, so that the first pressing frame 106 slides in the guide sliding grooves to drive the first limiting frame 105 to move in the first protection box 1, and meanwhile, the first pressing frame 106 can extrude the first limiting frame 105 by pressing the first pressing frame 106, so that the first limiting frame 105 slides in the first sliding groove 103.

In addition, according to the embodiment of the present invention, as shown in fig. 2 and fig. 3, four first lower limiting blocks 107 are fixedly connected to the bottom end surface of the inner wall of the first protecting box 1 in a rectangular array; the top end surface of the inner wall of the first protection box 1 is in a rectangular array shape and is fixedly connected with four first upper limiting blocks 108; the first upper limit block 108 is aligned with the first lower limit block 107, so that the first limit frame 105 can be limited by the first lower limit block 107 and the first upper limit block 108, when the first pressing frame 106 is pressed to slide the first limit frame 105 in the first sliding groove 103 for 5mm, the first limit frame 105 is separated from the limit of the front first lower limit block 107 and the front first upper limit block 108, at this time, the first pressing frame 106 is pulled to drive the first limit frame 105 to move in the first protection box 1, when the first limit frame 105 moves in the first protection box 1 for 15mm, the first pressing frame 106 is released to reset the first limit frame 105 along with the resilience of the first expansion spring 104, at this time, the rear first lower limit block 107 and the rear first upper limit block 108 limit the first limit frame 105, and at this time, the first connector 101 and the data plug 102 are completely accommodated in the first protection box 1.

In addition, according to the embodiment of the present invention, as shown in fig. 2, the first mounting groove 109 is opened on the left portion of the top end surface of the first protection box 1; two first fixing blocks 110 are symmetrically and fixedly connected to the bottom end surface of the first mounting groove 109; two first fixed blocks 110 outer walls go up to rotate and are connected with first dustproof door 111 to can seal first protection box 1 down to the left turn with first dustproof door 111 after first joint 101 and data plug 102 are accomodate in first protection box 1 completely, prevent that the in-process dust of placing for a long time from causing the damage to data plug 102 in getting into the data plug 102 in first protection box 1, influence follow-up data plug 102's use.

In addition, according to the embodiment of the present invention, as shown in fig. 3 and 4, a first auxiliary chute is opened in the middle of the right end surface of the first mounting groove 109; a first clamping block 112 is fixedly connected in the middle of the right end face of the first dustproof door 111; the front end surface of the first auxiliary sliding groove and the rear end surface of the first auxiliary sliding groove are respectively provided with a first limiting sliding groove; a first limiting sliding block is respectively connected in the two first limiting sliding grooves in a sliding manner; a second clamping block 113 is fixedly connected between the two first limiting sliding blocks; the first fixture block 112 is clamped on the second fixture block 113; two first reset springs 114 are fixedly connected to the bottom end face of second fixture block 113, so that first dust-proof door 111 can be fixed through the cooperation of first fixture block 112 and second fixture block 113, and the influence of the rotation of first dust-proof door 111 on the contact between data plug 102 and the camera and the use of the cable is avoided in the use process of the cable.

In addition, according to the embodiment of the present invention, as shown in fig. 6, a second sliding groove 123 is formed in the middle of each of the front end surface of the second joint 121 and the rear end surface of the second joint 121; a group of second expansion springs 124 are fixedly connected in the two second sliding grooves 123 respectively; each group of the second extension springs 124 is three second extension springs 124; the front end surfaces of the two groups of second expansion springs 124 and the rear end surfaces of the two groups of second expansion springs 124 are respectively and fixedly connected with a second limiting frame 125; the two second position-limiting brackets 125 are respectively slidably connected in the second sliding grooves 123, so that the second position-limiting brackets 125 slide in the second sliding grooves 123 by pressing the second position-limiting brackets 125, the second expansion springs 124 are extruded in the sliding process of the second position-limiting brackets 125, and the second position-limiting brackets 125 are reset along with the rebound of the second expansion springs 124 after the second position-limiting brackets 125.

In addition, according to the embodiment of the present invention, as shown in fig. 1 and fig. 6, the front end surfaces of the two second limiting frames 125 and the rear end surfaces of the two second limiting frames 125 are respectively and fixedly connected with a second pressing frame 126; a guide chute is respectively arranged on the front end face of the second protection box 122 and the rear end face of the second protection box 122; the two second pressing frames 126 are respectively slidably connected in the two guide sliding grooves, so that the second pressing frame 126 slides in the guide sliding grooves to drive the second limiting frame 125 to move in the second protection box 122, and meanwhile, the second pressing frame 126 can extrude the second limiting frame 125 by pressing the second pressing frame 126, so that the second limiting frame 125 slides in the second sliding groove 123.

In addition, according to the embodiment of the present invention, as shown in fig. 6, four second lower limiting blocks 127 are fixedly connected to the bottom end surface of the inner wall of the second protection box 122 in a rectangular array; the top end surface of the inner wall of the second protection box 122 is in a rectangular array shape and is fixedly connected with four second upper limiting blocks 128; the second upper limit block 128 is aligned with the second lower limit block 127, so that the second limit frame 125 can be limited by the second lower limit block 127 and the second upper limit block 128, when the second pressing frame 126 is pressed to slide the second limit frame 125 in the second sliding groove 123 for 5mm, the second limit frame 125 is separated from the limitation of the front second lower limit block 127 and the front second upper limit block 128, at this time, the second pressing frame 126 is pulled to drive the second limit frame 125 to move in the second protection box 122, when the second limit frame 125 moves in the second protection box 122 for 15mm, the second pressing frame 126 is released to allow the second limit frame 125 to reset along with the resilience of the second expansion spring 124, at this time, the rear second lower limit block 127 and the rear second upper limit block 128 limit the second limit frame 125, at this time, the second connector 121 and the USB plug 139 are completely received in the second protection box 122.

In addition, according to the embodiment of the present invention, as shown in fig. 6, a second mounting groove 129 is opened at the right portion of the top end surface of the second protection box 122; two second fixing blocks 130 are symmetrically and fixedly connected to the bottom end surface of the second mounting groove 129; the outer walls of the two second fixing blocks 130 are rotatably connected with second dustproof doors 131, so that the second dustproof doors 131 can be turned right to seal the second protection box 122 after the second connectors 121 and the USB plugs 139 are completely accommodated in the second protection box 122, and the phenomenon that dust in the long-time placing process enters the USB plugs 139 in the second protection box 122 to damage the USB plugs 139 and influence the use of the subsequent USB plugs 139 is avoided.

In addition, according to the embodiment of the present invention, as shown in fig. 6 and 7, a second auxiliary chute is opened in the middle of the left end surface of the second mounting groove 129; a third clamping block 132 is fixedly connected in the middle of the left end surface of the second dustproof door 131; the front end surface of the second auxiliary sliding groove and the rear end surface of the second auxiliary sliding groove are respectively provided with a second limiting sliding groove; a second limiting sliding block is respectively connected in the two second limiting sliding grooves in a sliding manner; a fourth clamping block 133 is fixedly connected between the two second limiting sliding blocks; the third latch 132 is clamped on the fourth latch 133; two second return springs 134 are fixedly connected to the bottom end face of the fourth fixture block 133, so that the second dust-proof door 131 can be fixed through the cooperation of the third fixture block 132 and the fourth fixture block 133, and the influence of the rotation of the second dust-proof door 131 on the contact of the USB plug 139 and the use of the cable during the use of the cable is avoided.

Furthermore, according to the embodiment of the present invention, as shown in fig. 5 and 8, a spare cable 120 is slidably connected to a lower portion of the first spare rack 116; the material of the spare cable 120 is equal to that of the cable body 115; the end of the standby cable 120 is slidably connected within the lower portion of the second standby rack 135; a first standby chute 117 is formed in the lower part of the first standby frame 116; two groups of first clamping springs 118 are symmetrically and fixedly connected in the first standby chute 117; each set of the first clamping springs 118 is two first clamping springs 118; the tail ends of the two groups of first clamping springs 118 are fixedly connected with a first clamping frame 119; the inner walls of both first clamping brackets 119 are in contact with the outer wall of the spare cable 120; a second standby chute 136 is formed in the lower part of the second standby frame 135; two groups of second clamping springs 137 are symmetrically and fixedly connected in the second standby chute 136; each set of the second clamping springs 137 is two second clamping springs 137; the tail ends of the two groups of second clamping springs 137 are fixedly connected with a second clamping frame 138; the inner walls of the two second clamping frames 138 are in contact with the outer wall of the spare cable 120, so that the first clamping frame 119 and the second clamping frame 138 can fix the spare cable 120 between the first spare frame 116 and the second spare frame 135 through the support of the first clamping frame 119 by the first clamping spring 118 and the support of the second clamping frame 138 by the second clamping spring 137, and therefore when the cable body 115 is damaged, a worker can quickly take the spare cable 120 out of the first clamping frame 119 and the second clamping frame 138 and replace the cable body 115, and the practicability of the cable is improved.

The specific use mode and function of the embodiment are as follows:

the utility model discloses can press second pressing frame 126 when not needing to use the cable and make second spacing frame 125 slide 5mm in second sliding groove 123, second spacing frame 125 will break away from the spacing of front portion second lower stop 127 and front portion second upper stop 128, at this moment, pull second pressing frame 126 and can drive second spacing frame 125 and move in second protection box 122, second spacing frame 125 moves 15mm in second protection box 122 and unclamp second pressing frame 126, make second spacing frame 125 reset along with the resilience of second expanding spring 124, at this moment rear portion second lower stop 127 and rear portion second upper stop 128 will carry out spacing to second spacing frame 125, second connector 121 and USB plug 139 are fully accomodate in first protection box 1, at this moment, fourth fixture 133 makes fourth fixture 133 slide in the second spacing spout, in the sliding process of fourth fixture 133 loses fourth fixture 132, the fourth fixture 133 can make the front portion first dust-proof plug 105 slide in first protection box 105 and move the first dust-proof plug 105, the first dust-proof plug 105 can be prevented from moving in first protection box 105 and first dust-proof plug 105, then the first dust-proof plug 105 will be moved in first dust-proof box 105, first dust-proof box 105 will be moved in the first dust-proof box 105, the first dust-proof box 105 will be moved for a long time, the first dust-proof protection box 105 will be moved in the first dust-proof box 105, then the first dust-proof plug 105 will be moved in the first dust-proof box 105 will be moved for the first dust-proof box 105, the first dust-proof box 105 will be moved for the first dust-proof box 105, then the first dust-proof box 105 will be moved for the first dust-proof box 105, the first dust-proof box 105 will be moved for a long time, at this time, the first connector 101 and the data plug 102 are completely accommodated in the first protection box 1, at this time, the second latch 113 is pressed down to slide the second latch 113 in the first limiting chute, the first latch 112 loses the limitation of the second latch 113 in the sliding process of the second latch 113, at this time, the first dust-proof door 111 can be turned down to the left to seal the first protection box 1, so that dust is prevented from entering the data plug 102 in the first protection box 1 to damage the data plug 102 in the long-time placement process, and the subsequent use of the data plug 102 is prevented from being influenced, when the cable body 115 is damaged, a worker can quickly take down the spare cable 120 from the first clamping frame 119 and the second clamping frame 138 and replace the cable body 115, and the practicability of the cable is improved.

Finally, it should be noted that the present invention is generally illustrated by one/a pair of components when describing the position of each component and the matching relationship therebetween, however, it should be understood by those skilled in the art that such position, matching relationship, etc. are also applicable to other components/other pairs of components.

The above description is intended to be exemplary of the present invention, and not to limit the scope of the present invention, which is defined by the claims appended hereto.

Claims (12)

1. An efficient transport camera cable with reserve line, comprising: a first protective case (1); a first joint (101) is connected in the first protection box (1) in a sliding manner; the left end face of the first joint (101) is fixedly connected with a data plug (102) in the middle; the right end face of the data plug (102) is fixedly connected with a cable body (115) in the middle; the right end face of the first protection box (1) is fixedly connected with a first standby rack (116); the cable body (115) is slidably connected in a first standby rack (116); the right end face of the cable body (115) is fixedly connected with a second connector (121); a USB plug (139) is fixedly connected to the right end face of the second joint (121) in the middle; a second protection box (122) is connected to the outer wall of the second joint (121) in a sliding manner; the left end face of the second protection box (122) is fixedly connected with a second standby rack (135); the cable body (115) is slidably connected within a second slack rack (135).

2. A high efficiency transport camera cable with reserve line as defined in claim 1 wherein: a first sliding groove (103) is formed in the middle of the front end face of the first joint (101) and the rear end face of the first joint (101); a group of first expansion springs (104) are fixedly connected in the two first sliding grooves (103) respectively; each group of the first telescopic springs (104) is provided with three first telescopic springs (104); the front end surfaces of the two groups of first telescopic springs (104) and the rear end surfaces of the two groups of first telescopic springs (104) are respectively and fixedly connected with a first limiting frame (105); the two first limiting frames (105) are respectively connected in the first sliding grooves (103) in a sliding mode.

3. A high efficiency transport camera cable with reserve line as defined in claim 2 wherein: the front end surfaces of the two first limiting frames (105) and the rear end surfaces of the two first limiting frames (105) are respectively fixedly connected with a first pressing frame (106); the front end face of the first protection box (1) and the rear end face of the first protection box (1) are respectively provided with a guide sliding chute; the two first pressing frames (106) are respectively connected in the two guide sliding chutes in a sliding manner.

4. A high efficiency transport camera cable with reserve line as defined in claim 1 wherein: the bottom end surface of the inner wall of the first protection box (1) is in a rectangular array shape and is fixedly connected with four first lower limiting blocks (107); the top end surface of the inner wall of the first protection box (1) is in a rectangular array shape and is fixedly connected with four first upper limiting blocks (108); the first upper limiting block (108) is aligned with the first lower limiting block (107).

5. A high efficiency transport camera cable with reserve line as defined in claim 1 wherein: a first mounting groove (109) is formed in the left part of the top end face of the first protection box (1); two first fixing blocks (110) are symmetrically and fixedly connected to the bottom end surface of the first mounting groove (109); the outer walls of the two first fixing blocks (110) are rotatably connected with first dustproof doors (111).

6. A high efficiency conveyor camera cable with reserve line as defined in claim 5 wherein: a first auxiliary sliding groove is formed in the middle of the right end face of the first mounting groove (109); a first clamping block (112) is fixedly connected in the middle of the right end face of the first dustproof door (111); the front end surface of the first auxiliary sliding groove and the rear end surface of the first auxiliary sliding groove are respectively provided with a first limiting sliding groove; a first limiting sliding block is respectively connected in the two first limiting sliding grooves in a sliding manner; a second clamping block (113) is fixedly connected between the two first limiting sliding blocks; the first clamping block (112) is clamped on the second clamping block (113); two first return springs (114) are fixedly connected to the bottom end face of the second fixture block (113).

7. A high efficiency transport camera cable with reserve line as defined in claim 1 wherein: a second sliding groove (123) is formed in the middle of the front end face of the second joint (121) and the rear end face of the second joint (121); a group of second expansion springs (124) are fixedly connected in the two second sliding grooves (123) respectively; each group of the second expansion springs (124) is three second expansion springs (124); the front end surfaces of the two groups of second telescopic springs (124) and the rear end surfaces of the two groups of second telescopic springs (124) are respectively and fixedly connected with a second limiting frame (125); the two second limiting frames (125) are respectively connected in the second sliding grooves (123) in a sliding mode.

8. A high efficiency transport camera cable with reserve line as defined in claim 7 wherein: the front end surfaces of the two second limiting frames (125) and the rear end surfaces of the two second limiting frames (125) are respectively and fixedly connected with a second pressing frame (126); the front end face of the second protection box (122) and the rear end face of the second protection box (122) are respectively provided with a guide sliding chute; the two second pressing frames (126) are respectively connected in the two guide sliding chutes in a sliding way.

9. A high efficiency transport camera cable with reserve line as defined in claim 1 wherein: the bottom end surface of the inner wall of the second protection box (122) is in a rectangular array shape and is fixedly connected with four second lower limiting blocks (127); the top end surface of the inner wall of the second protection box (122) is in a rectangular array shape and is fixedly connected with four second upper limiting blocks (128); the second upper limit block (128) is aligned with the second lower limit block (127).

10. A high efficiency transport camera cable with reserve line as defined in claim 1 wherein: a second mounting groove (129) is formed in the right part of the top end face of the second protection box (122); two second fixing blocks (130) are symmetrically and fixedly connected to the bottom end face of the second mounting groove (129); and the outer walls of the two second fixed blocks (130) are rotatably connected with second dustproof doors (131).

11. A high efficiency conveyor camera cable with reserve line as in claim 10 wherein: a second auxiliary sliding groove is formed in the middle of the left end face of the second mounting groove (129); the middle of the left end surface of the second dustproof door (131) is fixedly connected with a third clamping block (132); the front end surface of the second auxiliary sliding groove and the rear end surface of the second auxiliary sliding groove are respectively provided with a second limiting sliding groove; a second limiting sliding block is respectively connected in the two second limiting sliding grooves in a sliding manner; a fourth clamping block (133) is fixedly connected between the two second limiting sliding blocks; the third clamping block (132) is clamped on the fourth clamping block (133); the bottom end surface of the fourth clamping block (133) is fixedly connected with two second return springs (134).

12. A high efficiency transport camera cable with reserve line as defined in claim 1 wherein: a spare cable (120) is connected to the lower part of the first spare rack (116) in a sliding manner; the material of the spare cable (120) is equal to that of the cable body (115); the tail end of the standby cable (120) is connected in the lower part of the second standby rack (135) in a sliding way; a first standby chute (117) is formed in the lower part of the first standby rack (116); two groups of first clamping springs (118) are symmetrically and fixedly connected in the first standby sliding groove (117); each group of the first clamping springs (118) is two first clamping springs (118); the tail ends of the two groups of first clamping springs (118) are fixedly connected with a first clamping frame (119); the inner walls of the two first clamping frames (119) are in contact with the outer wall of the spare cable (120); a second standby chute (136) is formed in the lower part of the second standby rack (135); two groups of second clamping springs (137) are symmetrically and fixedly connected in the second standby sliding groove (136); each group of the second clamping springs (137) is provided with two second clamping springs (137); the tail ends of the two groups of second clamping springs (137) are fixedly connected with a second clamping frame (138); the inner walls of the two second clamping brackets (138) are both in contact with the outer wall of the spare cable (120).

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