CN114057040A - Supplementary storage disc of exploration cable shaft - Google Patents

Abstract

The invention discloses an auxiliary storage disc for a detection cable well, which comprises a base, a connecting shaft, movable rings, winding rollers and a driving piece, wherein the connecting shaft is rotatably connected to the inner side of the base; and the adjusting component is arranged on the movable ring and comprises a lead piece, a guide piece, a transmission piece and an adjusting piece, wherein the lead piece is fixed on the side surface of the movable ring, and the guide piece is fixed between the two movable rings. According to the invention, the cable is wound and unwound through the storage disc assembly, and then the winding position of the cable is adjusted through the adjusting assembly during winding, so that the cable can be stored more orderly, the unwinding direction can be adjusted, workers can conveniently carry out vertical or horizontal threading, and the detection efficiency is further improved.

Description

Supplementary storage disc of exploration cable shaft

Technical Field

The invention relates to the technical field of cable storage trays, in particular to an auxiliary storage tray for a detection cable well.

Background

The cable shaft is that high-rise building is used for walking supply cable or communication cable's vertical channel perpendicularly, similar with elevator shaft, forceful electric power and light current are generally separately laid, municipal administration cable shaft cable is mixed and disorderly, ponding is more, and well depth narrow is easily multiplied toxic gas, in power cable's daily maintenance and the construction process of patrolling, prior art generally need set up the ladder and dress protective device and go into the well, distinguish and the fault point is seeked to the cable, consume a large amount of manpowers and time, and the containing wheel device of cable does not possess direction and adjustment mechanism, the staff need use bigger strength just can deliver to the well with the cable when using, and take place the circumstances such as loose or disorder of cable easily when using, influence work efficiency.

Disclosure of Invention

This section is for the purpose of summarizing some aspects of embodiments of the invention and to briefly introduce some preferred embodiments. In this section, as well as in the abstract and the title of the invention of this application, simplifications or omissions may be made to avoid obscuring the purpose of the section, the abstract and the title, and such simplifications or omissions are not intended to limit the scope of the invention.

The present invention has been made in view of the above and/or other problems occurring in the conventional auxiliary receiving tray for a exploration cable shaft.

Therefore, the invention aims to solve the problems that in the prior art, a ladder is generally required to be erected, protective tools are worn to be put into a well, cables are distinguished and fault points are searched, a large amount of labor and time are consumed, a cable storage wheel device is not provided with a guiding and adjusting mechanism, a worker needs to use larger strength to send the cables into the well when using the cable storage wheel device, the situation that the cables are loosened or disordered easily occurs when using the cable storage wheel device, and the working efficiency is affected.

In order to solve the technical problems, the invention provides the following technical scheme: the auxiliary storage disc for the detection cable well comprises a storage disc assembly, a plurality of auxiliary storage discs and a plurality of auxiliary storage discs, wherein the storage disc assembly comprises a base, a connecting shaft, movable rings, a winding roller and a driving piece, the connecting shaft is rotatably connected to the inner side of the base, the movable rings are located on the inner side of the base and are rotatably connected to two sides of the connecting shaft, and the winding roller is fixed on the connecting shaft and is located between the two movable rings; and the adjusting component is arranged on the movable ring and comprises a lead element, a guide element, a transmission element and an adjusting element, wherein the lead element is fixed on the side surface of the movable ring, the guide element is fixed between the movable rings, the transmission element is arranged on the side surface of the lead element, and the adjusting element is arranged on the base.

As a preferable scheme of the auxiliary storage tray for the exploration cable shaft of the invention, wherein: the driving piece comprises a driving motor and a fixing shaft, the driving motor is fixed on the side face of the base, the fixing shaft is fixed with the output end of the driving motor, and the other end of the fixing shaft is fixed with the connecting shaft.

As a preferable scheme of the auxiliary storage tray for the exploration cable shaft of the invention, wherein: the driving piece further comprises an installation block fixed at the bottom of the driving motor, and the other side of the installation block is fixed with the base.

As a preferable scheme of the auxiliary storage tray for the exploration cable shaft of the invention, wherein: the lead wire part includes fixed block, pivot, spiral roller, slider and lead wire ring, the fixed block is fixed in activity ring side, the pivot is rotated and is connected in two between the fixed block, the spiral roller is fixed in the pivot surface, the slider slide in the spiral roller, the lead wire ring with the slider top is fixed.

As a preferable scheme of the auxiliary storage tray for the exploration cable shaft of the invention, wherein: the lead wire part further comprises limiting plates and limiting blocks, the limiting plates are fixed between the two fixing blocks and located above the spiral roller, rectangular grooves are formed in the limiting plates, the sliding blocks slide in the rectangular grooves, and the limiting blocks are fixed on the side faces of the sliding blocks and are in contact with the tops and the bottoms of the limiting plates.

As a preferable scheme of the auxiliary storage tray for the exploration cable shaft of the invention, wherein: the guide piece comprises installation rods and guide rings, the installation rods are arranged on two sides of each guide ring, one end of each installation rod is fixed to the corresponding movable ring, and the guide rings are rotatably connected between the two installation rods.

As a preferable scheme of the auxiliary storage tray for the exploration cable shaft of the invention, wherein: the driving medium includes the action wheel, follows driving wheel and belt, the action wheel is fixed in on the connecting axle, and be located driving motor with between the base, follow the driving wheel with pivot one end is fixed, the action wheel with connect through belt transmission from between the driving wheel.

As a preferable scheme of the auxiliary storage tray for the exploration cable shaft of the invention, wherein: the adjusting part comprises a movable plate, an inserting block, an electromagnet and a fixed plate, a through hole is formed in the base, the movable plate slides in the through hole, the inserting block is fixed on the inner side of the movable plate, slots which are uniformly distributed are formed in the side face of the movable ring, the inserting block is matched with the slots, the fixed plate is installed on the base, and the electromagnet is fixed on one side, opposite to the movable plate and the fixed plate.

As a preferable scheme of the auxiliary storage tray for the exploration cable shaft of the invention, wherein: the adjusting part further comprises a guide rod and a reset spring, one end of the guide rod is fixed with the movable plate, a guide groove is formed in the fixed plate, the guide rod slides in the guide groove, the reset spring is located on the outer side of the guide rod, and two ends of the reset spring are fixed with the movable plate and the fixed plate respectively.

As a preferable scheme of the auxiliary storage tray for the exploration cable shaft of the invention, wherein: the storage disc assembly further comprises a traction wire, a camera and a guide wheel, the traction wire is sleeved at the end of the cable, the camera is fixed at one end of the traction wire, and the guide wheel is fixed on the surface of the traction wire.

The invention has the beneficial effects that: according to the invention, the cable is wound and unwound through the storage disc assembly, and then the winding position of the cable is adjusted through the adjusting assembly during winding, so that the cable can be stored more orderly, the unwinding direction can be adjusted, workers can conveniently carry out vertical or horizontal threading, and the detection efficiency is further improved.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise. Wherein:

fig. 1 is an overall structure view of an auxiliary storage tray for a exploration cable shaft.

Fig. 2 is a sectional view showing the overall structure of the auxiliary storage tray for a exploration cable shaft.

FIG. 3 is a connection structure diagram of the lead wire member and the transmission member of the auxiliary receiving tray for the exploration cable shaft.

Fig. 4 is another perspective view of the lead wire of the auxiliary take-up reel for a exploration cable well.

Fig. 5 is a view showing a guide member of the auxiliary receiving tray for the exploration cable shaft.

Fig. 6 is a sectional view of an adjusting member of the auxiliary receiving tray for the exploration cable shaft.

Fig. 7 is another view of the fixing plate of the auxiliary receiving tray for the exploration cable shaft.

Fig. 8 is a drawing line and cable connection structure diagram of the auxiliary receiving disc of the exploration cable shaft.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, but the present invention may be practiced in other ways than those specifically described and will be readily apparent to those of ordinary skill in the art without departing from the spirit of the present invention, and therefore the present invention is not limited to the specific embodiments disclosed below.

Furthermore, reference herein to "one embodiment" or "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one implementation of the invention. The appearances of the phrase "in one embodiment" in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.

Example 1

Referring to fig. 1 and 2, a first embodiment of the invention provides an auxiliary storage tray for a detection cable well, which includes a storage tray assembly 100 and an adjusting assembly 200, wherein the storage tray assembly 100 is used for storing a cable, and the adjusting assembly 200 is used for facilitating the cable retraction operation of a worker, thereby further improving the detection efficiency.

Specifically, the storage tray assembly 100 includes a base 101, a connecting shaft 102, a movable ring 103, a winding roller 104 and a driving member 105, wherein the connecting shaft 102 is rotatably connected to the inner side of the base 101, the movable ring 103 is located on the inner side of the base 101 and rotatably connected to two sides of the connecting shaft 102, and the winding roller 104 is fixed on the connecting shaft 102 and located between the two movable rings 103.

The base 101 is U-shaped, the connecting shaft 102 and the movable rings 103 are both arranged in a U-shaped groove, and two movable rings 103 are symmetrically distributed on two sides of the groove; the winding roller 104 is located between the two movable rings 103 and is fixedly connected with the connecting shaft 102, and when the connecting shaft 102 rotates, the winding roller 104 can rotate along with the connecting shaft, so that the wire winding and unwinding operation is performed.

The adjusting assembly 200 is arranged on the movable rings 103 and comprises a lead wire 201, a guide member 202, a transmission member 203 and an adjusting member 204, wherein the lead wire 201 is fixed on the side surface of the movable rings 103, the guide member 202 is fixed between the two movable rings 103, the transmission member 203 is arranged on the side surface of the lead wire 201, and the adjusting member 204 is arranged on the base 101.

The cable is pulled by the lead wire part 201, so that the cable can be wound on the winding roller 104 more regularly and flatly, and the cable can be guided by the guide part 202, so that the cable is more convenient and neat when being inserted into a cable well by a worker; through the arrangement of the transmission piece 203, when the driving piece 105 drives the winding roller 104 to perform winding and direction operation, the lead piece 201 can synchronously move back and forth left and right to drag the cable, so that the cable is more neat, an additional power source is not needed, and the operation cost is lower; can adjust the position of guide 202 through regulating part 204, make things convenient for the staff when the traction cable, switch in vertical direction and horizontal direction, it is more convenient to unwrapp wire, and has avoided cable transmission winding phenomenon etc. in the receipts and releases the line in-process.

Example 2

Referring to fig. 2 to 4, a second embodiment of the present invention is based on the above embodiment.

Specifically, the driving member 105 includes a driving motor 105a and a fixing shaft 105b, the driving motor 105a is fixed on the side surface of the base 101, the fixing shaft 105b is fixed to the output end of the driving motor 105a, and the other end is fixed to the connecting shaft 102.

The driving motor 105a is a servo motor and can rotate forward and backward, so that the operation switching of cable winding and unwinding is more convenient.

The driving member 105 further includes a mounting block 105c fixed to the bottom of the driving motor 105a, and the other side of the mounting block 105c is fixed to the base 101.

The mounting block 105c is used to fix and limit the position of the driving motor 105a, preventing it from loosening or falling off during use.

The lead wire member 201 includes a fixed block 201a, a rotating shaft 201b, a spiral roller 201c, a sliding block 201d and a lead wire loop 201e, the fixed block 201a is fixed on the side of the movable ring 103, the rotating shaft 201b is rotatably connected between the two fixed blocks 201a, the spiral roller 201c is fixed on the surface of the rotating shaft 201b, the sliding block 201d slides in the spiral roller 201c, and the lead wire loop 201e is fixed with the top end of the sliding block 201 d.

The fixed block 201a is rectangular and fixed on the movable ring 103 and used for fixing a rotating shaft 201b and a spiral roller 201c, the rotating shaft 201b is rotatably connected with the fixed block 201a, the spiral roller 201c is fixed on the surface of the rotating shaft 201b, and when the rotating shaft 201b rotates, the spiral roller 201c can rotate along with the rotating shaft 201 b; two opposite directions's helicla flute are seted up on spiral roller 201c surface, and when spiral roller 201c rotated, slider 201d can be at this helicla flute internal round trip movement, and the cable passed lead ring 201e this moment, and slider 201d when the horizontal slip, can drive the cable in the lead ring 201e and remove about, and then made the receiving and releasing of cable more neat.

The lead wire part 201 further comprises a limiting plate 201f and a limiting block 201g, the limiting plate 201f is fixed between the two fixing blocks 201a and located above the spiral roller 201c, a rectangular groove K is formed in the limiting plate 201f, the sliding block 201d slides in the rectangular groove K, and the limiting block 201g is fixed on the side face of the sliding block 201d and contacts with the top and the bottom of the limiting plate 201 f.

The limiting plate 201f is rectangular, the rectangular groove K is used for limiting the sliding block 201d to prevent the sliding block 201d from shifting in the process of moving left and right, and meanwhile the limiting block 201g is used for further limiting the sliding block to improve the moving stability of the sliding block; wherein, the limiting blocks 201g are distributed at the top and the bottom of the limiting plate 201f, and the width of the limiting blocks is larger than that of the rectangular groove K.

Example 3

Referring to FIGS. 3-8, a third embodiment of the present invention is based on the first two embodiments.

Specifically, the guide 202 includes a mounting rod 202a and a guide ring 202b, the mounting rod 202a is disposed on two sides of the guide ring 202b, and one end of the mounting rod 202a is fixed to the movable ring 103, and the guide ring 202b is rotatably connected between the two mounting rods 202 a.

The mounting rods 202a are distributed on two sides of the guide ring 202b, one ends of the mounting rods 202a opposite to each other are rotatably connected with a convex block, and one end of the convex block is fixed with the guide ring 202b, so that the guide ring 202b can rotate freely in the using process; the guide ring 202b is tubular, and one end of the cable passes through the guide ring 202b for guiding and limiting, so that the cable is conveniently guided into a cable well by a worker, and the cable is prevented from being wound.

The transmission member 203 comprises a driving wheel 203a, a driven wheel 203b and a belt 203c, the driving wheel 203a is fixed on the connecting shaft 102 and is positioned between the driving motor 105a and the base 101, the driven wheel 203b is fixed with one end of the rotating shaft 201b, and the driving wheel 203a is in transmission connection with the driven wheel 203b through the belt 203 c.

The driving wheel 203a is fixed with the connecting shaft 102, when the driving motor 105a drives the connecting shaft 102 to rotate, the driving wheel 203a rotates along with the connecting shaft, and then the driving wheel 203a and the belt 203c drive the driven wheel 203b to rotate, so that the driven wheel 203b drives the rotating shaft 201b and the spiral roller 201c to rotate.

The adjusting member 204 includes a movable plate 204a, an insertion block 204b, an electromagnet 204c and a fixed plate 204d, a through hole S is formed in the base 101, the movable plate 204a slides in the through hole S, the insertion block 204b is fixed on the inner side of the movable plate 204a, slots M are uniformly distributed on the side surface of the movable ring 103, the insertion block 204b is matched with the slots M, the fixed plate 204d is mounted on the base 101, and the electromagnet 204c is fixed on the opposite side of the movable plate 204a and the fixed plate 204 d.

The through hole S is rectangular, the movable plate 204a can move in the through hole S, when the movable ring 103 needs to be rotated to adjust the position of the guide ring 202b, the electromagnet 204c is charged, the movable plate 204a is pulled towards the fixed plate 204d through attraction between the two electromagnets 204c, so that the insert block 204b is separated from the slot M, the movable ring 103 is manually rotated at the moment, when the movable ring is rotated to a specified position, the electromagnet 204c is powered off, the insert block 204b is correspondingly inserted into the slot M, and at the moment, the movable ring 103 is limited through the insert block 204b and the slot M, so that the movable ring 103 is prevented from rotating in the using process, and the operation of taking and releasing wires of workers is influenced.

The adjusting member 204 further includes a guide rod 204e and a return spring 204f, one end of the guide rod 204e is fixed to the movable plate 204a, the fixed plate 204d is provided with a guide groove N, the guide rod 204e slides in the guide groove N, the return spring 204f is located outside the guide rod 204e, and two ends of the return spring are respectively fixed to the movable plate 204a and the fixed plate 204 d.

The guide rod 204e and the guide groove N are used for guiding and limiting the movable plate 204a, so that the movable plate is prevented from being cheap and the like in the process of moving left and right; the return spring 204f is used to push the movable plate 204a, and when the electromagnet 204c is powered off, the return spring 204f pushes the movable plate 204a to move inward, so that the plug 204b can be more stably plugged into the slot M.

The storage tray assembly 100 further comprises a traction wire 106, a camera 107 and a guide wheel 108, wherein the traction wire 106 is sleeved at the end of the cable, the camera 107 is fixed at one end of the traction wire 106, and the guide wheel 108 is fixed on the surface of the traction wire 106.

The external display of camera 107, pull wire 106 are fixed in the one end of cable, and when penetrating the cable shaft with the cable, the condition in the well can be observed in real time to camera 107, need not artifical well descending, and leading wheel 108 plays the guide effect simultaneously, prevents that influence camera 107 such as stone or arch from advancing in the well.

When the device is used, the device is placed at a designated position beside a cable well, then the positions of the movable ring 103 and the guide ring 202b are adjusted according to the angle of a cable inserted into the cable well, when the adjustment is needed, the electromagnet 204c is charged, the movable plate 204a is pulled towards the direction of the fixed plate 204d through the attraction force between the two electromagnets 204c, so that the inserting block 204b is separated from the slot M, at the moment, the movable ring 103 is manually rotated, when the electromagnet 204c is turned to the designated position, the electromagnet 204c is powered off, then the inserting block 204b is correspondingly inserted into the slot M, at the moment, the movable ring 103 is limited through the inserting block 204b and the slot M, the rotation of the movable ring 103 in the using process is prevented, the operation of a worker for taking up and paying off wires is influenced, at the moment, because the connecting shaft 203a of the driving wheel 203a is connected with the driven wheel 203c, when the movable ring 103 and the driven wheel 203b rotate by taking 102 as an axis, the transmission efficiency of the camera cannot be influenced, then the driving motor 105a is started, the driving motor 105a drives the connecting shaft 102 and the winding roller 104 to rotate, the paying-off operation is carried out, the camera 107 is sent into the well, the condition in the well can be observed in real time by the camera 107, manual well descending is not needed, meanwhile, the guide wheel 108 plays a role in guiding, and stones or bulges and the like in the well are prevented from influencing the advancing of the camera 107; when the unwrapping wire, slider 201d can be in this helicla flute round trip movement, and the cable passes wire loop 201e this moment, and slider 201d when the horizontal slip, can drive the cable in the wire loop 201e and remove, and then make the unwrapping wire more neat, and guide ring 202b is used for leading to and spacing simultaneously, makes things convenient for the staff to take place phenomenon such as winding in with the leading-in cable shaft of cable, very big improvement the convenience of work.

It should be noted that the above-mentioned embodiments are only for illustrating the technical solutions of the present invention and not for limiting, and although the present invention has been described in detail with reference to the preferred embodiments, it should be understood by those skilled in the art that modifications or equivalent substitutions may be made on the technical solutions of the present invention without departing from the spirit and scope of the technical solutions of the present invention, which should be covered by the claims of the present invention.

Claims (10)

1. The utility model provides a supplementary storage plate of exploration cable shaft which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the storage disc assembly (100) comprises a base (101), a connecting shaft (102), movable rings (103), winding rollers (104) and a driving piece (105), wherein the connecting shaft (102) is rotatably connected to the inner side of the base (101), the movable rings (103) are located on the inner side of the base (101) and are rotatably connected to two sides of the connecting shaft (102), and the winding rollers (104) are fixed on the connecting shaft (102) and located between the two movable rings (103); and

adjusting part (200), set up in on activity ring (103), including lead wire spare (201), guide (202), driving medium (203) and adjusting part (204), lead wire spare (201) are fixed in activity ring (103) side, guide (202) are fixed in two between activity ring (103), driving medium (203) set up in lead wire spare (201) side, adjusting part (204) set up in on base (101).

2. The auxiliary storage tray for a exploration cable shaft as claimed in claim 1, wherein: the driving piece (105) comprises a driving motor (105a) and a fixing shaft (105b), the driving motor (105a) is fixed on the side face of the base (101), the fixing shaft (105b) is fixed with the output end of the driving motor (105a), and the other end of the fixing shaft is fixed with the connecting shaft (102).

3. The auxiliary storage tray for a exploration cable shaft as claimed in claim 2, wherein: the driving piece (105) further comprises a mounting block (105c) fixed at the bottom of the driving motor (105a), and the other side of the mounting block (105c) is fixed with the base (101).

4. A exploration cable shaft auxiliary storage tray as claimed in claim 2 or 3, wherein: lead wire spare (201) includes fixed block (201a), pivot (201b), spiral roller (201c), slider (201d) and lead wire ring (201e), fixed block (201a) are fixed in activity ring (103) side, pivot (201b) rotate connect in two between fixed block (201a), spiral roller (201c) are fixed in pivot (201b) surface, slider (201d) slide in spiral roller (201c), lead wire ring (201e) with slider (201d) top is fixed.

5. The auxiliary storage tray for a exploration cable shaft as claimed in claim 4, wherein: lead wire spare (201) still includes limiting plate (201f) and stopper (201g), limiting plate (201f) are fixed in two between fixed block (201a), and are located spiral roller (201c) top, rectangular channel (K) have been seted up on limiting plate (201f), slider (201d) slide in rectangular channel (K), stopper (201g) are fixed in slider (201d) side, and with limiting plate (201f) top and bottom contact.

6. The auxiliary tray for a exploration cable shaft as claimed in claim 5, wherein: the guide piece (202) comprises mounting rods (202a) and guide rings (202b), the mounting rods (202a) are arranged on two sides of the guide rings (202b), one end of each mounting rod is fixed to the movable ring (103), and the guide rings (202b) are rotatably connected between the two mounting rods (202 a).

7. The auxiliary storage tray for a exploration cable shaft as claimed in claim 5 or 6, wherein: the driving medium (203) comprises a driving wheel (203a), a driven wheel (203b) and a belt (203c), the driving wheel (203a) is fixed on the connecting shaft (102) and is located between the driving motor (105a) and the base (101), the driven wheel (203b) is fixed to one end of the rotating shaft (201b), and the driving wheel (203a) is in transmission connection with the driven wheel (203b) through the belt (203 c).

8. The auxiliary storage tray for a exploration cable shaft as claimed in claim 7, wherein: the adjusting part (204) comprises a movable plate (204a), an inserting block (204b), an electromagnet (204c) and a fixed plate (204d), a through hole (S) is formed in the base (101), the movable plate (204a) slides in the through hole (S), the inserting block (204b) is fixed on the inner side of the movable plate (204a), the side face of the movable ring (103) is provided with uniformly distributed slots (M), the inserting block (204b) is matched with the slots (M), the fixed plate (204d) is installed on the base (101), and the electromagnet (204c) is fixed on one side, opposite to the movable plate (204a) and the fixed plate (204 d).

9. The auxiliary storage tray for a exploration cable shaft as claimed in claim 8, wherein: the adjusting piece (204) further comprises a guide rod (204e) and a return spring (204f), one end of the guide rod (204e) is fixed to the movable plate (204a), a guide groove (N) is formed in the fixed plate (204d), the guide rod (204e) slides in the guide groove (N), the return spring (204f) is located on the outer side of the guide rod (204e), and two ends of the return spring are fixed to the movable plate (204a) and the fixed plate (204d) respectively.

10. A exploration cable shaft auxiliary storage tray as claimed in any one of claims 1, 2, 3, 5, 6 and 9, wherein: the storage disc assembly (100) further comprises a traction wire (106), a camera (107) and a guide wheel (108), the traction wire (106) is sleeved at the end of a cable, the camera (107) is fixed at one end of the traction wire (106), and the guide wheel (108) is fixed on the surface of the traction wire (106).

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