CN113325206A - Portable novel insulating telescopic link - Google Patents

Abstract

The invention discloses a portable novel insulating telescopic rod, which comprises a telescopic rod main body, an insulating telescopic rod and a telescopic rod assembly, wherein the telescopic rod main body comprises an outer telescopic rod assembly, a middle telescopic rod assembly and an inner telescopic rod assembly which are sequentially spliced; the fixed protection component is connected with the outer telescopic rod component, and the adjusting ring component is arranged in the fixed protection component; and the dismounting part is additionally arranged and comprises an inserting fixed sleeve component fixedly connected with the top of the inner telescopic rod component and a clamping component inserted with the inserting fixed sleeve component. The adjustable ring assembly has the advantages that the length of the adjustable ring assembly can be quickly and accurately adjusted through the adjustable ring assembly arranged between the sleeves, workers can conveniently and quickly adjust the adjustable ring assembly to a proper distance to work, the danger of high-altitude operation is reduced, different parts can be used for disassembling the net cover and the plugging net cable through the additionally-arranged disassembling part arranged at the top end of the inner telescopic rod assembly, and the working efficiency is improved.

Description

Portable novel insulating telescopic link

Technical Field

The invention relates to the technical field of distribution network terminal testing, in particular to a novel portable insulating telescopic rod.

Background

At the present stage, with the wide application of distribution network automation switches in distribution networks, the number is huge and remarkable. In Guizhou, rainwater and freezing weather are more, which causes time and labor waste when people climb the tower, poor safety and large operation risk. Operation and maintenance managers climb the tower to transfer terminal data information, and it is very difficult to modify the protection fixed value. In routine maintenance, the personnel need 2 people at minimum work, when climbing the shaft tower and accomplishing the overlap joint net twine, under the condition of normal weather, about need 0.3 hours, efficiency is very low to current telescopic link can't accurate regulation length, need staff's side or other actions to use the telescopic link to test in order to dismantle the net gape lid and grafting net twine when high altitude construction, arouse danger easily.

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 keeping in mind the above problems occurring in the prior art.

Therefore, the invention aims to provide a novel portable insulating telescopic rod, which can improve the working efficiency, accurately and quickly adjust the length and is convenient for high-altitude operation.

In order to solve the technical problems, the invention provides the following technical scheme: a novel portable insulating telescopic rod comprises a telescopic rod main body, an insulating telescopic rod and a telescopic rod body, wherein the telescopic rod main body comprises an outer telescopic rod assembly, a middle telescopic rod assembly and an inner telescopic rod assembly which are sequentially spliced; the fixed protection component is connected with the outer telescopic rod component, and the adjusting ring component is arranged in the fixed protection component; and the dismounting part is additionally arranged and comprises an inserting fixed sleeve component fixedly connected with the top of the inner telescopic rod component and a clamping component inserted with the inserting fixed sleeve component.

As a preferred scheme of the portable novel insulating telescopic rod, the invention comprises the following steps: the fixed cover subassembly of pegging graft includes with the cover end of interior telescopic link subassembly top fixed connection, set up in the multiunit shell fragment of cover end top, the extrusion piece of being connected with the shell fragment top, the symmetry sets up in the mouth that holds of the fixed cover subassembly both sides of pegging graft, the symmetry sets up in the spout that holds of the fixed cover subassembly other both sides of pegging graft to and set up in two sets of cooperations plug connectors that hold the mouth.

As a preferred scheme of the portable novel insulating telescopic rod, the invention comprises the following steps: the matched plug connector comprises a rotating fixed rod fixedly connected with the plug fixed sleeve component, an anti-skid block hinged with the rotating fixed rod, a torsion spring connected with the bottom of the anti-skid block, and a fixed inclined block connected with the bottom of the torsion spring.

As a preferred scheme of the portable novel insulating telescopic rod, the invention comprises the following steps: the anti-slip block comprises an arc top lug arranged at the top of the anti-slip block, a stabilizing strip connected with one smooth side of the arc top lug, and a shifting strip connected with the bottom of the stabilizing strip; the bottom inclined plane of the toggle bar is connected with the top inclined plane of the fixed inclined plane block through a torsion spring.

As a preferred scheme of the portable novel insulating telescopic rod, the invention comprises the following steps: the clamping assembly comprises an inserting block, two groups of inserting matching blocks arranged on two sides of the inserting block, arc bottom convex blocks arranged in two groups of grooves on the other two sides of the inserting block, two groups of swinging strips arranged at the top of the inserting block and clamping springs connected with the two groups of swinging strips.

As a preferred scheme of the portable novel insulating telescopic rod, the invention comprises the following steps: the outer telescopic rod assembly comprises a sleeve cover connected with the top of the fixed protection assembly, a bottom cover connected with the bottom of the fixed protection assembly and a shell connected with the top of the bottom cover; the bottom cover comprises a first limiting disc arranged in the bottom cover, a circular through groove arranged above the first limiting disc, and a circular groove arranged at the bottom of the first limiting disc; the sleeve cover comprises two groups of arc-shaped fixing grooves which are symmetrically arranged at the bottom of the sleeve cover.

As a preferred scheme of the portable novel insulating telescopic rod, the invention comprises the following steps: the shell comprises a vertical groove arranged on the side surface of the shell, a plurality of groups of transverse grooves communicated with the vertical groove and arranged on one side of the shell in an array manner, and an annular through groove arranged between the shell and the sleeve cover and communicated with the vertical groove.

As a preferred scheme of the portable novel insulating telescopic rod, the invention comprises the following steps: the fixed protection assembly comprises a top fixed ring, a plurality of groups of protection connecting plates connected with the bottom of the top fixed ring, and a bottom fixed ring connected with the bottom of the protection connecting plates; the top fixing ring comprises a protection groove arranged at the bottom of the top fixing ring.

As a preferred scheme of the portable novel insulating telescopic rod, the invention comprises the following steps: the adjusting ring assembly comprises a first rotating disc arranged at the bottom of the adjusting ring assembly, a supporting spring connected with the top of the first rotating disc, a moving disc connected with the top of the supporting spring, an adjusting ring arranged outside the outer telescopic rod assembly, an adjusting block with two ends respectively connected with the adjusting ring and the moving disc, a second rotating disc connected with the top of the moving disc, and a lead screw connected with the top of the second rotating disc.

As a preferred scheme of the portable novel insulating telescopic rod, the invention comprises the following steps: the middle telescopic rod component comprises two groups of vertical limiting grooves which are arranged on the inner wall of the middle telescopic rod component in a penetrating way, two groups of arc-shaped blocks which are symmetrically arranged on the bottom of the middle telescopic rod component, and a second limiting disc which is arranged on the bottom of the inner wall of the middle telescopic rod component; the second limiting disc comprises a screw rod through groove arranged at the top of the second limiting disc and a hollow annular groove arranged in the middle of the second limiting disc; the two groups of vertical limiting grooves are symmetrically arranged; the inner telescopic rod assembly comprises two groups of limiting blocks which are symmetrically arranged on the side surfaces of the inner telescopic rod assembly.

The invention has the beneficial effects that: according to the invention, the length of the telescopic rod can be quickly and accurately adjusted through the adjusting ring assembly arranged between the telescopic rods, so that workers can quickly adjust to a proper distance to work, the danger of high-altitude operation is reduced, and different parts can be used for detaching the net cover and the plugging net cable through the additional detachable part arranged at the top end of the inner telescopic rod assembly, so that the working efficiency is 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 diagram of a portable novel insulating telescopic rod.

Fig. 2 is a structural disassembly diagram of a disassembly part additionally installed on the novel portable insulating telescopic rod.

Fig. 3 is a structural diagram of an inserting fixing sleeve component of the novel portable insulating telescopic rod.

Fig. 4 is a disassembled view of the main structure of the telescopic rod of the novel portable insulating telescopic rod.

Fig. 5 is a sectional view of the structure of the outer telescopic rod assembly of the novel portable insulating telescopic rod.

Fig. 6 is a structural diagram of an adjusting ring assembly of the novel portable insulating telescopic rod.

FIG. 7 is a sectional view of the middle telescopic rod assembly of the novel portable insulating telescopic rod.

Fig. 8 is a structural diagram of an inner telescopic rod assembly and a fixed protection assembly of the novel portable insulating telescopic rod.

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 to 8, a first embodiment of the present invention provides a novel portable insulating telescopic rod, which includes a telescopic rod main body 100 and an additional detachable member 200, wherein the additional detachable member 200 is mounted on the telescopic rod main body 100 to implement different clamping functions.

Specifically, the telescopic rod main body 100 comprises an outer telescopic rod assembly 101, a middle telescopic rod assembly 102 arranged inside the outer telescopic rod assembly 101, an inner telescopic rod assembly 103 arranged inside the middle sleeve 102, a fixed protection assembly 104 connected with the outer telescopic rod assembly 101, and an adjusting ring assembly 105 arranged inside the fixed protection assembly 104. The fixed guard assembly 104 is provided to connect the outer telescopic rod assembly 101 and to shield the adjustment ring assembly 105. Three sets of telescopic links are pegged graft in proper order, pass through adjustable ring subassembly 105 according to different distances and adjust different length when using, are applicable to various scenes.

Install additional and dismantle part 200, including with interior telescopic link subassembly 103 top fixed connection's threaded connection end 201, and with the plum blossom claw subassembly 202 that threaded connection end 201 is connected. Plum blossom claw subassembly 202 passes through bottom and threaded connection end 201 threaded connection, realizes quick fixed.

In conclusion, the adjustable ring assembly arranged between the telescopic rods can be used for quickly and accurately adjusting the length of the telescopic rods, so that workers can quickly adjust to a proper distance to work, the danger of high-altitude operation is reduced, different parts can be used for detaching the net cover and inserting the net wires by additionally arranging the detaching part arranged at the top end of the inner telescopic rod assembly, and the working efficiency is improved.

Example 2

Referring to FIGS. 1 to 8, a second embodiment of the present invention is shown. In the above embodiment, the portable novel insulating telescopic rod comprises a telescopic rod main body 100 and a mounting and dismounting part 200, and different clamping functions are realized by mounting the mounting and dismounting part 200 on the telescopic rod main body 100.

Specifically, the telescopic rod main body 100 comprises an outer telescopic rod assembly 101, a middle telescopic rod assembly 102 arranged inside the outer telescopic rod assembly 101, an inner telescopic rod assembly 103 arranged inside the middle sleeve 102, a fixed protection assembly 104 connected with the outer telescopic rod assembly 101, and an adjusting ring assembly 105 arranged inside the fixed protection assembly 104. The fixed guard assembly 104 is provided to connect the outer telescopic rod assembly 101 and to shield the adjustment ring assembly 105. Three groups of telescopic links are sequentially spliced, and different lengths are adjusted according to different distances when the telescopic device is used, so that the telescopic device is suitable for various scenes.

The mounting and dismounting component 200 comprises an insertion fixing sleeve component 201 fixedly connected with the top of the inner telescopic rod component 103, and a clamping component 202 inserted with the insertion fixing sleeve component 201. The clamping component 202 is inserted into the insertion fixing sleeve component 201 through the bottom, so that the rapid fixation is realized.

Further, the fixed cover subassembly 201 of pegging graft include with the cover end 201a of interior telescopic link subassembly 103 top fixed connection, set up in the multiunit shell fragment 201b of 202 tops at the bottom of the cover, with the extrusion piece 201c, the symmetry that shell fragment 201b top is connected set up in the mouth 201d, the symmetry that holds of the fixed cover subassembly 201 both sides of pegging graft set up in the spout 201e of pegging graft that holds of the other two sides of fixed cover subassembly 201 of pegging graft, and set up in two sets of cooperation plug connectors 201f that hold mouth 201 d.

Further, the matching plug connector 201f comprises a rotating fixing rod 201f-1 fixedly connected with the plug fixing sleeve assembly 201, an anti-slip block 201f-2 hinged to the rotating fixing rod 201f-1, a torsion spring 201f-3 connected with the bottom of the anti-slip block 201f-2, and a fixing inclined plane block 201f-4 connected with the bottom of the torsion spring 201 f-3.

Further, the anti-skid block 201f-2 comprises an arc top lug 201f-21 arranged at the top of the anti-skid block, a stabilizing strip 201f-22 connected with one smooth side of the arc top lug 201f-21, and a toggle strip 201f-23 connected with the bottom of the stabilizing strip 201 f-22; the bottom inclined plane of the toggle bar 201f-23 is connected with the top inclined plane of the fixed inclined plane block 201f-4 through the torsion spring 201 f-3.

Further, the clamping assembly 202 includes an insertion block 202a, two sets of insertion fitting blocks 202b disposed on two sides of the insertion block 202a, two sets of arc bottom protrusions 202c disposed in two sets of grooves on the other two sides of the insertion block 202a, two sets of swing strips 202d disposed on the top of the insertion block 202a, and a clamping spring 202e connected to the two sets of swing strips 202 d.

Further, the outer telescopic rod assembly 101 includes a sleeve cover 101a connected to the top of the fixed protection assembly 104, a bottom cover 101b connected to the bottom of the fixed protection assembly 104, and a housing 101c connected to the top of the bottom cover 101 b.

Preferably, when the add-on/detach member 200 is used, the plug-in mating blocks 202b on the two sides of the clamping assembly 202 are only required to be plugged along the plug-in containing sliding grooves 201e of the plug-in fixing sleeve assembly 201, and the arc bottom protrusions 202c extrude the arc top protrusions 201f-21 on the anti-slip blocks 201f-2, so that the anti-slip blocks 201f-2 rotate and slide into the plug-in fixing sleeve assembly 201, and at this time, the arc bottom protrusions 202c and the arc top protrusions 201f-21 are tightly attached under the action of the extrusion pieces 201c, so that the up-and-down limiting is realized, and the plug-in mating blocks 202b cannot rotate; finally, the clamping assembly 202 is clamped with the plug-in fixing sleeve assembly 201, and only the toggle strips 201f-23 are needed to be toggled when the clamping assembly is disassembled.

Further, the housing 101c includes a vertical slot 101c-1 disposed on a side surface thereof, a plurality of sets of transverse slots 101c-2 communicated with the vertical slot 101c-1 and disposed on one side thereof in an array, and an annular through slot 101c-3 disposed between the housing 101c and the cap 101a and communicated with the vertical slot 101 c-1. The widths of the vertical groove 101c-1, the transverse groove 101c-2 and the annular through groove 101c-3 are matched with the adjusting block 105 e.

Further, the fixed protection assembly 104 includes a top fixing ring 104a, a plurality of sets of protection connecting plates 104b connected to the bottom of the top fixing ring 104a, and a bottom fixing ring 104a connected to the bottom of the protection connecting plates 104 b; the top fixing ring 104a includes a protection groove 104a-1 provided at the bottom thereof. The sleeve cover 101a and the bottom cover 101b can be fixedly connected by arranging the fixing protection assembly 104, the diameter of the fixing protection assembly is slightly larger than that of the adjusting ring 105d, after the distance is adjusted by using the adjusting ring 105d, due to the protection of the protection connecting plate 104b, the fixed position of the adjusting ring 105d cannot be affected by mistaken collision and collision, the proper length is kept adjusted, the adjusting ring 105d cannot be in contact with the outside due to the existence of the protection connecting plate 104b when the telescopic rod is stored, the fault that the sleeve pops out suddenly is avoided, the annular through groove 101c-3 can be reserved by arranging the fixing protection assembly 104, and the accurate adjustment of the telescopic rod is guaranteed. When high altitude construction, bind in protection connecting plate 104b bottom through the rope, make staff portable insulating telescopic link, vacate the hand and solve other problems, prevent that the hand loss from falling, cause personnel's injury, improve work efficiency.

Further, the bottom cover 101b comprises a first limiting disc 101b-1 arranged inside the bottom cover, a circular through groove 101b-2 arranged above the first limiting disc 101b-1, and a circular groove 101b-3 arranged at the bottom of the first limiting disc 101 b-1; the sleeve cover 101a comprises two groups of arc-shaped fixing grooves 101a-1 which are symmetrically arranged at the bottom of the sleeve cover. The arcuate securing groove 101a-1 mates with the arcuate block 102 b.

Further, the adjusting ring assembly 105 includes a first rotating disc 105a disposed at the bottom thereof, a supporting spring 105b connected to the top of the first rotating disc 105a, a moving disc 105c connected to the top of the supporting spring 105b, an adjusting ring 105d disposed outside the outer telescopic rod assembly 101, an adjusting block 105e having two ends respectively connected to the adjusting ring 105d and the moving disc 105c, a second rotating disc 105f connected to the top of the moving disc 105c, and a lead screw 105g connected to the top of the second rotating disc 105 f.

Further, the middle telescopic rod assembly 102 comprises two groups of vertical limiting grooves 102a penetrating the inner wall thereof, two groups of arc-shaped blocks 102b symmetrically arranged at the bottom thereof, and a second limiting disc 102c arranged at the bottom of the inner wall thereof; the second limiting disc 102c comprises a screw rod through groove 102c-1 arranged at the top of the second limiting disc and a hollow annular groove 102c-2 arranged at the middle of the second limiting disc; the two groups of vertical limiting grooves 102a are symmetrically arranged.

Further, the inner telescopic rod assembly 103 comprises two groups of limiting blocks 103a symmetrically arranged on the side surfaces of the inner telescopic rod assembly, the limiting blocks 103a are matched with the vertical limiting grooves 102a, and the bottom of the inner telescopic rod assembly 103 is matched with the lead screw 105 g. The first rotating disc 105a is matched with the first limiting disc 101b-1, and the second rotating disc 105f is matched with the second limiting disc 102 c. It should be noted that the bottom cover 101b and the housing 101c may be fixedly connected by welding, etc., the first limiting disc 101b-1 is disposed at the bottom inside the bottom cover 101b, the first rotating disc 105a is disposed between the bottom cover 101b and the first limiting disc 101b-1, the supporting spring 105b extends out of the circular through groove 101b-2, and the diameter of the circular through groove 101b-2 is smaller than that of the first rotating disc 105a, so that the first limiting disc 101b-1 may be limited to move up and down by disposing the first rotating disc 105a, but the first limiting disc 101b-1 may rotate freely, and the outer telescopic rod assembly 101 and the adjusting ring assembly 105 may be connected by the first limiting disc 101 b-1. The second limiting disc 102c is fixedly connected with the bottom of the middle telescopic rod component 102, the second limiting disc 102c has a function similar to that of the first limiting disc 101b-1, the second limiting disc 102c and the second rotating disc 105f are arranged in a hollow annular groove 102c-2 of the second limiting disc 102c, and friction force exists between the second limiting disc 102c and the second rotating disc 105 f; the screw rod 105g extends out of the screw rod through groove 102c-1 and is connected with the inner telescopic rod assembly 103 in a matching mode.

When the telescopic rod is used, the insulating telescopic rod is divided into three using modes. The first use mode is as follows: in the initial state, the adjusting ring assembly 105 is arranged at the bottom of the shell 101c, and the adjusting block 105e is arranged in the lowest transverse groove 101c-2 of the plurality of groups of transverse grooves 101 c-2; at this time, only the adjusting ring 105d needs to be rotated to enable the adjusting block 105e to enter the vertical groove 101c-1, the support spring 105b which is extruded pushes the moving disc 105c to move upwards, even if the middle telescopic rod assembly 102 extends out of the outer telescopic rod assembly 101, the adjusting ring 105d can be rotated at any time in the extending process to enable the adjusting block 105e to enter one of the plurality of groups of transverse grooves 101c-2, the supporting spring 105b stops rising, the rough adjustment of the length is realized, because the adjusting block 105e is clamped in the transverse groove 101c-2, after the adjusting ring 105d is not moved by external force, the position of the middle telescopic rod assembly 102 can be fixed, the movement of the middle telescopic rod assembly is prevented, and the stability of the telescopic rod is ensured.

The second use mode is as follows: similarly, the adjusting ring 105d in the initial state is rotated to enable the adjusting block 105e to rapidly ascend along the length direction of the vertical groove 101c-1 until the adjusting ring 105d is jacked into the protective groove 104a-1 at the bottom of the top fixing ring 104a, due to the existence of the protective groove 104a-1, the adjusting block 105e and the annular through groove 101c-3 are in the same horizontal plane, and the adjusting block 105e can rotate in the annular through groove 101c-3 by rotating the adjusting ring 105 d; due to the preset position, when the adjusting block 105e rises to the annular through groove 101c-3 along the vertical groove 101c-1, the middle telescopic rod assembly 102 connected with the fixed protection assembly 104 extends outwards for the maximum distance from the inside of the outer telescopic rod assembly 101, the arc blocks 102b on two sides of the middle telescopic rod assembly 102 are clamped with the arc fixing groove 101a-1 at the bottom of the sleeve cover 101a, and the middle telescopic rod assembly 102 is fixed, so that when the adjusting ring assembly 105 rotates, the inner telescopic rod assembly 103 matched with the lead screw 105g slowly extends out of the middle telescopic rod assembly 102, the maximum length and the accurate adjustment can be realized, and the stability after the adjustment is ensured.

The third use mode is as follows: combine first kind and second kind mode promptly, at first use the distance that stretches out of the interior telescopic link subassembly 103 of second kind mode accurate regulation, then press fixed protection subassembly 104, it is fixed with fixed protection subassembly 104 through first kind mode, can reach faster regulation speed and accurate regulation distance through the length of fixed protection subassembly 104 adjusting middle part telescopic link subassembly 102 and interior telescopic link subassembly 103 simultaneously.

In conclusion, the adjustable ring assembly arranged between the telescopic rods can be used for quickly and accurately adjusting the length of the telescopic rods, so that workers can quickly adjust to a proper distance to work, the danger of high-altitude operation is reduced, different parts can be used for detaching the net cover and inserting the net wires by additionally arranging the detaching part arranged at the top end of the inner telescopic rod assembly, and the working efficiency is improved.

It is important to note that the construction and arrangement of the present application as shown in the various exemplary embodiments is illustrative only. Although only a few embodiments have been described in detail in this disclosure, those skilled in the art who review this disclosure will readily appreciate that many modifications are possible (e.g., variations in sizes, dimensions, structures, shapes and proportions of the various elements, values of parameters (e.g., temperatures, pressures, etc.), mounting arrangements, use of materials, colors, orientations, etc.) without materially departing from the novel teachings and advantages of the subject matter recited in this application. For example, elements shown as integrally formed may be constructed of multiple parts or elements, the position of elements may be reversed or otherwise varied, and the nature or number of discrete elements or positions may be altered or varied. Accordingly, all such modifications are intended to be included within the scope of this invention. The order or sequence of any process or method steps may be varied or re-sequenced according to alternative embodiments. In the claims, any means-plus-function clause is intended to cover the structures described herein as performing the recited function and not only structural equivalents but also equivalent structures. Other substitutions, modifications, changes and omissions may be made in the design, operating conditions and arrangement of the exemplary embodiments without departing from the scope of the present inventions. Therefore, the present invention is not limited to a particular embodiment, but extends to various modifications that nevertheless fall within the scope of the appended claims.

Moreover, in an effort to provide a concise description of the exemplary embodiments, all features of an actual implementation may not be described (i.e., those unrelated to the presently contemplated best mode of carrying out the invention, or those unrelated to enabling the invention).

It should be appreciated that in the development of any such actual implementation, as in any engineering or design project, numerous implementation-specific decisions may be made. Such a development effort might be complex and time consuming, but would nevertheless be a routine undertaking of design, fabrication, and manufacture for those of ordinary skill having the benefit of this disclosure, without undue experimentation.

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 portable novel insulating telescopic link which characterized in that: comprises the steps of (a) preparing a mixture of a plurality of raw materials,

the telescopic rod main body (100) comprises an outer telescopic rod component (101), a middle telescopic rod component (102) and an inner telescopic rod component (103) which are sequentially spliced; a fixed protective assembly (104) connected to the outer telescopic rod assembly (101), and a regulating ring assembly (105) disposed within the fixed protective assembly (104);

the mounting and dismounting component (200) comprises an inserting and fixing sleeve component (201) fixedly connected with the top of the inner telescopic rod component (103) and a clamping component (202) inserted with the inserting and fixing sleeve component (201).

2. The novel portable insulating telescopic rod of claim 1, wherein: fixed cover subassembly (201) of pegging graft include with the cover end (201a) of interior telescopic link subassembly (103) top fixed connection, set up in multiunit shell fragment (201b) of cover end (202) top, with extrusion piece (201c) that shell fragment (201b) top is connected, symmetry set up in the mouth (201d) that holds, the symmetry of pegging graft fixed cover subassembly (201) both sides set up in the fixed cover subassembly (201) of pegging graft holds grafting spout (201e) of both sides in addition, and set up in two sets of hold two sets of cooperation plug connector (201f) of mouth (201 d).

3. The novel portable insulating telescopic rod of claim 2, wherein: the matched plug connector (201f) comprises a rotating fixing rod (201f-1) fixedly connected with the plug fixing sleeve assembly (201), an anti-skidding block (201f-2) hinged with the rotating fixing rod (201f-1), a torsion spring (201f-3) connected with the bottom of the anti-skidding block (201f-2), and a fixed inclined plane block (201f-4) connected with the bottom of the torsion spring (201 f-3).

4. The novel portable insulating telescopic rod of claim 3, wherein: the anti-skid block (201f-2) comprises an arc top lug (201f-21) arranged at the top of the anti-skid block, a stabilizing strip (201f-22) connected with one smooth side of the arc top lug (201f-21), and a toggle strip (201f-23) connected with the bottom of the stabilizing strip (201 f-22); the bottom inclined plane of the toggle bar (201f-23) is connected with the top inclined plane of the fixed inclined plane block (201f-4) through the torsion spring (201 f-3).

5. The novel portable insulating telescopic rod of any one of claims 1 to 4, wherein: the clamping assembly (202) comprises an insertion block (202a), two groups of insertion matching blocks (202b) arranged on two sides of the insertion block (202a), arc bottom convex blocks (202c) arranged in two groups of grooves on the other two sides of the insertion block (202a), two groups of swing strips (202d) arranged at the top of the insertion block (202a), and clamping springs (202e) connected with the two groups of swing strips (202 d).

6. The novel portable insulating telescopic rod of any one of claims 1 to 4, wherein: the outer telescopic rod assembly (101) comprises a sleeve cover (101a) connected with the top of the fixed protection assembly (104), a bottom cover (101b) connected with the bottom of the fixed protection assembly (104), and a shell (101c) connected with the top of the bottom cover (101 b); the bottom cover (101b) comprises a first limiting disc (101b-1) arranged in the bottom cover, a circular through groove (101b-2) arranged above the first limiting disc (101b-1), and a circular groove (101b-3) arranged at the bottom of the first limiting disc (101 b-1); the sleeve cover (101a) comprises two groups of arc-shaped fixing grooves (101a-1) symmetrically arranged at the bottom of the sleeve cover.

7. The novel portable insulating telescopic rod of claim 6, wherein: the shell (101c) comprises a vertical groove (101c-1) arranged on the side surface of the shell, a plurality of groups of transverse grooves (101c-2) communicated with the vertical groove (101c-1) and arranged on one side of the shell in an array mode, and an annular through groove (101c-3) arranged between the shell (101c) and the sleeve cover (101a) and communicated with the vertical groove (101 c-1).

8. The novel portable insulating telescopic rod of any one of claims 1 to 4, wherein: the fixed protection assembly (104) comprises a top fixed ring (104a), a plurality of groups of protection connecting plates (104b) connected with the bottom of the top fixed ring (104a), and a bottom fixed ring (104a) connected with the bottom of the protection connecting plates (104 b); the top fixing ring (104a) includes a protection groove (104a-1) provided at a bottom thereof.

9. The novel portable insulating telescopic rod of claim 7, wherein: the adjusting ring assembly (105) comprises a first rotating disc (105a) arranged at the bottom of the adjusting ring assembly, a supporting spring (105b) connected with the top of the first rotating disc (105a), a moving disc (105c) connected with the top of the supporting spring (105b), an adjusting ring (105d) arranged outside the outer telescopic rod assembly (101), an adjusting block (105e) with two ends respectively connected with the adjusting ring (105d) and the moving disc (105c), a second rotating disc (105f) connected with the top of the moving disc (105c), and a lead screw (105g) connected with the top of the second rotating disc (105 f).

10. The novel portable insulating telescopic rod of claim 9, wherein: the middle telescopic rod component (102) comprises two groups of vertical limiting grooves (102a) which are arranged on the inner wall of the middle telescopic rod component in a penetrating way, two groups of arc-shaped blocks (102b) which are symmetrically arranged on the bottom of the middle telescopic rod component, and a second limiting disc (102c) which is arranged on the bottom of the inner wall of the middle telescopic rod component; the second limiting disc (102c) comprises a screw rod through groove (102c-1) arranged at the top of the second limiting disc and a hollow annular groove (102c-2) arranged at the middle of the second limiting disc; the two groups of vertical limiting grooves (102a) are symmetrically arranged; the inner telescopic rod assembly (103) comprises two groups of limiting blocks (103a) which are symmetrically arranged on the side surfaces of the inner telescopic rod assembly.

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