CN219697211U - Galvanized wire pipe with connecting structure - Google Patents

Abstract

The utility model discloses a galvanized wire pipe with a connecting structure, which has the technical scheme that: the novel rotary pipe comprises a pipe body, wherein a circular ring I is arranged on the outer fixing sleeve of one end of the pipe body, four grooves which are uniformly distributed in a circumferential shape are formed in the circular ring I, rotating shafts I are connected in the four grooves, and rotating plates are fixedly sleeved on the outer parts of the four rotating shafts I, and the novel rotary pipe has the beneficial effects that: the four rotating plates are in an open state, the first spring is compressed, then the left end of the other pipe body is inserted, the second ring is slowly pushed back after the first spring is inserted, and the first spring is rebounded, so that the four rotating plates can be slowly reset, the four clamping blocks are respectively clamped inside the four clamping grooves, the two pipe bodies can be connected together, more pipe bodies can be connected by the same method, the pipe bodies are very convenient to connect, the installation can be completed by a single person, the installation step is simple and convenient, and the labor intensity of workers can be greatly reduced when the pipe bodies are connected.

Description

Galvanized wire pipe with connecting structure

Technical Field

The utility model relates to the technical field of galvanized wire pipes, in particular to a galvanized wire pipe with a connecting structure.

Background

The electric wire tube is commonly called as an 'insulated electrician sleeve for building', is a tube body for threading wires, is mostly applied to indoor normal environment and places with high temperature, dust, vibration and fire hazard, has the characteristics of corrosion resistance and electric leakage resistance, and is generally divided into a plastic PVC electric wire tube, a stainless steel electric wire tube and a carbon steel electric wire tube, and the galvanized electric wire tube is the electric wire tube which is galvanized through a special process.

When the galvanized wire tube is used, two or more wire tubes are required to be connected together, but the conventional galvanized wire tube is inconvenient to connect when in use, and the labor intensity is high when in connection, so that improvement is required;

for this reason, it is necessary to invent a galvanized wire pipe with a connection structure.

Disclosure of Invention

Therefore, the utility model provides a galvanized wire pipe with a connecting structure, which solves the problems in the background technology.

In order to achieve the above object, the present utility model provides the following technical solutions: the utility model provides a from galvanized wire pipe of taking connection structure, includes the body, body one end outside fixed cover is equipped with ring one, four be circumference form evenly distributed's recess has been seted up to ring one inside, four the inside all being connected with of recess pivot one, four the equal fixed cover of pivot one outside is equipped with the rotor plate, four the inboard equal fixedly connected with fixture block of rotor plate, four the logical groove has all been seted up to the rotor plate inside, the pivot is through the groove, four the equal fixed cover in pivot one outside is equipped with the gear and the gear is located logical inslot portion, four the inside pinion rack that all is equipped with of recess, four the pinion rack is located four gear insides respectively, four the gear is connected with four pinion rack meshing respectively, the outside slip cap of body one end is equipped with ring two, four one side fixedly connected with four pull rods, four one side fixedly connected with four of pinion rack one side respectively, ring one is with four spring one that circumference form evenly distributed with ring two inboard fixedly connected with four, four outside the other end of the tube is equipped with pinion rack, three outside evenly distributed is equipped with ring rack, three outside is equipped with four ring rack sets are evenly distributed.

Preferably, the rotating plate is slidably connected with the groove.

Preferably, the toothed plate is slidingly connected with the groove.

Preferably, the limiting assembly comprises two sliding blocks, the two sliding blocks are respectively and fixedly connected to the front side and the rear side of the toothed plate, sliding grooves are formed in the front side and the rear side of the groove, and the sliding blocks are embedded in the sliding grooves and are in sliding connection with the sliding grooves.

Preferably, four positioning rods which are uniformly distributed in a circumference shape are fixedly connected to one side of the second circular ring, four positioning grooves which are uniformly distributed in a circumference shape are formed in the first circular ring, the four positioning rods respectively penetrate through the four springs and extend into the four positioning grooves respectively, and the positioning rods are in sliding connection with the positioning grooves.

Preferably, an annular groove is formed in the third annular groove, a fourth annular groove is slidably arranged in the annular groove, one end of the fourth annular groove extends to the outer portion of one side of the annular groove, four springs II which are uniformly distributed in a circumferential shape are fixedly connected to one side of the fourth annular groove, and one ends of the four springs II are fixedly connected with the other side of the annular groove.

Preferably, the first rotating shaft is connected with the first circular ring through a bearing.

The beneficial effects of the utility model are as follows:

according to the utility model, the ring II is pushed rightwards, so that the four pull rods and the four toothed plates can move rightwards, the four gears can be rotated simultaneously, the four rotating shafts I are driven to rotate simultaneously, the four rotating plates can be rotated by taking the four rotating shafts I as rotating shafts respectively, the four rotating plates are in an open state, meanwhile, the springs I are compressed, then the left end of the other pipe body is inserted, the ring II is pushed backwards slowly after the insertion, and the springs I rebound, so that the four rotating plates can be reset slowly, and thus the four clamping blocks are clamped in the four clamping grooves respectively, so that the two pipe bodies can be connected together.

Drawings

In order to more clearly illustrate the embodiments of the present utility model or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It will be apparent to those skilled in the art from this disclosure that the drawings described below are merely exemplary and that other embodiments may be derived from the drawings provided without undue effort.

The structures, proportions, sizes, etc. shown in the present specification are shown only for the purposes of illustration and description, and are not intended to limit the scope of the utility model, which is defined by the claims, so that any structural modifications, proportional changes, or adjustments of size, which do not affect the efficacy of the utility model or the objects achieved, should fall within the scope of the utility model.

FIG. 1 is a schematic view of the overall structure provided by the present utility model;

FIG. 2 is a front cross-sectional view of the present utility model;

FIG. 3 is an enlarged view of the portion A of FIG. 2 provided by the present utility model;

FIG. 4 is an enlarged view of portion B of FIG. 2 provided by the present utility model;

FIG. 5 is an exploded perspective view of a first ring, a second ring, a spring, etc. according to the present utility model;

FIG. 6 is an exploded perspective view of the third and fourth rings provided by the present utility model;

FIG. 7 is a schematic diagram of a connection state provided by the present utility model;

in the figure: the pipe comprises a pipe body 1, a ring I, a groove 3, a rotating shaft I, a rotating plate 5, a clamping block 6, a gear 7, a spring II, a toothed plate 9, a ring II, a pull rod 11, a spring I, a ring III 13, a clamping groove 14, a sliding block 15, a sliding groove 16, a positioning rod 17, a ring groove 18 and a ring IV 19.

Detailed Description

The preferred embodiments of the present utility model will be described below with reference to the accompanying drawings, it being understood that the preferred embodiments described herein are for illustration and explanation of the present utility model only, and are not intended to limit the present utility model.

Referring to fig. 1-7, the galvanized wire tube with the connecting structure provided by the utility model comprises a tube body 1, wherein a circular ring I2 is fixedly sleeved outside one end of the tube body 1, four grooves 3 which are uniformly distributed in a circumferential shape are formed in the circular ring I2, a rotary shaft I4 is connected inside the four grooves 3, a rotary plate 5 is fixedly sleeved outside the four rotary shafts I4, clamping blocks 6 are fixedly connected inside the four rotary plates 5, through grooves are formed inside the four rotary plates 5, the rotary shaft I4 penetrates through the grooves, gears 7 are fixedly sleeved outside the four rotary shafts I4 and are positioned inside the through grooves, toothed plates 9 are respectively arranged inside the four grooves 3, the four toothed plates 9 are respectively positioned inside the four gears 7, the four gears 7 are respectively meshed with the four toothed plates 9, a circular ring II 10 is also sleeved outside one end of the tube body 1, one side of the circular ring II 10 is fixedly connected with four pull rods 11, one end of each of the four pull rods 11 is respectively fixedly connected with one side of the four toothed plates 9, the inner side of the circular ring I2 and the circular ring II 10 is fixedly connected with four circular ring II 10, through grooves are respectively formed inside the four rotary plates 4, the four toothed plates I4 penetrate through grooves are respectively, gears 9 are uniformly distributed inside the four grooves and are respectively fixedly sleeved outside the four rotary plates 3, the four toothed plates I3 are uniformly distributed inside the four grooves 3, three toothed plates 9 are respectively connected with the four toothed plates 9, and are uniformly distributed inside the four toothed plates 3, and the rotary plates I13 are respectively and are respectively connected with the four toothed plates 3;

in this embodiment, the second ring 10 is pushed rightward, so that the four pull rods 11 and the four toothed plates 9 can move rightward, so that the four gears 7 can rotate simultaneously, so as to drive the four rotating shafts one 4 to rotate simultaneously, so that the four rotating plates 5 can rotate respectively by taking the four rotating shafts one 4 as rotating shafts, so that the four rotating plates 5 are in an open state, meanwhile, the first spring 12 is compressed, then the left end of the other pipe body 1 is inserted, after the insertion, the second ring 10 is slowly pushed back, and the first spring 12 is rebound, so that the four rotating plates 5 can be slowly reset, so that the four clamping blocks 6 are respectively clamped in the four clamping grooves 14, and the two pipe bodies 1 can be connected together;

in order to achieve the purpose of stable movement of the toothed plate 9, the device is realized by adopting the following technical scheme: the limiting component comprises two sliding blocks 15, the two sliding blocks 15 are respectively and fixedly connected to the front side and the rear side of the toothed plate 9, sliding grooves 16 are formed in the front side and the rear side of the groove 3, the sliding blocks 15 are embedded in the sliding grooves 16 and are in sliding connection with the sliding grooves 16, the sliding blocks 15 can enable the toothed plate 9 to stably move, and meanwhile the guiding function can be achieved;

in order to achieve the purpose of guiding the second ring 10, the device is realized by adopting the following technical scheme: four positioning rods 17 which are uniformly distributed in a circumferential shape are fixedly connected to one side of the second ring 10, four positioning grooves which are uniformly distributed in a circumferential shape are formed in the first ring 2, the four positioning rods 17 penetrate through the first springs 12 respectively and extend into the four positioning grooves respectively, the positioning rods 17 are in sliding connection with the positioning grooves, and the positioning rods 17 can play a role in guiding the second ring 10;

in order to achieve the purpose of pushing the ring III 13 to move rightwards, the device is realized by adopting the following technical scheme: an annular groove 18 is formed in the third ring 13, a fourth ring 19 is slidably arranged in the annular groove 18, one end of the fourth ring 19 extends to the outside of one side of the annular groove 18, four springs 8 which are uniformly distributed in a circumferential shape are fixedly connected to one side of the fourth ring 19, one end of each of the four springs 8 is fixedly connected with the other side of the annular groove 18, and a force for pushing the third ring 13 to move rightwards can be provided through the design of the springs 8;

in order to achieve the purpose of reducing abrasion, the device is realized by adopting the following technical scheme: the first rotating shaft 4 is connected with the first circular ring 2 through a bearing, and abrasion can be reduced through bearing connection.

The application process of the utility model is as follows: when the utility model is used, one pipe body 1 is firstly taken, then the ring II 10 is pushed rightwards, so that the four pull rods 11 and the four toothed plates 9 can move rightwards, as the gears 7 are meshed with the toothed plates 9, the toothed plates 9 can simultaneously rotate when moving, thereby driving the four rotating shafts 4 to simultaneously rotate, the four rotating plates 5 can respectively rotate by taking the four rotating shafts 4 as rotating shafts, so that the four rotating plates 5 are in an open state, the spring I12 is compressed, then the left end of the other pipe body 1 is inserted into the right end of the pipe body 1, the ring IV 19 on the other pipe body 1 is contacted with the right side of the pipe body 1, then the spring II 8 is compressed by pushing forcefully, so that the ring III 13 on the other pipe body 1 is close to the ring I2 of the pipe body 1, the two rotary plates 5 can be reset slowly by slowly pushing the second circular ring 10 back after the second circular ring is inserted and then rebounding the first spring 12, so that the four clamping blocks 6 are respectively clamped in the four clamping grooves 14, the third circular ring 13 on the other pipe body 1 can be limited, the second spring 8 is in a compressed state and has a right pushing force to the third circular ring 13, the clamping blocks 6 limit the third circular ring, the two pipe bodies 1 can be kept stable by supplementing the first circular ring and the second circular ring, the two pipe bodies 1 can be connected together, more pipe bodies 1 can be connected by the same method, the connection is very convenient, the installation can be completed by a single person, the installation step is simple and convenient, and the manual labor intensity can be greatly reduced when the connection is carried out.

The above description is only of the preferred embodiments of the present utility model, and any person skilled in the art may modify the present utility model or make modifications to the present utility model equivalent thereto using the technical solutions described above. Therefore, any simple modification or equivalent made according to the technical solution of the present utility model falls within the scope of the protection claimed by the present utility model.

Claims (7)

1. From galvanized wire pipe of taking connection structure, including body (1), its characterized in that: the utility model discloses a tube body (1), including tube body (1), fixed cover in one end outside is equipped with ring one (2), four recess (3) that are circumference form evenly distributed have been seted up to ring one (2) inside, four recess (3) inside all is connected with pivot one (4), four the outside all fixed cover of pivot one (4) is equipped with rotor plate (5), four rotor plate (5) inboard all fixedly connected with fixture block (6), four the logical groove has all been seted up to rotor plate (5) inside, pivot one (4) runs through logical groove, four the outside all fixed cover of pivot one (4) is equipped with gear (7) and gear (7) are located logical inslot, four recess (3) inside all is equipped with pinion rack (9), four pinion rack (9) are located four pinion rack (7) inboardly respectively, four outside still the slip cap of tube body (1) one end outside is equipped with ring two (10), four ring two (10) one side fixedly connected with four pinion rack (11) and four ring (13) are connected with ring one end (12) evenly distributed in one side, ring one end (12) is fixed with ring one end (13) respectively, four clamping grooves (14) which are uniformly distributed in a circumferential shape are formed in the annular third (13), and limit assemblies are arranged outside the four toothed plates (9).

2. A galvanized wire pipe with a connection structure according to claim 1, characterized in that: the rotating plate (5) is connected with the groove (3) in a sliding way.

3. A galvanized wire pipe with a connection structure according to claim 1, characterized in that: the toothed plate (9) is in sliding connection with the groove (3).

4. A galvanized wire pipe with a connection structure according to claim 1, characterized in that: the limiting assembly comprises two sliding blocks (15), the two sliding blocks (15) are respectively and fixedly connected to the front side and the rear side of the toothed plate (9), sliding grooves (16) are formed in the front side and the rear side of the groove (3), and the sliding blocks (15) are embedded in the sliding grooves (16) and are in sliding connection with the sliding grooves (16).

5. A galvanized wire pipe with a connection structure according to claim 1, characterized in that: four locating rods (17) which are uniformly distributed in a circumferential shape are fixedly connected to one side of the second circular ring (10), four locating grooves which are uniformly distributed in a circumferential shape are formed in the first circular ring (2), the four locating rods (17) penetrate through the first four springs (12) respectively and extend into the four locating grooves respectively, and the locating rods (17) are connected with the locating grooves in a sliding mode.

6. A galvanized wire pipe with a connection structure according to claim 1, characterized in that: annular groove (18) have been seted up to ring III (13) inside, the inside slip of annular groove (18) is equipped with ring IV (19), ring IV (19) one end extends to annular groove (18) one side outside, ring IV (19) one side fixedly connected with four be circumference form evenly distributed's spring II (8), four spring II (8) one end all with annular groove (18) opposite side fixed connection.

7. A galvanized wire pipe with a connection structure according to claim 1, characterized in that: the first rotating shaft (4) is connected with the first circular ring (2) through a bearing.