CN220978860U - Cable direct-connection vibrating rod - Google Patents

Abstract

The utility model discloses a cable direct-connection vibrating rod, which comprises: the vibrating rod head comprises a vibrating rod shell and a vibration generator, and the vibration generator is arranged in the vibrating rod shell; the connecting cable is a tensile cable and is fixedly connected with the vibrating rod shell relatively, and the inner core wire of the connecting cable is electrically connected with the vibration generator.

Description

Cable direct-connection vibrating rod

Technical Field

The utility model relates to the technical field of vibration equipment, in particular to a cable direct-connection vibration rod.

Background

The vibrating rod is a machine tool used in engineering construction, can enable concrete to be closely combined, and eliminates the phenomena of size air holes and the like of the concrete. When the concrete pouring member is used, the bubbles in the concrete pouring member are required to be removed, the phenomena of honeycomb pitting surface and the like of the concrete can be eliminated, so that the strength of the concrete pouring member is improved, the core quality of the concrete pouring member is ensured, the manual handheld vibrating rod is operated to vibrate on the construction site in the prior art, the traditional handheld vibrating rod is generally provided with a vibrating rod head, the vibrating rod head is in vibration transmission through a flexible shaft, a protective hose is arranged on the outer side of the flexible shaft, the protective hose is operated in operation, the other handheld vibrating rod is used for arranging a vibrating generator in the vibrating rod head, the vibrating generator is connected with a power supply through a conductive cable, so that the power supply is realized for the vibrating generator, the vibration operation is carried out through the handheld protective sleeve in order to improve the working strength of the conductive cable, the operator is tired due to the fact that the weight of the whole structure is large in the presence of the protective outer tube or the protective sleeve, the operator is tired in long-term handheld operation, and in addition, the whole hand fatigue is caused due to the fact that the protective sleeve or the vibration of the protective outer tube is transmitted to the hand is large in the hand.

Disclosure of utility model

The utility model provides a cable direct-connection vibrating rod which can enable an operator to operate more easily and conveniently.

In order to solve the above technical problems, the present utility model provides a cable direct-connection vibrating rod, including:

the vibrating rod head comprises a vibrating rod shell and a vibration generator, and the vibration generator is arranged in the vibrating rod shell;

The connecting cable is a tensile cable, the connecting cable is fixedly connected with the vibrating rod shell relatively, and the inner core wire of the connecting cable is electrically connected with the vibration generator.

Preferably, the vibration generator is a high-frequency vibration generator.

As the optimization of the technical scheme, the first end of the connecting cable is fixed relative to the vibrating rod shell, the second end of the connecting cable is provided with the plug, and the inner core wire of the connecting cable is electrically conducted with the metal sheet of the plug.

As the preference of above-mentioned technical scheme, connecting cable includes the protection outer glue film, the cladding of protection outer glue film sets up the outside of internal thread, the inside of protection outer glue film is inlayed and is equipped with the tensile reinforcement silk, the tensile reinforcement silk is followed connecting cable's length direction lays, the vibrting spear shell with protection outer glue film relative fixed location.

Preferably, in the above technical solution, the tension-reinforcing filaments are filaments.

As the optimization of the technical scheme, the inside of the protective outer adhesive layer is embedded with a plurality of fiber wires, and the fiber wires are distributed in an annular array with the center line of the connecting cable.

As the optimization of the technical scheme, the number of the inner core wires is multiple, the inner core wires are arranged in parallel, the inner core wires are distributed in an array mode at the central positions of the connecting cables, and the first tensile wires are clamped at the central positions of the inner core wires.

As the optimization of the technical scheme, the inner core wire comprises an inner core protective glue layer, a metal wire and a second tensile wire, wherein the metal wire is coated on the outer side of the metal wire, and the second tensile wire is arranged at the center of the metal wire.

Preferably, the first tensile wire and the second tensile wire are galvanized steel wires.

As a preferable mode of the above technical solution, the connection cable is provided with a controller and a leakage protector.

The utility model provides a cable direct-connection vibrating rod which comprises a vibrating rod head and a connecting cable, wherein the vibrating rod head comprises a vibrating rod shell and a vibration generator, the vibration generator is arranged in the vibrating rod shell, the vibration generator can rotate in a power-on state to generate vibration, the connecting cable is fixedly connected with the vibrating rod shell relatively, an inner core wire arranged in the connecting cable is electrically connected with the vibration generator, and when the cable works, the connecting cable is connected with a power supply to supply power to the vibration generator.

The foregoing description is only an overview of the present utility model, and is intended to be implemented in accordance with the teachings of the present utility model in order that the same may be more clearly understood and to make the same and other objects, features and advantages of the present utility model more readily apparent.

Drawings

Fig. 1 shows a schematic structure of a cable-direct-connection vibrating rod according to the present embodiment;

Fig. 2 shows a schematic cross-sectional view of the connection cable in the present embodiment;

In the figure: 10. vibrating the club head; 20. a controller; 30. a plug; 40. a leakage protector; 50. a connection cable; 501. a protective outer adhesive layer; 502. tensile reinforcement wires; 503. a first tensile strand; 504. an inner core wire; 5041. an inner core protective adhesive layer; 5042. a second tensile strand; 5043. and a metal wire.

Detailed Description

In order to make the objects, features and advantages of the present utility model more comprehensible, the technical solutions according to the embodiments of the present utility model will be clearly described in the following with reference to the accompanying drawings, and it is obvious that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

Referring to fig. 1 and 2, an embodiment of the present utility model provides a cable direct-connection vibration rod, including:

The vibrating rod head 10, the vibrating rod head 10 comprises a vibrating rod shell and a vibration generator, and the vibration generator is arranged in the vibrating rod shell;

The connecting cable 50, the connecting cable 50 is a tensile cable, the connecting cable 50 is fixedly connected with the vibrating rod shell relatively, and the inner core wire 504 of the connecting cable 50 is electrically connected with the vibration generator.

The cable directly links vibrting spear that this embodiment provided, it includes vibrting spear head 10 and connecting cable 50, this vibrting spear head 10 includes vibrting spear shell and vibration generator, vibration generator sets up in the inside of vibrting spear shell, thereby this vibration generator can tell rotatory in the circular telegram state and take place vibrations, and connecting cable 50 then and the relative fixed connection of vibrting spear shell, the inner core wire 504 and the vibration generator electric connection of connecting cable 50 inside setting, when the work, thereby this connecting cable 50 is connected with the power and is supplied power for vibration generator, because this connecting cable 50 is tensile cable, it can directly hold connecting cable 50 at the receipts of operation and carry out vibration operation, need to install additional protective hose in the prior art, its whole structure is lighter, be convenient for vibrate the operation, reduce the tiredness in the operation process, in addition, it directly holds connecting cable 50, compared with the prior art hand protection outer tube, the vibrations that transmit to the hand in the operation process are less.

In addition, the connection cable 50 is adopted in the embodiment, so that the storage is more convenient, and the space is saved.

In a further implementation of the present embodiment, the vibration generator is a high frequency vibration generator.

The vibration generator in the embodiment is a high-frequency vibration generator, the vibration frequency is high, and the vibration effect is improved.

In a further implementation manner of this embodiment, the first end of the connection cable 50 is fixed relative to the vibrating rod housing, the second end of the connection cable 50 is provided with the plug 30, and the inner core wire 504 of the connection cable 50 is electrically connected to the metal sheet of the plug 30.

In this embodiment, the plug 30 can be directly plugged into the socket to supply power to the vibration generator during operation.

In a further implementation manner in this embodiment, the connection cable 50 includes a protective outer adhesive layer 501, the protective outer adhesive layer 501 is wrapped and disposed on the outer side of the inner core wire 504, the tensile reinforcement wires 502 are embedded in the protective outer adhesive layer 501, the tensile reinforcement wires 502 are distributed along the length direction of the connection cable 50, and the vibration rod shell and the protective outer adhesive layer 501 are fixed and positioned relatively.

In this embodiment, the tensile reinforcement wire 502 is disposed in the outer protective adhesive layer 501, which can increase the tensile strength of the outer protective adhesive layer 501, and since the vibration rod shell in this embodiment is relatively fixed with the outer protective adhesive layer 501, it can effectively prevent the outer protective adhesive layer 501 from breaking during operation.

In a further implementation of this embodiment, the tension reinforcement wires 502 are fiber wires.

The tensile reinforcement wires 502 in this embodiment are fiber wires, which can further increase the tensile strength of the connection cable 50.

In a further implementation manner of this embodiment, a plurality of fiber filaments are embedded in the protective outer adhesive layer 501, and the plurality of fiber filaments are distributed in an annular array with a center line of the connecting cable 50.

The plurality of filaments are distributed in an annular array about the centerline of the connecting cable 50 to increase tensile strength.

In a further implementation manner in this embodiment, the number of the inner core wires 504 is plural, the plurality of inner core wires 504 are arranged in parallel, the plurality of inner core wires 504 are distributed in an array at the central position of the connecting cable 50, and the first tensile wires 503 are sandwiched between the central positions of the plurality of inner core wires 504.

The first tensile strand 503 may increase the overall tensile strength.

In a further implementation manner of this embodiment, the inner core wire 504 includes an inner core protective glue layer 5041, a metal wire 5043, and a second tensile wire 5042, where the metal wire 5043 is wrapped on the outer side of the metal wire 5043, and the second tensile wire 5042 is disposed at a central position of the metal wire 5043.

Second tensile strand 5042 may increase the overall tensile strength.

In a further alternative embodiment of the present example, the first tensile strand and the second tensile strand 5042 are galvanized steel wires.

The first tensile wire and the second tensile wire 5042 are galvanized steel wires, so that the overall strength can be further improved.

In a further implementation of the present embodiment, the controller 20 and the earth leakage protector 40 are provided on the connection cable 50.

The controller in this embodiment can facilitate the operation control of the vibrating spear head 10, and the earth leakage protector can improve the safety performance.

In the description of the present specification, a description referring to terms "one embodiment," "some embodiments," "examples," "specific examples," or "some examples," etc., means that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the present utility model. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples. Furthermore, the different embodiments or examples described in this specification and the features of the different embodiments or examples may be combined and combined by those skilled in the art without contradiction.

Furthermore, the terms "first," "second," and the like, are used for descriptive purposes only and are not to be construed as indicating or implying a relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defining "a first" or "a second" may explicitly or implicitly include at least one such feature. In the description of the present utility model, the meaning of "a plurality" is two or more, unless explicitly defined otherwise.

The foregoing is merely illustrative of the present utility model, and the present utility model is not limited thereto, and any person skilled in the art will readily recognize that variations or substitutions are within the scope of the present utility model. Therefore, the protection scope of the present utility model shall be subject to the protection scope of the claims.

Claims (10)

1. A cable direct-connect vibrating rod, comprising:

the vibrating rod head comprises a vibrating rod shell and a vibration generator, and the vibration generator is arranged in the vibrating rod shell;

The connecting cable is a tensile cable, the connecting cable is fixedly connected with the vibrating rod shell relatively, and the inner core wire of the connecting cable is electrically connected with the vibration generator.

2. The cable direct-connect vibrating rod of claim 1, wherein the vibration generator is a high-frequency vibration generator.

3. The cable direct-connect vibrating rod of claim 1, wherein a first end of the connecting cable is fixed relative to the vibrating rod housing, a second end of the connecting cable is provided with a plug, and an inner core wire of the connecting cable is electrically connected with a metal sheet of the plug.

4. The cable direct-connection vibrating rod according to claim 1, wherein the connecting cable comprises a protective outer adhesive layer, the protective outer adhesive layer is wrapped on the outer side of the inner core wire, a tensile reinforcement wire is embedded in the protective outer adhesive layer, the tensile reinforcement wire is distributed along the length direction of the connecting cable, and the vibrating rod shell and the protective outer adhesive layer are fixed and positioned relatively.

5. The direct-connect cable vibration bar of claim 4, wherein the tension-reinforcing wire is a fiber wire.

6. The cable direct-connection vibrating rod according to claim 5, wherein a plurality of fiber filaments are embedded in the protective outer adhesive layer, and the fiber filaments are distributed in an annular array with a center line of the connection cable.

7. The cable direct-connection vibrating rod according to claim 4, wherein the number of the inner core wires is plural, the plurality of the inner core wires are arranged in parallel, the plurality of the inner core wires are distributed in an array with the central positions of the connecting cables, and the first anti-pull wires are clamped at the central positions of the plurality of the inner core wires.

8. The cable direct-connect vibrating rod of claim 7, wherein the inner core wire comprises an inner core protective glue layer, a metal wire and a second tensile wire, the metal wire is coated on the outer side of the metal wire, and the second tensile wire is arranged at the center position of the metal wire.

9. The cable direct-connect vibrating rod of claim 8, wherein the first tensile wire and the second tensile wire are galvanized steel wires.

10. The cable direct-connect vibrating rod according to any one of claims 1 to 9, wherein a controller and an earth leakage protector are provided on the connection cable.