CN210713860U - Wire winding disc and steel bar binding machine - Google Patents

Abstract

The utility model discloses a wire winding disc and steel bar binding machine, wherein the wire winding disc comprises a rotating shaft and two separation blades, a through hole is axially arranged on the rotating shaft, the two separation blades are respectively arranged at two ends of the rotating shaft, a counter bore is arranged on one end surface of the rotating shaft, a flange connected with the counter bore is arranged on the other end surface of the rotating shaft, the counter bore and the flange are respectively arranged on two end orifices of the through hole, a plurality of fan-shaped identification areas concentric with the rotating shaft are arranged on the outer side surface of one separation blade, the fan-shaped identification areas are distributed along the radial direction of the rotating shaft, and the fan-shaped identification areas are used for matching identification of the wire outlet diameter of; the outer edge of at least one baffle is provided with an iron wire head fixing hole, and the outer circumference of the rotating shaft is provided with a wire penetrating hole. The utility model discloses when can realizing using the steel bar binding machine, can in time judge iron wire circle footpath size to the diameter control that the auxiliary user goes out the wire lopping with the steel bar binding machine is at reasonable within range.

Description

Wire winding disc and steel bar binding machine

Technical Field

The utility model relates to a wire winding dish technical field especially relates to a wire winding dish and steel bar binding machine.

Background

In the using process of the steel bar binding machine, due to the problems of collision, abrasion of iron wire raw materials and parts of the binding machine and the like, the size of wire discharging and looping of the steel bar binding machine can be changed. The diameters of the wire outlet loop of the binding machines with different specifications and models are different, the reasonable range of the diameters of the wire loops is different, and a user cannot easily memorize the diameters of the wire outlet loop of the binding machines with different specifications and models and distinguish whether the sizes of the wire loops are in the reasonable range. Therefore, a quick and simple auxiliary tool is needed for judging the size of the wire outlet loop diameter of the steel bar binding machine. The wire coil used for the reinforcing steel bar binding machine has large using amount, and the wire winding disc used for winding the wire coil is convenient to obtain in use, so that the wire winding disc of the wire coil can be marked, and the wire winding disc becomes a tool for assisting in judging the size of a wire loop.

SUMMERY OF THE UTILITY MODEL

To the technical problem who exists among the prior art, the utility model aims at: the utility model provides a wire winding dish and steel bar binding machine, can realize when using steel bar binding machine, can in time judge the iron wire circle footpath size to supplementary user goes out the diameter control that the wire coiled of steel bar binding machine goes out at reasonable within range.

The purpose of the utility model is realized through the following technical scheme: the anti-collision device comprises a rotating shaft and two blocking pieces, wherein a through hole is formed in the rotating shaft in the axial direction, the two blocking pieces are respectively arranged at two ends of the rotating shaft, a counter bore is formed in one end face of the rotating shaft, a flange connected with the counter bore is formed in the other end face of the rotating shaft, and the counter bore and the flange are respectively arranged at hole openings at two ends of the through hole;

a plurality of fan-shaped identification areas concentric with the rotating shaft are arranged on the outer side surface of one of the baffle plates, the fan-shaped identification areas are distributed along the radial direction of the rotating shaft, and the fan-shaped identification areas are used for matching and identifying the wire outlet diameter of the steel bar binding machine;

the outer edge of at least one baffle is provided with an iron wire head fixing hole, and the outer circumferential surface of the rotating shaft is provided with a wire penetrating hole.

In the wire winding disc, one side of the sector identification area is provided with a mark, and the mark is used for marking the type of the steel bar binding machine corresponding to the sector identification area.

In the above wire winding disc, the sector identification area and the mark are both protrusions on the outer surface of the blocking piece.

In the above wire winding disc, the sector identification areas are symmetrically arranged on the outer side surface of the blocking piece.

In the above winding disc, the diameter of the threading hole is gradually reduced along a direction approaching the rotating shaft.

The wire-forming disk, wherein the diameter of the wire-passing hole ranges from 0.7mm to 1.6 mm.

The above-mentioned wire-forming disk, wherein the diameter of said baffle is less than 64 mm.

A steel bar binding machine comprises the wire winding disc.

The utility model discloses for prior art have following advantage and effect:

the utility model discloses an among wire winding dish and the steel bar binding machine, the wire winding dish is used for the coiling of iron wire book, the iron wire book finished product of coiling is as the supporting consumptive material that uses of steel bar binding machine, the wire winding dish has the requirement of cooperation size with the steel bar binding machine, and through the setting of fan-shaped discernment region, make the user when using the steel bar binding machine, can in time judge the size of iron wire circle footpath, when the adjustment of iron wire circle footpath, can assist the user to go out the diameter control of wire lopping with the steel bar binding machine at reasonable within range. In addition, due to the arrangement of the wire through holes, iron wires can be conveniently arranged from left to right in a layer-by-layer orderly manner during wire winding, the state consistency of the iron wires is ensured, and the use success rate of equipment can be improved; the iron wire head fixing holes are formed, so that the iron wire head is bent, the iron wire is kept in a compact state, and the iron wire is prevented from becoming loose due to vibration and the like in the carrying process.

Drawings

FIG. 1 is a schematic view of a baffle of the present invention;

fig. 2 is a schematic structural view of another baffle of the present invention;

FIG. 3 is a cross-sectional view of a forming drum of the present invention;

FIG. 4 is a side view of the forming drum of the present invention;

FIG. 5 is another cross-sectional view of the forming drum of the present invention;

fig. 6 is a schematic structural view of the threading hole of the present invention.

Description of the drawings: 1. a rotating shaft; 11. a through hole; 12. a counter bore; 13. a flange; 14. threading holes; 2. a baffle plate; 21. a sector identification area; 22. identifying the position; 23. a wire head fixing hole; 3. iron wires; 4. iron wire section.

Detailed Description

The present invention will be described in further detail with reference to the following examples and drawings, but the present invention is not limited thereto.

The utility model discloses a wire winding disc, as shown in figure 1 and figure 2, comprising a rotating shaft 1 and two separation blades 2, wherein the rotating shaft 1 is axially provided with a through hole 11, the two separation blades 2 are respectively arranged at two ends of the rotating shaft 1, the separation blades 2 are wafers (the diameter of the separation blade 2 is less than 64mm), and the separation blade 2 is fixedly connected with the rotating shaft 1 in a center coincidence way; one end face of the rotating shaft 1 is provided with a counter bore 12, the other end face of the rotating shaft 1 is provided with a flange 13 connected with the counter bore 12, the counter bore 12 and the flange 13 are respectively arranged on orifices at two ends of the through hole 11, wherein the counter bore 12 is a sunken step formed by an orifice at one end of the through hole 11, the flange 13 is an annular structure formed by extending an orifice at the other end of the through hole 11, when the wire winding box locking button of the steel bar binding machine is inserted into the counter bore 12, a hole of the flange 13 is assembled into a wire winding box of the steel bar binding machine, and a wire winding disc is further installed into the wire winding box of the steel bar binding machine and can rotate around a central shaft of the rotating shaft 1 (related patent: application No. 2015101937. X, publication No. CN104806023B, name: a wire winding box locking mechanism of the steel bar binding machine). In addition, the shape of the counter bore 12 is matched with the shape of the flange 13, so that a plurality of wire winding discs can be stacked up and down, the flange 13 of the wire winding disc positioned above is arranged in the counter bore 12 of the wire winding disc positioned below or the counter bore 12 of the wire winding disc positioned above is matched with the flange 13 of the wire winding disc positioned below, and therefore, the orderly stacking is realized, the mutual interference is avoided, and the packaging and the transportation are facilitated. It should be noted that the forming disk of the present application is an improvement based on the earlier patents of the present company, application No.: 201620955549.0, publication No.: CN206051172U, name: a wire-forming disk.

Set up a plurality of fan-shaped identification area 21 concentric with pivot 1 on the lateral surface (side is level and smooth in addition) of one of them separation blade 2, a plurality of fan-shaped identification area 21 are along pivot 1's radial distribution, as shown in fig. 1, a plurality of not concentric fan-shaped identification area 21 of equidimension show the control range in different iron wire circle footpaths, fan-shaped identification area 21 is used for the reinforcing bar binding machine to go out the matching discernment of silk diameter, during the use, the reinforcing bar binding machine of corresponding model is marked in every fan-shaped identification area 21 setting that corresponds, the play silk circle diameter size of corresponding model reinforcing bar binding machine promptly, it can to match the fan-shaped identification area 21 that corresponding scale mark. Specifically, one side of the sector identification area 21 is provided with an identification part 22, the identification part 22 is used for identifying the type of the reinforcing steel bar binding machine corresponding to the sector identification area 21, for example, the size of the wire outlet ring diameter of the reinforcing steel bar binding machine of the type "20", the sector identification area 21 of the identification part 22 marked with the mark "20" on the wire winding disc is corresponding, and so on, for the sizes of the wire outlet ring diameters of the reinforcing steel bar binding machines of different types, the sector identification area 21 of the corresponding scale is corresponding. When the diameter of the wire loop is in the corresponding sector identification area 21, the wire loop diameter of the steel bar binding machine of the type meets the requirement, the steel bar binding machine can be normally used, and a good binding effect is achieved. In a specific application, to avoid visual interference, the marks 22 of adjacent sector identification areas 21 are arranged opposite to each other, for example, the sector identification area 21 of the mark 22 marked with "40" is located at the left side of the sector identification area 21, and the sector identification area 21 of the mark 22 marked with "35" is located at the right side of the sector identification area 21. Further, the sector identification area 21 and the mark 22 are both protrusions of the outer surface of the baffle plate, and the height of the protrusions is 0.1 mm. The arrangement of the protrusions facilitates a more intuitive identification of the different sector identification areas 21. Further, the sector-shaped identification areas 21 are symmetrically disposed on the outer side surface of the baffle plate 2, and as is apparent from fig. 1, the sector-shaped identification area 21 on one side of the outer side surface of the baffle plate 2, which has the center point of the rotating shaft 1 as a central symmetry point, and the same sector-shaped identification area 21 on the other side of the outer side surface of the baffle plate 2.

Iron wire head fixed orifices 23 have been seted up to the outward flange of at least one separation blade 2, and the quantity of iron wire head fixed orifices 23 is a plurality of, and its even symmetric distribution is on the edge of separation blade 2. As shown in fig. 3, fig. 4, fig. 5 and fig. 6, a threading hole 14 is formed in the outer circumferential surface of the rotating shaft 1, the diameter of the threading hole 14 is gradually reduced (the condition of large top and small bottom is presented) along the direction close to the rotating shaft 1, the structure of the threading hole 14 facilitates the passing of the iron wire 3, meanwhile, the tail end of the iron wire 3 is not easy to be dragged out by a machine (a steel bar binding machine), the position of the existing threading hole 14 is generally in the middle of a wire winding disc, the threading hole 14 is arranged on the side, the advantage that the side of the threading hole 14 is arranged is that the iron wire 3 can be conveniently arranged from left to right during wire winding, and the iron wire is orderly arranged layer by layer, the consistency of the state of the iron wire 3 is ensured, and the success rate of wire. Specifically, the diameter range of the wire penetrating hole is 0.7mm-1.6 mm.

A reinforcing bar binding machine comprises the wire winding disc. As shown in fig. 5, when the wire winding disc of the present application is used in cooperation with a steel bar binding machine, the iron wire 3 is inserted into the wire feeding hole 14 of the wire winding disc before wire winding, and then wire winding is started to insert the iron wire 3 into the wire feeding hole 14, the tail end of the iron wire 3 can be tied into the iron wire section 4, and the iron wire 3 is not taken out of the wire winding disc when the iron wire is consumed.

Since other configurations of the wire-winding plate have been disclosed in the prior patent of the present company (hereinafter referred to as the prior patent, publication No. CN206051172U), the working principle of the wire-winding plate and the reinforcing bar binding machine is briefly described herein in conjunction with the improvements of the prior patent and the present application: when the steel bar binding machine works, the wire ring bin lock button of the steel bar binding machine can be inserted into the counter bore 12, and then the hole of the flange 13 at the other end is assembled into the wire ring bin of the steel bar binding machine, so that the wire winding disc is installed in the wire ring bin of the steel bar binding machine and rotates around the center of the rotating shaft; during winding, after the starting end of the iron wire 3 penetrates into the wire penetrating hole 14, the starting end of the iron wire 3 is bent, the iron wire 3 enters into the guide groove (namely, the structure in the prior patent, which exists in the application but is not marked in the drawing), then wire winding is performed, the starting end of the iron wire 3 is bent, the starting end of the iron wire 3 penetrates into the wire penetrating hole 14 and extends into the through hole 11, then the starting end of the iron wire 3 is bent by extending into the bending tool in the through hole 11, so that the starting end of the iron wire 3 is fixed in the wire penetrating hole 14, and the situations that the iron wire 3 is pulled out or loosened from the wire penetrating hole 14 due to overlarge pulling force in the wire winding process, so that the wire winding fails, and the iron wire 3 is loose and disordered after wire winding is completed can be seen, and a large pulling force can be applied during wire winding, so that the iron wire 3 is tightly wound; after the wire winding is completed, the iron wire head can be bent after penetrating into the iron wire head fixing hole 23, so that the iron wire 3 is kept in a compact state, and the iron wire is prevented from becoming loose due to vibration and the like in the carrying process.

The above embodiments are preferred embodiments of the present invention, but the embodiments of the present invention are not limited to the above embodiments, and any other changes, modifications, substitutions, combinations, and simplifications which do not depart from the spirit and principle of the present invention should be equivalent replacement modes, and all are included in the scope of the present invention.

Claims (8)

1. A wire winding disc is characterized by comprising a rotating shaft and two blocking pieces, wherein a through hole is formed in the rotating shaft in the axial direction, the two blocking pieces are respectively arranged at two ends of the rotating shaft, a counter bore is formed in one end face of the rotating shaft, a flange connected with the counter bore is formed in the other end face of the rotating shaft, and the counter bore and the flange are respectively arranged at hole openings at two ends of the through hole;

a plurality of fan-shaped identification areas concentric with the rotating shaft are arranged on the outer side surface of one of the baffle plates, the fan-shaped identification areas are distributed along the radial direction of the rotating shaft, and the fan-shaped identification areas are used for matching and identifying the wire outlet diameter of the steel bar binding machine;

the outer edge of at least one baffle is provided with an iron wire head fixing hole, and the outer circumferential surface of the rotating shaft is provided with a wire penetrating hole.

2. The forming disk of claim 1, wherein: and one side of the fan-shaped identification area is provided with a mark, and the mark is used for marking the type of the steel bar binding machine corresponding to the fan-shaped identification area.

3. The forming disk of claim 2, wherein: the sector identification area and the mark are both bulges on the outer surface of the baffle plate.

4. The forming disk of claim 1, wherein: the fan-shaped identification areas are symmetrically arranged on the outer side surface of the blocking piece.

5. The forming disk of claim 1, wherein: the diameter of the wire penetrating hole is gradually reduced along the direction close to the rotating shaft.

6. The forming disk of claim 1, wherein: the diameter range of the wire penetrating hole is 0.7mm-1.6 mm.

7. The forming disk of claim 1, wherein: the diameter of the baffle plate is smaller than 64 mm.

8. A reinforcing bar binding machine, characterized by comprising the wire winding plate according to any one of claims 1 to 7.

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