阅读说明：本技术 一种绑紧气缸同时锁紧传感器的新型绑带 (Novel binding band for binding air cylinder and locking sensor simultaneously ) 是由 黄超 李丽 于 2019-09-02 设计创作，主要内容包括：一种绑紧气缸同时锁紧传感器的新型绑带,包括不锈钢绑带,不锈钢绑带一端安装有第一不锈钢片,不锈钢绑带另一端安装有第二不锈钢片,第一不锈钢片和第二不锈钢片表面成型有圆孔,第一不锈钢片和第二不锈钢片之间设有绑带透明支架；绑带透明支架底部沿其长度方向成型有用于传感器插入的凹槽；不锈钢绑带的另一端为活动端,活动端插入透明绑带支架,并且与第二不锈钢片焊接,第二不锈钢片在绑带透明支架内根据紧锁螺丝的旋钮而改变其活动行程；不锈钢绑带具备为多个适应气缸外径大小不一而设计的不同绑带长度零件包；使工作感应灵敏度的状态最佳,磁感应开关的功能稳定性最佳；关键零件的材料选用为不可带磁,从而不影响磁感应开关的功能稳定性。(A novel binding band for tightly binding a cylinder and simultaneously locking a sensor comprises a stainless steel binding band, wherein one end of the stainless steel binding band is provided with a first stainless steel sheet, the other end of the stainless steel binding band is provided with a second stainless steel sheet, round holes are formed in the surfaces of the first stainless steel sheet and the second stainless steel sheet, and a transparent binding band support is arranged between the first stainless steel sheet and the second stainless steel sheet; a groove for inserting the sensor is formed at the bottom of the transparent bandage bracket along the length direction of the transparent bandage bracket; the other end of the stainless steel bandage is a movable end, the movable end is inserted into the transparent bandage bracket and is welded with the second stainless steel sheet, and the second stainless steel sheet changes the movable stroke of the second stainless steel sheet in the transparent bandage bracket according to a knob for locking a screw; the stainless steel binding band is provided with a plurality of part bags with different binding band lengths which are designed to adapt to different sizes of the outer diameters of the cylinders; the state of the work induction sensitivity is optimal, and the functional stability of the magnetic induction switch is optimal; the material of key parts is selected to be non-magnetic, so that the functional stability of the magnetic induction switch is not influenced.)

1. A novel binding belt for tightly binding a cylinder and simultaneously locking a sensor is characterized by comprising a stainless steel binding belt, wherein one end of the stainless steel binding belt is provided with a first stainless steel sheet, the other end of the stainless steel binding belt is provided with a second stainless steel sheet, round holes are formed in the surfaces of the first stainless steel sheet and the second stainless steel sheet, and a transparent binding belt support is arranged between the first stainless steel sheet and the second stainless steel sheet; a groove for inserting the sensor is formed at the bottom of the transparent bandage support along the length direction of the transparent bandage support, and the side walls of two ends of the groove are respectively attached to the first stainless steel sheet and the second stainless steel sheet; one end of the stainless steel bandage is a fixed end, is inserted into the transparent bandage bracket and is welded and fixed on the transparent bandage bracket together with the first stainless steel sheet; the other end of the stainless steel bandage is a movable end, the movable end is inserted into the transparent bandage support and welded with the second stainless steel sheet, and the second stainless steel sheet changes the movable stroke of the second stainless steel sheet in the transparent bandage support according to the knob for locking the screw.

2. A novel tie-up for tying up a cylinder and simultaneously locking a sensor according to claim 1, wherein the locking screw is made of stainless steel without magnetism.

3. A novel tie down for tightening a cylinder and locking a sensor as claimed in claim 1, wherein the first stainless steel sheet and the second stainless steel sheet are made of non-magnetic material.

4. A novel tie down for tightening cylinders and locking sensors as claimed in claim 1, wherein the stainless steel tie down is made of non-magnetic stainless steel and is made of an extremely thin and foldable material with flexibility and elastic shape recovery.

5. A novel tie down for tightening a cylinder and locking a sensor as claimed in claim 1, wherein the stainless steel tie down is thinner than the first and second stainless steel sheets.

Technical Field

The invention relates to the field of fixing devices of any circular cylinder, in particular to a novel binding belt for binding the cylinder and locking a sensor at the same time.

Background

The sensor is a standard part and needs to be fixed on the outer diameter surface of the circular cylinder, meanwhile, the locking force requirement is proper, the working position of the sensor is not affected when the sensor is shaken by work, and meanwhile, the sensor needs to be quickly loosened to adjust the micro position and can be quickly and re-locked, the invention can realize that the bandage which does not have the invention in the existing market is convenient and quick and has low manufacturing cost by selecting the structural principle and materials and matching a plurality of simple parts, and the specific implementation is that the fixed end and the movable end of the stainless steel sheet of the bandage bypass the left and right acting force of the universal locking screw on the outer diameter of the cylinder to realize left and right sliding, the acting diameter of the bandage is changed, the change of the error diameter of the outer diameter of the cylinder within the range of 0.5MM is eliminated;

because the external diameter specification that market cylinder was used is different, the length through 5 stainless steel bandages of part matches differently according to different cylinder external diameter sizes, concrete formula: the length of the binding band = the perimeter of the outer diameter of the cylinder +14.0 MM;

because the sensor is a magnetic induction switch, the sensor is required to be in zero-distance contact with the surface of the cylinder, the working induction sensitivity state of the sensor is optimal, and the functional stability of the magnetic induction switch is influenced because the key point cannot be met in the existing market. The novel application method of the invention is completely provided and embodied in the binding band locking process.

The sensor is a magnetic induction switch, so that the part material of the sensor binding band is required to be absolutely non-magnetic, and the sensor binding band has a considerable structural strength, and the sensing sensitivity of the sensor is influenced when the sensor binding band works due to the fact that the material is magnetic, so that the novel application method completely has the key point that the key point cannot be met due to the fact that the material is magnetic in the market, and the key part is made of engineering plastic PC material without magnetic stainless steel or non-magnetic material, so that the functional stability of the magnetic induction switch is not influenced.

Disclosure of Invention

The present invention aims to overcome the above-mentioned shortcomings and provide a technical solution to solve the above-mentioned problems.

A novel binding band for tightly binding a cylinder and simultaneously locking a sensor comprises a stainless steel binding band, wherein one end of the stainless steel binding band is provided with a first stainless steel sheet, the other end of the stainless steel binding band is provided with a second stainless steel sheet, round holes are formed in the surfaces of the first stainless steel sheet and the second stainless steel sheet, and a transparent binding band support is arranged between the first stainless steel sheet and the second stainless steel sheet; a groove for inserting the sensor is formed at the bottom of the transparent bandage support along the length direction of the transparent bandage support, and the side walls of two ends of the groove are respectively attached to the first stainless steel sheet and the second stainless steel sheet; one end of the stainless steel bandage is a fixed end, is inserted into the transparent bandage bracket and is welded and fixed with the first stainless steel sheet on the transparent bandage bracket; the other end of the stainless steel bandage is a movable end, the movable end is inserted into the transparent bandage support and welded with the second stainless steel sheet, and the second stainless steel sheet changes the movable stroke of the second stainless steel sheet in the transparent bandage support according to the knob for locking the screw.

As a further scheme of the invention: the locking screw is made of stainless steel without magnetism.

As a further scheme of the invention: the first stainless steel sheet and the second stainless steel sheet are made of non-magnetic materials which do not influence the work of the magnetic sensor.

As a further scheme of the invention: the stainless steel band is made of a non-magnetic stainless steel material, and is extremely thin and made of a foldable material having flexibility and elastic shape recovery.

As a further scheme of the invention: the thickness of the stainless steel bandage is lower than the first stainless steel sheet and the second stainless steel sheet.

Compared with the prior art, the invention has the beneficial effects that: 1. the fastening of the stainless steel bandage is realized by adjusting the movable end of the stainless steel bandage to be matched with a fastening screw left and right; 2. the stainless steel binding band is provided with a plurality of part bags with different binding band lengths which are designed to adapt to different sizes of the outer diameters of the cylinders; 3. the magnetic sensor is always in zero-distance contact with the outer diameter surface of the cylinder, so that the working induction sensitivity state of the magnetic sensor is optimal, and the functional stability of the magnetic induction switch is optimal; 4. the material of the key parts is absolutely not capable of being magnetized, so that the functional stability of the magnetic induction switch is not influenced.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention 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, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without creative efforts.

FIG. 1 is an assembly view of the structure of the present invention.

Figure 2 is an exploded view of the strap/sensor/cylinder of the present invention.

Fig. 3 is a detail view of the strap of the present invention.

Fig. 4 is an assembled sectional view of the band of the present invention.

Fig. 5 is a schematic view of the welding of the straps of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 3 and 5, in the embodiment of the present invention, a novel binding band for tightly binding a cylinder and simultaneously locking a sensor includes a stainless steel binding band 5, wherein one end of the stainless steel binding band 5 is provided with a first stainless steel sheet 3, the other end of the stainless steel binding band 5 is provided with a second stainless steel sheet 4, round holes 41 are formed on the surfaces of the first stainless steel sheet 3 and the second stainless steel sheet 4, and a transparent binding band support 2 is arranged between the first stainless steel sheet 3 and the second stainless steel sheet 4; a groove 21 for inserting a sensor is formed at the bottom of the transparent bandage support 2 along the length direction of the transparent bandage support, and the side walls of two ends of the groove 21 are respectively attached to the first stainless steel sheet 3 and the second stainless steel sheet 4; one end of the stainless steel bandage 5 is a fixed end, is inserted into the transparent bandage bracket 1, and is welded and fixed on the transparent bandage bracket 2 together with the first stainless steel sheet 3; the other end of the stainless steel bandage 5 is a movable end, the movable end is inserted into the transparent bandage support 2 and is welded with the second stainless steel sheet 4, and the second stainless steel sheet 4 changes the movable stroke of the transparent bandage support 2 according to the knob of the locking screw 1.

According to the above technical solution, the following embodiments and working processes are provided, please refer to fig. 2 and 4,

a novel binding band for tightly binding a cylinder and simultaneously locking a sensor comprises a circular cylinder 7 and a stainless steel binding band 5 nested on the circular cylinder 7; a first stainless steel sheet 3 is installed at one end of a stainless steel bandage 5, a second stainless steel sheet 4 is installed at the other end of the stainless steel bandage 5, round holes 41 are formed in the surfaces of the first stainless steel sheet 3 and the second stainless steel sheet 4, and a transparent bandage support 2 is arranged between the first stainless steel sheet 3 and the second stainless steel sheet 4; the transparent bracket 2 of the binding band is provided with a locking screw 1 and a magnetic sensor 6; the bottom of the transparent bracket 2 of the binding band is provided with a groove 21 for inserting the magnetic sensor 6 along the length direction;

one end of the stainless steel bandage 5 is a fixed end, is inserted into the transparent bandage bracket 2, and is welded and fixed on the transparent bandage bracket 2 together with the first stainless steel sheet 3; the other end of the stainless steel bandage 5 is a movable end, and the movable end is inserted into the transparent bandage bracket 3 and is welded with the second stainless steel sheet 4; the movable end of the stainless steel binding band 5 can be provided with a left-right stroke adjustment function, so that the structural requirements of locking and unlocking the magnetic sensor 6 by the change of the locking screw 1 can be met; the magnetic sensor 6 penetrates through a groove 21 at the bottom of the transparent support 2 of the binding band, the magnetic sensor 6 is respectively attached between the first stainless steel sheet 3 and the second stainless steel sheet 4, and a gap is formed between the magnetic sensor 6 and the surface of the circular cylinder 7 by attaching and fixing the first stainless steel sheet 3 and the second stainless steel sheet 4 to the magnetic sensor 6, so that the working induction sensitivity state of the magnetic sensor is optimal, and the functional stability of the magnetic induction switch is optimal; the length of the stainless steel binding band 5 is matched differently according to the external diameters of different circular cylinders, and the specific formula is as follows: band length = cylinder outside diameter circumference +14.0 MM.

With continuing reference to fig. 2 and 4, further: the locking screw 1 and the stainless steel binding band 5 are made of stainless steel materials without magnetism, so that the working principle of the magnetic sensor 6 is met, the interference is avoided, and the normal work can be realized;

further: the magnetic sensor 6 is a sensor deformed and compressed by the acting force of the locking screw 1, so that the working principle of the magnetic sensor 6 is met without interference and the normal work can be realized;

further: the first stainless steel sheet 3 and the second stainless steel sheet 4 are made of non-magnetic materials which do not influence the work of the magnetic sensor 6, so that the working principle of the magnetic sensor 6 is met, the interference is avoided, and the normal work can be realized;

further: the thickness of the stainless steel bandage 5 is smaller than the thickness 4 of the first stainless steel sheet 3 and the second stainless steel sheet;

further: the stainless steel binding band 5 is made of stainless steel binding bands 5 with different lengths according to the size of the outer diameter of the circular cylinder;

it will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.