CN220613821U - Bottle cap screwing device with sensor - Google Patents

Abstract

The utility model relates to the technical field of wrenches, in particular to a bottle cap screwing device with a sensor, which comprises a handle, wherein one end of the handle is provided with a cap screwing assembly and a sensor, the cap screwing assembly comprises a soft belt and a stress arc strip, the stress arc strip is arranged in an arc shape and is arranged corresponding to the position of the soft belt, one side of the soft belt is provided with concave teeth for corresponding to a bottle cap, the other side of the soft belt is in butt joint with the stress arc strip, the sensor is connected with the stress arc strip and is used for detecting the torque of the stress arc strip, one end of the handle, which is far away from the stress arc strip, is provided with a processor for processing data and a display screen for displaying the data of the processor, the stress arc strip transmits the torque to the sensor after the handle rotates, the sensor deformation signal is amplified and converted into a digital signal through the high-frequency sampling and filtering of the processor, the acquired digital signal is calculated and processed, and finally the torque value is displayed on the screen, and the bottle cap is twisted accurately according to the specified torque value, so that the condition that the bottle cap is not screwed or excessively screwed is reduced.

Description

Bottle cap screwing device with sensor

Technical Field

The utility model relates to the technical field of wrenches, in particular to a bottle cap screwing device with a sensor.

Background

On the production line of chemical industry, medical mill, in order to ensure the quality that bottle lid bolt was screwed up, prevent that the bottle lid from becoming flexible and leading to the material in the bottle to flow out in the transportation, need use the bottle lid spanner to screw up the bottle lid generally, but the bottle lid spanner under the prior art is handed by the workman generally, manual screw up the bottle lid, but because individual strength is different, also more difficult control when exerting a force, consequently the condition that the bottle lid can't be screwed up or the too tight of screwing up leads to the bottle lid to damage appears very easily, the quality of bottle lid bolt consequently is difficult to obtain guaranteeing.

Disclosure of Invention

In order to solve the problem that the bottle cap is damaged due to the fact that the force is difficult to control and the bottle cap wrench is easy to screw up or screw up too tightly, the application provides a bottle cap screwing device with a sensor.

The utility model provides a bottle lid device is twisted to area sensor formula, includes the handle, the one end of handle is provided with twists lid subassembly and sensor, twist the lid subassembly and include soft area and atress arc strip, the atress arc strip is the arcuation setting and corresponds the position setting in soft area, soft area one side is equipped with the concave tooth that is used for corresponding the bottle lid, the opposite side with atress arc strip butt, the sensor is connected and is used for detecting the moment of torsion of atress arc strip with the atress arc strip, the handle is provided with the treater that is used for handling data and is used for the display screen of display processor data in the one end of keeping away from the atress arc strip.

Through adopting above-mentioned technical scheme, soft area is hugged closely the bottle lid and is produced torsion, can drive the bottle lid and rotate under concave tooth increase friction's effect, the handle is rotated back atress arc strip and is transmitted torsion to the sensor, sensor deformation signal is through amplifying, analog-to-digital conversion, make it become digital signal and through the high-frequency sampling of treater, the filtering, calculate and handle the digital signal who gathers, at last show the moment of torsion value on the screen, the staff can be according to the moment of torsion value that prescribes, more accurate torsion bottle lid, reduce the bottle lid and do not screw up or excessively screw up the condition.

Optionally, the sensor is provided with the foil gage towards atress arc strip, foil gage one end and sensor fixed connection, the other end with atress arc strip fixed connection, deformation transmission moment of torsion data to sensor behind the atress arc strip atress.

Through adopting above-mentioned technical scheme, set up the torsion that the atress arc strip can be more sensitive to set up the foil gage on the sensor to more accurate acquisition moment of torsion value makes more accurate when torsion, further reduces the bottle lid and does not screw up or excessively screw up the condition.

Optionally, the handle is provided with the installation piece in one side that is close to atress arc strip, it has the mounting groove to open on the installation piece, the mounting groove corresponds the shape setting in soft area, the mounting groove runs through the installation piece setting, be provided with the screw on the soft area, be provided with the screw hole that is used for supplying the screw embedding on the installation piece.

Through adopting above-mentioned technical scheme, set up the installation piece and set up mounting groove and a screw groove, soft area is fixed with screw embedding screw inslot after can buckling after passing the mounting groove for soft area can be adjusted according to the size of bottle lid for soft area can correspond the bottle lid of equidimension difference.

Optionally, the soft belt is further provided with a plurality of opposite screwing screws, the opposite screwing screws are fixedly connected with the soft belt, and the opposite screwing screws are detachably connected.

Through adopting above-mentioned technical scheme, set up a plurality of screw that twist, can fix between the soft area after buckling, shorten soft area length, reduce soft area overlength and appear the condition that influences bottle lid rotation such as shake.

Optionally, a buzzer and an indicator lamp are further arranged at one end, far away from the stressed arc strip, of the handle, and the indicator lamp and the buzzer work after the torque value acquired by the sensor exceeds a set value.

By adopting the technical scheme, when the torque value exceeds the set value, the indicator lamp and the buzzer prompt the staff to stop rotating the handle immediately, so that the condition that the bottle cap is not screwed or excessively screwed is further reduced.

Optionally, the stress arc strip is provided with inner arc teeth towards one side of the soft belt, and the soft belt is provided with meshing teeth corresponding to the inner arc teeth.

By adopting the technical scheme, the inner circular arc teeth can be meshed with the meshing teeth on the soft belt, so that the soft belt can conduct torsion to the sensor more stably.

Optionally, the engagement teeth are disposed at a 90 degree angle.

By adopting the technical scheme, the angle of the meshing teeth is smaller, the number of teeth of the meshing teeth is more, so that the meshing between the meshing teeth and the inner circular arc teeth is tighter, the transmission of torsion is more accurate, and the accuracy of torque measurement is further improved.

Optionally, the concave teeth are disposed at an angle of 120 degrees.

Through adopting above-mentioned technical scheme, concave tooth angle is great, can form bigger frictional force with between the bottle lid to the bottle lid can be more stable along with soft area rotation when making the handle rotate, further improves torque measurement's degree of accuracy.

Optionally, a key is further arranged at a position of the handle, which is close to the display screen, and the key is used for controlling the processor.

By adopting the technical scheme, when the bottle caps are different in size, the processor can be adjusted through the keys according to the positions of the stress points of the bottle caps, so that the torque data is more accurate.

In summary, the present application has at least the following beneficial effects:

1. the utility model provides a because the difficult control of exerting oneself, use bottle lid spanner to appear can't screw up easily or screw up the problem that leads to the bottle lid to damage, this application is through setting up sensor and display screen, can rotate the bottle lid through the soft belt buckle, in the rotatory process, atress arc strip department can receive torsional force, the atress arc strip can pass through the foil gage with torsional force and transmit to the sensor, the sensor is through amplifying, processes such as analog-to-digital conversion are with torsional force conversion digital signal transmission to the treater, the treater is the torque value with digital signal processing again, the staff only need rotate according to prescribed torque value on the display screen, torque value on the display screen is the same with prescribed torque value can stop the rotation, thereby reduce the bottle lid and not screw up and screw up the condition of crossing of screwing up completely.

2. The application still is provided with bee calling organ and pilot lamp, and when the torque value exceeded the torque value that sets for be, bee calling organ can work with the pilot lamp, reminds the staff to stop rotatory, reduces the too tight condition that leads to the bottle lid to damage of screwing up.

Drawings

Fig. 1 is a top view of the present embodiment.

Fig. 2 is a top view of the present embodiment, mainly for showing the condition inside the handle.

Reference numerals illustrate:

1. a handle; 11. a stress arc strip; 111. inner circular arc teeth; 12. a mounting block; 121. a mounting groove; 122. screw holes;

2. a soft belt; 21. a screw; 22. oppositely screwing screws; 23. concave teeth; 24. meshing teeth;

3. a sensor; 31. a strain gage; 32. a signal line; 4. a processor; 41. a display screen; 42. a buzzer; 43. an indicator light; 44. a key;

Detailed Description

The present application is further described in detail below with reference to fig. 1-2 by way of specific examples.

The utility model provides a bottle lid device is twisted to area sensor 3 formula, as shown in fig. 1 and fig. 2, including handle 1, the one end of handle 1 is provided with twists the lid subassembly, twists the lid subassembly and includes soft area 2 and atress arc strip 11, and atress arc strip 11 is the arcuation setting and corresponds the position setting of soft area 2. The stress arc strip 11 is fixedly connected with the handle 1, a mounting block 12 is arranged on one side of the handle 1 close to the stress arc strip 11, a penetrating mounting groove 121 is formed in the mounting block 12, and the mounting groove 121 is arranged corresponding to the shape of the soft belt 2. The end of the soft belt 2 is fixedly provided with a screw 21, the mounting block 12 is provided with a screw 21 hole 122 corresponding to the shape of the screw 21, the soft belt 2 is fixedly provided with two opposite screwing screws 22 beside the screw 21, and the opposite screwing screws 22 are fixedly connected with the soft belt 2. In specific implementation, as shown in fig. 1, a section of the soft belt 2 passes through the mounting groove 121, the end of the soft belt 2 passes through the mounting groove 121 and is bent, the bent screw 21 is aligned with the hole 122 of the screw 21 and is embedded into the hole, two opposite screw 22 are detachably connected in a screwing manner after the soft belt 2 is bent, the size of the soft belt 2 can be adjusted within a certain range according to the size of the bottle cap, and the soft belt 2 can be made of materials with higher strength and toughness such as nylon or silica gel.

As shown in fig. 1 and 2, a concave tooth 23 is arranged on one side of the soft belt 2, the concave tooth 23 is arranged along the soft belt 2, the concave tooth 23 is arranged at an angle of 120 degrees, a meshing tooth 24 is arranged on the other side and is abutted against the stress arc strip 11, the meshing tooth 24 is arranged at an angle of 90 degrees, the stress arc strip 11 is provided with an inner arc tooth 111 corresponding to the meshing tooth 24, and the inner arc tooth 111 is meshed with the meshing tooth 24. In specific implementation, the concave teeth 23 of the soft belt 2 are abutted against the bottle cap, and the meshing teeth 24 are meshed with the inner circular arc teeth 111, so that the soft belt 2 can be driven by the stress arc strips 11, and the soft belt 2 can drive the bottle cap to rotate.

As shown in fig. 1 and 2, a sensor 3 is further disposed on the side of the handle 1 where the screw cap assembly is disposed, the sensor 3 is disposed inside the handle 1, and the sensor 3 is provided with a strain gauge 31 toward the stress arc 11. One end of the strain gauge 31 is fixedly connected with the sensor 3, and the other end is fixedly connected with the stress arc strip 11. The handle 1 is also internally provided with a processor 4 and a display screen 41, and the processor 4 and the display screen 41 are integrally arranged. A buzzer 42 and an indicator light 43 are further arranged at one end, far away from the stress arc strip 11, of the handle 1, and the buzzer 42 and the indicator light 43 are connected with the processor 4. A key 44 is also arranged on the handle 1 near the display 41, and the case is electrically connected with the processor 4. In specific implementation, the processor 4 includes a single chip microcomputer, as shown in fig. 2, the processor 4 is electrically connected with the sensor 3 through a signal line 32, the stress arc 11 is deformed to transfer torque data to the sensor 3, the sensor 3 transfers the data to the processor 4 and then is displayed by the display screen 41, when the torque data exceeds a set value, the buzzer 42 and the indicator lamp 43 work, the case can control the processor 4, and when the bottle caps are different in size, the distance between the stress points of the bottle caps can be adjusted, so that the torque accuracy is improved.

Working principle: firstly, the soft belt 2 is adjusted according to the size of a bottle cap, the soft belt 2 is fixedly sleeved on the bottle cap, the concave teeth 23 of the soft belt 2 are abutted against the bottle cap, the bottle cap can be rotated by rotating the handle 1, the stress arc bar 11 is stressed after the bottle cap is rotated, the strain gauge 31 is stressed and deformed accordingly, the sensor 3 receives data after the strain gauge 31 is deformed and transmits the data into the processor 4, torque data are obtained after the processing of the processor 4, the torque data are displayed through the display screen 41, when the torque value is larger than a set value, the buzzer 42 works with the indicator lamp 43, and when the bottle cap is different in size, the processor 4 can be adjusted through the key 44 according to the distance between the stress point and the sensor 3.

The foregoing is a preferred embodiment of the present application, and is not intended to limit the scope of the present application in this way, therefore: all equivalent changes in structure, shape and principle of this application should be covered in the protection scope of this application.

Claims (9)

1. The utility model provides a bottle lid device is twisted to area sensor (3) which characterized in that: including handle (1), the one end of handle (1) is provided with twists lid subassembly and sensor (3), twist lid subassembly and include soft area (2) and atress arc strip (11), atress arc strip (11) are arcuation setting and correspond the position setting of soft area (2), soft area (2) one side be equipped with be used for corresponding concave tooth (23) of bottle lid, the opposite side with atress arc strip (11) butt, sensor (3) are connected and are used for detecting the moment of torsion of atress arc strip (11) with atress arc strip (11), handle (1) are provided with processor (4) that are used for handling data and are used for display screen (41) of display processor (4) data in the one end that keeps away from atress arc strip (11).

2. A device for screwing caps with sensors (3) according to claim 1, characterized in that: the sensor (3) is provided with a strain gauge (31) towards the stress arc strip (11), one end of the strain gauge (31) is fixedly connected with the sensor (3), the other end of the strain gauge is fixedly connected with the stress arc strip (11), and the stress arc strip (11) deforms after being stressed to transmit torque data to the sensor (3).

3. A device for screwing caps with sensors (3) according to claim 1, characterized in that: the handle (1) is provided with installation piece (12) in the one side that is close to atress arc strip (11), it has mounting groove (121) to open on installation piece (12), the shape setting of soft area (2) is corresponding to mounting groove (121), mounting groove (121) run through installation piece (12) and set up, be provided with screw (21) on soft area (2), be provided with on installation piece (12) and be used for supplying screw (21) embedded screw (21) hole (122).

4. A device for screwing caps with sensor (3) according to claim 3, characterized in that: the soft belt (2) is further provided with a plurality of opposite screwing screws (22), the opposite screwing screws (22) are fixedly connected with the soft belt (2), and the opposite screwing screws (22) are detachably connected.

5. A device for screwing caps with sensors (3) according to claim 1, characterized in that: a buzzer (42) and an indicator lamp (43) are further arranged at one end, far away from the stress arc strip (11), of the handle (1), and the indicator lamp (43) and the buzzer (42) work after the torque value obtained by the sensor (3) exceeds a set value.

6. A device for screwing caps with sensors (3) according to claim 1, characterized in that: the inner circular arc teeth (111) are formed in one side, facing the soft belt (2), of the stress arc strip (11), and meshing teeth (24) are arranged on the soft belt (2) corresponding to the inner circular arc teeth (111).

7. The bottle cap screwing device with sensor (3) according to claim 6, characterized in that: the meshing teeth (24) are arranged at an angle of 90 degrees.

8. A device for screwing caps with sensors (3) according to claim 1, characterized in that: the concave teeth (23) are arranged at an angle of 120 degrees.

9. A device for screwing caps with sensors (3) according to claim 1, characterized in that: the position of the handle (1) close to the display screen (41) is also provided with a key (44), and the key (44) is used for controlling the processor (4).