CN221744894U - Electronic measuring instrument for customizing ring size - Google Patents

Abstract

The utility model discloses an electronic measuring instrument for customizing the size of a ring, which comprises an electric device, a measuring device, a control device, a fixing device and an outer shell, wherein the control device is arranged in the electric device, a locking key is arranged on one side of the control device, a starting and stopping key is arranged on one side of the locking key, the bottom end of the starting and stopping key is provided with the measuring device, the bottom end of the measuring device is connected with the outer shell, and the fixing device is arranged on the outer surface of the outer shell. This customization ring size electronic measuring apparatu, the gear of motor drive input shaft, and the gear of output shaft is then driven and rotates, drives the belt by the gear and rotates, plays locking or loosening the effect to cause the scale on the belt to change in order to reach the purpose of measuring the finger girth, soft belt is polyester fiber belt, has excellent intensity and wearability, and better stretchability and resilience, and polyester fiber belt long service life, light in weight, the gas permeability is good, harmless to the human body.

Description

Electronic measuring instrument for customizing ring size

Technical Field

The utility model relates to the technical field of jewelry customization, in particular to an electronic measuring instrument for customizing the size of a ring.

Background

For the traditional measurement of the ring size flexible rule, the measurement by using the flexible rule is complex, has larger error and poor accuracy, and influences the customization effect; the flexible rule is used for measuring, so that not only is the manpower wasted, but also time is consumed, when a customer needs to measure the sizes of a plurality of fingers, the sizes of the plurality of fingers cannot be measured quickly, the efficiency is low, the speed is low, and the flexibility is poor; the flexible rule is worn and torn due to frequent use, so that the scales on the flexible rule are fuzzy, and the flexible rule needs to be replaced frequently, so that not only is the cost wasted, but also the flexible rule needs to be stored with great effort, and otherwise, knotted situations are caused, and therefore, the electronic measuring instrument for customizing the ring size is provided.

Disclosure of utility model

The utility model aims to provide an electronic measuring instrument for customizing the size of a ring, which solves the problems in the background art.

In order to achieve the above purpose, the present utility model provides the following technical solutions: the utility model provides a customization ring size electronic measurement appearance, includes electric device, measuring device, controlling means, fixing device and shell body, electric device's inside is provided with controlling means, and one side of controlling means is provided with locking button, one side of locking button is provided with opens and ends the button, and opens the bottom of ending the button and be provided with measuring device, measuring device's bottom is connected with the shell body, and shell body's external surface is provided with fixing device, one side of controlling means is connected with the transmission shaft, and the top surface mounting spring self-locking device of transmission shaft, the bottom surface of transmission shaft is provided with the motor, and the top outside of motor is provided with the spring, transmission shaft center surface mounting has the pinion, and the one end of pinion is connected with the gear wheel, release button is installed on the top of spring self-locking device, and release button's one end is provided with the cover flange, pressure sensor has been cup jointed to the bottom of transmission shaft, and the outside surface mounting of cover flange has soft belt, spring self-locking device includes shell and lock core, and the internally mounted of shell is equipped with the endotheca.

Further, the inner diameter of the outer shell is matched with the outer diameter of the inner lock cylinder sleeve, and the inner lock cylinder sleeve is in clamping connection with the outer shell.

Further, the motor is connected with the transmission shaft in a sleeved mode, and the transmission shaft is connected with the spring.

Furthermore, the large gear and the small gear are in meshed connection, and the large gear is in sleeved connection with the transmission shaft.

Furthermore, the spring self-locking device is connected with the release button in an embedded way, and the release button is connected with the electric device.

Further, the outer shell is connected with the soft belt in a clamping way, and the soft belt is a polyester fiber belt.

Further, the electric device is electrically connected with the control device, and the control device consists of two control keys, namely a round start-stop key and a square locking key.

Compared with the prior art, the utility model has the beneficial effects that:

The electronic measuring instrument for customizing the ring size is provided with the spring self-locking device at the tail end of the transmission shaft through the device, when a user presses a corresponding key, the button can apply pressure to the spring, the spring can be compressed and deformed due to the elasticity of the spring, when the spring is compressed to a certain extent, the spring can enter a self-locking point, at the position, the spiral lines of the two self-locking devices connected with the spring are mutually tightly embedded to form a stable state, and the button cannot rebound by itself. By pressing the button again and applying sufficient pressure, the spring will be further compressed, overcoming the self-locking condition, causing the button to rebound.

The electric device is arranged at the top of the instrument and comprises a battery, a pinion, a transmission shaft and a spring self-locking device, and is mainly used for providing electric energy for the measuring device and the control device, wherein the measuring device is composed of a flexible belt with scales, the flexible belt is connected with the electric device and can directly read the size of fingers, the sensor is arranged in the electric device, the pressure sensor can monitor the pressure value in the system in real time through the monitoring of the sensor, the abnormal condition is analyzed and identified, corresponding measures are timely taken to ensure the safety of equipment and personnel, the control device is composed of three control keys and a main control circuit, the three keys are respectively connected with the main control circuit, and the main control circuit is responsible for decision making and generates corresponding control instructions.

The fixing device is a simple mechanical structure and consists of an upper clamping piece and a lower clamping piece, and is used for realizing the fixing function of the clamping belt, ensuring that the belt cannot slide or loose, and changing the rotating speed and torque of the output shaft through the engagement between the big and small gears on the output shaft and the big and small gears on the input shaft. Thereby play locking or loosening the effect, the soft belt of used measurement is polyester fiber belt, and it has excellent intensity and wearability, possesses better stretchability and resilience simultaneously, long service life, light in weight, and the gas permeability is good, and is harmless to the human body, and this measuring device adopts light and handy, portable design, conveniently carries and uses, and the user can carry out ring size measurement anytime and anywhere, saves time, improves work efficiency.

Drawings

FIG. 1 is a schematic view of a three-dimensional structure of an electronic measuring instrument for ring size in an embodiment of the utility model;

FIG. 2 is a schematic perspective view showing the details of the gear structure according to the embodiment of the present utility model;

FIG. 3 is a schematic diagram of a three-dimensional structure of a spring self-locking device according to an embodiment of the present utility model;

fig. 4 is a schematic perspective view of an assembled connection between a flexible belt and a transmission shaft according to an embodiment of the present utility model.

In the figure: 1. an electric device; 2. a measuring device; 3. a control device; 4. a fixing device; 5. an outer housing; 6. a spring self-locking device; 601. an outer shell; 602. a lock cylinder inner sleeve; 7. a transmission shaft; 8. a motor; 9. a soft belt; 10. a pressure sensor; 11. a start-stop key; 12. releasing the key; 13. locking the key; 14. a large gear; 15. a pinion gear; 16. a spring; 17. and (5) sleeving the tray.

Detailed Description

The utility model is further described with reference to the following detailed drawings in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the implementation of the utility model easy to understand.

Examples: the utility model provides an electronic measuring instrument for customizing ring size, which is shown in figures 1-4, and comprises an electric device 1, a measuring device 2, a control device 3, a fixing device 4 and a shell body 5, wherein the control device 3 is arranged in the electric device 1, a locking key 13 is arranged on one side of the control device 3, a starting and stopping key 11 is arranged on one side of the locking key 13, the measuring device 2 is arranged at the bottom end of the starting and stopping key 11, the shell body 5 is connected at the bottom end of the measuring device 2, the fixing device 4 is arranged on the outer surface of the shell body 5, a transmission shaft 7 is connected at one side of the control device 3, a spring self-locking device 6 is arranged on the top surface of the transmission shaft 7, a motor 8 is arranged on the bottom surface of the transmission shaft 7, a spring 16 is arranged outside the top end of the motor 8, a pinion 15 is arranged on the central surface of the transmission shaft 7, one end of the pinion 15 is connected with a large gear 14, the top end of the spring self-locking device 6 is provided with a release button 12, one end of the release button 12 is provided with a sleeve joint disc 17, the bottom end of a transmission shaft 7 is sleeved with a pressure sensor 10, the outer surface of the sleeve joint disc 17 is provided with a soft belt 9, the spring self-locking device 6 comprises an outer shell sleeve 601 and an inner lock cylinder sleeve 602, the inner shell sleeve 602 is arranged in the outer shell sleeve 601, the inner diameter size of the outer shell sleeve 601 is matched with the outer diameter size of the inner lock cylinder sleeve 602, the inner lock cylinder sleeve 602 is in clamping connection with the outer shell sleeve 601, the spring self-locking device 6 is in embedded connection with the release button 12, the release button 12 is connected with an electric device 1, the tail end of the transmission shaft 7 of the device is provided with the spring self-locking device 6, when a user presses the corresponding button, the button can apply pressure to the spring 16, due to the elasticity of the spring 16, the button can be compressed and deformed, when the spring 16 is compressed to a certain extent, the spring 16 will enter a self-locking point, and in this position, the spiral lines of the two spring self-locking devices 6 connected with the spring 16 are tightly engaged with each other to form a stable state, so that the button cannot rebound by itself, and by pressing the button again and applying enough pressure, the spring 16 will be further compressed, overcoming the self-locking state, and making the button rebound.

In order to directly read the size of fingers without additional calculation or conversion units, visualization and visualization are realized, as shown in fig. 1-2, the outer shell 5 and the soft belt 9 are in clamping connection, the soft belt 9 is a polyester fiber belt, the motor 8 and the transmission shaft 7 are in sleeved connection, the transmission shaft 7 is connected with the spring 16, the large gear 14 and the small gear 15 are in meshed connection, the large gear 14 and the transmission shaft 7 are in sleeved connection, the electric device 1 and the control device 3 are in electric connection, the control device 3 consists of two control keys, namely a round start-stop key 11 and a square locking key 13, the electric device 1 is arranged at the top of the instrument and is mainly used for providing electric energy for the measuring device 2 so as to realize the directional rotation of the driving measuring device 2, the electric device 1 converts the electric energy of a battery into driving force acting on the transmission shaft 7, the transmission shaft 7 is connected with a large gear 14 and a small gear 15, so that the rotation speed and torque of an output shaft can be changed through the engagement between the large gear and the small gear on the transmission shaft 7 and the large gear and the small gear on the input shaft, in the process, the motor 8 drives the large gear 14 of the input shaft, the small gear 15 of the output shaft is driven, the flexible belt 9 is driven to rotate by the gears to play the locking or loosening effect, thereby causing the scale change on the flexible belt 9 to achieve the purpose of measuring the finger circumference, the measuring device 2 is composed of the flexible belt 9 with scales, the flexible belt 9 is a polyester fiber belt which has excellent strength and wear resistance, better stretchability and rebound resilience, the polyester fiber belt has long service life, light weight and good air permeability, is harmless to human body and is connected with the electric device 1, the flexible belt 9 is driven to rotate by the driving of the electric device 1, the instruction of the control device 3 is received to lock or loosen the finger, the scales are marked on the flexible belt 9, the size of the finger can be directly read, no additional calculation or conversion unit is needed, and visual visualization is realized.

Finally, in order to ensure that the belt cannot slide or loosen, as shown in fig. 1, the pressure sensor 10 is positioned in the electric device 1, the pressure sensor 10 measures the pressure value through a precise measurement technology, the pressure sensor reaches a set proper pressure threshold value, the transmission shaft 7 immediately stops transmission, the safety of the device is ensured, in addition, the main controller can record and analyze the pressure data acquired by the sensor, the subsequent data analysis and system optimization are facilitated, the traceability and the continuous improvement of the system are enhanced, the control device 3 consists of two control keys and a main control circuit, namely a round start-stop key 11, a square locking key 13, the two keys are connected with the main control circuit, the main control circuit acquires input signals from the external environment and other equipment including a motor 8 and the like through the two keys of the control device 3 and the sensors as information interfaces, the main control circuit can make a decision according to the processed signals and generate corresponding control instructions, the generated control instructions are transmitted to a corresponding execution unit, namely a motor 8, the action of the execution unit is controlled by the driving circuit, when a user presses a round start-stop button 11, the control device 3 outputs a start signal to the controlled equipment to start working, at the moment, the round start-stop button 11 can keep a pressed state until the equipment stops working or the user presses the start-stop button 11 again to stop the equipment, when the user presses a square locking button 13, the control device 3 outputs a locking command to the electric device 1 to drive a transmission shaft 7 to drive a flexible belt 9 to drive in a relevant direction until the proper tightness degree of the user is reached, the fixing device 4 is a simple mechanical structure and consists of an upper clamping piece and a lower clamping piece to realize the function of clamping the belt, when the user starts the device, the fixing mechanical device can ensure that the belt cannot slide or loose through the restraining force of the clamping piece.

To sum up: when the electronic measuring instrument for customizing the ring size is used, firstly, the electric device 1 converts electric energy of a battery into driving force acting on the transmission shaft 7, the transmission shaft 7 is connected with the large gear 14 and the small gear 15, so that the rotating speed and torque of the output shaft can be changed through engagement between the large gear and the small gear on the output shaft and the large gear and the small gear on the input shaft, then when a user presses a corresponding key, the button can apply pressure to the spring 16, the electronic measuring instrument can be compressed and deformed, when the spring 16 is compressed to a certain extent, the spring 16 enters a self-locking point, at the position, the spiral lines of the two spring self-locking devices 6 connected with the spring 16 are tightly embedded with each other, a stable state is formed, the button cannot rebound by itself, the spring 16 can be further compressed by pressing the release key 12 again, the self-locking state is overcome, the button rebounds, when the user presses the round start key 11, the round start key 11 keeps pressing state until the equipment stops running or the user presses the start key 11 again to stop the equipment, then the user presses the stop key 11 to read the equipment, the corresponding size by the electronic measuring instrument, the whole size is directly, and finally, the electronic measuring instrument is marked by the corresponding size is read by the user, and the electronic measuring instrument is directly, and the corresponding size is marked by the transmission shaft 9, and the electronic measuring instrument is directly convenient, and the size is directly marked by the transmission 9.

The foregoing is only the embodiments of the present utility model, and therefore, the patent scope of the utility model is not limited thereto, and all equivalent structures made by the description of the utility model and the accompanying drawings are directly or indirectly applied to other related technical fields, which are all within the scope of the utility model.

Claims (7)

1. The utility model provides a customization ring size electronic measurement appearance, includes electric device (1), measuring device (2), controlling means (3), fixing device (4) and shell body (5), its characterized in that: the inside of electric device (1) is provided with controlling means (3), and one side of controlling means (3) is provided with locking button (13), one side of locking button (13) is provided with opens and ends button (11), and opens the bottom of ending button (11) and be provided with measuring device (2), measuring device (2)'s bottom is connected with shell body (5), and shell body (5)'s external surface is provided with fixing device (4), one side of controlling means (3) is connected with transmission shaft (7), and the top surface installation spring self-locking device (6) of transmission shaft (7), the bottom surface of transmission shaft (7) is provided with motor (8), and the top outside spring (16) that is provided with of motor (8), transmission shaft (7) central surface mounting has pinion (15), and the one end of pinion (15) is connected with gear wheel (14), release button (12) are installed on the top of spring self-locking device (6), and release button (12)'s one end is provided with sleeve dish (17), the bottom of transmission shaft (7) has cup jointed pressure sensor (10), and outer sleeve (6) of outer sleeve (602) and outer sleeve (602) are equipped with soft sleeve (602), and a lock core inner sleeve (602) is arranged in the outer shell sleeve (601).

2. The electronic measuring instrument for customizing ring sizes according to claim 1, wherein the inner diameter of the outer shell (601) is matched with the outer diameter of the inner lock cylinder sleeve (602), and the inner lock cylinder sleeve (602) is in clamping connection with the outer shell (601).

3. The electronic measuring instrument for customizing ring sizes according to claim 1, wherein the motor (8) is connected with the transmission shaft (7) in a sleeved mode, and the transmission shaft (7) is connected with the spring (16).

4. The electronic measuring instrument for customizing ring sizes according to claim 1, wherein the large gear (14) is in meshed connection with the small gear (15), and the large gear (14) is in sleeved connection with the transmission shaft (7).

5. The electronic measuring instrument for customizing ring sizes according to claim 1, wherein the spring self-locking device (6) is connected with the release button (12) in an embedded way, and the release button (12) is connected with the electric device (1).

6. The electronic measuring device for customized ring sizes as claimed in claim 1, wherein said outer shell (5) is snap-fit with a flexible belt (9), and said flexible belt (9) is a polyester fiber belt.

7. The electronic measuring instrument for customizing ring sizes according to claim 1, wherein the electric device (1) is electrically connected with the control device (3), and the control device (3) consists of two control keys, namely a round start-stop key (11) and a square locking key (13).