TWM589195U - Bottle cap tightness detection device - Google Patents

Abstract

This creation is a bottle cap tightness detection device, which includes a machine, a pressure unit and a detection unit, the machine includes a base, two uprights and a receiving tray, the upright is erected on the base, the receiving tray is located in front of the base The pressure unit is installed on the machine and includes a driver, a lower module and an upper module. The driver is located on the base, the lower module and the upper module are spanned by two columns, and the detection unit is installed on the machine and includes a pressure The sensor and a display. The pressure sensor is located between the top cover and the upper module. The display is electrically connected to the pressure sensor. The bottle cap tightness detection device drives the lower module to squeeze the bottled container by the driver. The pressure value sensed by the pressure sensor is displayed on the display, which can have a standard detection basis to maintain the sealing quality of the bottled container and the cap.

Description

Bottle cap tightness detection device

This creation is a bottle cap tightness testing device, especially a standardization and data-based bottle cap tightness testing device.

On the production line for the production of bottled beverages, when the bottled container is filled with the contents, it will go through a capping device to rotate the mouth of the bottled container with a cap, and then the contents can be sealed in the bottled container , In order to facilitate the preservation, packaging, transportation and sale of bottled beverages, in order to avoid the occurrence of leakage between the cap of the bottled container and the bottle mouth during the shaking and collision during the packaging and transportation, the bottle mouth of the bottled container After the bottle cap is sealed, the staff will hold the bottle body of the bottled container with both hands and press to apply pressure to detect the tightness of the bottle cap and the bottled container.

However, the tightness of the bottle cap and the bottled container is detected by the manual pressing of the worker. Each time the worker presses the bottle body of the bottled container, the position is slightly different, and the amount of force applied by each pressing is not completely controllable. The same, different force application points and different force application conditions, whether it can meet the tightness of the bottle cap and the bottled container that can withstand shaking and collision is completely subjectively judged by the staff. Due to the individual subjective consciousness of different staff, There is no standard test basis or data-based test results, which results in different test results each time the human hand presses, resulting in a problem that the sealing quality of the bottled container and the bottle cap are different.

The main purpose of this creation is to provide a device for detecting the tightness of bottle caps, so as to improve the existing manual pressure detection without a standard test basis, resulting in different test results and the problem of different sealing quality of bottled containers and caps.

In order to achieve the purpose of pre-disclosure, the device for detecting the tightness of bottle caps includes: A machine, which includes a base, two uprights, a top cover and a receiving tray, the two uprights are erected at intervals on the base, the top cover spans the top of the two uprights, the receiving tray is located In front of the base; A pressure unit, the pressure unit is arranged on the machine table, the pressure unit comprises a driver, a lower module and an upper module, the driver is arranged on the base and is located between the two columns, the lower The module is spanned on the two uprights and connected to the driver, the drive can drive the lower mold to move up and down, and the upper mold is spanned on the two uprights and is located above the lower mold; and A detection unit is provided on the machine. The detection unit includes a pressure sensor and a display. The pressure sensor is located at the bottom of the top cover and is connected to the upper mold of the pressure unit. The display is electrically connected to the pressure sensing element and displays the value sensed by the pressure sensing element.

The device for detecting the tightness of the bottle cap can detect the pressure value that a bottled container can bear, place the bottled container on the lower mold, and drive the lower mold to rise by the driver of the pressure applying unit, so that the lower The module and the upper module can hold the bottled container to be tested, the drive force of the driver is uniform and the lower module is pushed up to the upper module when the upper module is pushed up, the upper module will squeeze the upward The pressure sensing element allows the pressure sensing element to measure pressure data, and the pressure sensing element bears the same pressure as the bottled container. The pressure sensed by the pressure sensing element is displayed as a digital value For the display, the staff can have a standard test basis, so that the test results are close to the same, so that the sealing quality of the bottled container and the bottle cap maintain the same level.

As shown in FIG. 1 and FIG. 2, it discloses a preferred embodiment of the device for inspecting the tightness of the bottle cap. As can be seen from the drawings, the device for inspecting the tightness of the bottle cap includes a machine 10 and a pressure applying unit 20 And a detection unit 30.

The machine 10 includes a base 11, two uprights 12, a top cover 13 and a receiving tray 14. The two uprights 12 are erected on the base 11 at intervals, and the top cover 13 spans the top of the two uprights 12 , The receiving plate 14 is located in front of the base 11, wherein the receiving plate 14 has a plate body 15, a blocking wall 16 and at least one side wall 17, the plate body 15 is located in front of the base 11, the blocking wall 16 Vertically formed on the front edge of the disc body 15, the side wall 17 is formed on the side edge of the disc body 15 and connected to the blocking wall 16.

The pressing unit 20 is disposed on the machine 10. The pressing unit 20 includes a driver 21, a lower module 22 and an upper module 23. The driver 21 is disposed on the base 11 and located between the two uprights 12 The lower mold 22 spans the two uprights 12 and is connected to the driver 21. The drive 21 can drive the lower mold 22 to move up and down. The upper mold 23 spans the two uprights 12 and is located under the Above the module 22, wherein the pressure unit 20 includes a control lever 24 and a rear stopper 25, the control lever 24 is disposed on the base 11 and electrically connected to the driver 21, and the rear stopper 25 is located on The lower mold 22 and the rear stop 25 include an adjustment base 251 and a stop rod 252. The adjustment base 251 is disposed on the lower mold 22 and moves up and down with the lower mold 22. The stop rod 252 can be adjusted forward and backward地設計在這該訂座251。

In the above, the lower mold 22 includes two lower seats 221, a lower plate 222 and a lower mold seat 223, the second lower seat 221 is slidably disposed on the two upright posts 12, and the lower plate 222 spans the second lower seat 221 and connected to the top of the driver 21, the lower mold base 223 is disposed on the top of the lower plate 222, the lower mold base 223 has a lower curved surface 224, the lower arc curved surface 224 is located on the top surface of the lower mold base 223 The upper mold 23 includes two upper slides 231, an upper plate 232, and an upper mold base 233. The two upper slides 231 are slidably disposed on the two uprights 12 and are respectively located above the two lower slides 221, The upper plate 232 spans the two upper slides 231, the upper mold base 233 is located at the bottom of the upper plate 232 and above the lower mold base 223, the upper mold base 233 has an upper curved surface 234, The upper curved surface 234 is located on the bottom surface of the upper mold base 233 and correspondingly faces the lower curved surface 224.

The detection unit 30 is disposed on the machine 10. The detection unit 30 includes a pressure sensor 31 and a display 32. The pressure sensor 31 is disposed on the bottom of the top cover 13 and connected to the pressure unit 20. For the module 23, the display 32 is electrically connected to the pressure sensing element 31 and displays the value sensed by the pressure sensing element 31. In addition, the upper plate 232 is connected to the bottom of the pressure sensing element 31.

As shown in FIGS. 3 and 4, it discloses the operation mode of a preferred embodiment of the device for detecting the tightness of bottle caps. The worker places a bottle container 40 with a bottle cap 41 in the lower mold 22 Up, the bottled container 40 will be placed on the lower mold base 223 of the lower mold 22 and extend into the corresponding lower curved surface 224, the bottled container 40 will abut against the stopper 252 of the rear stopper 25, Then, the control lever 24 is turned to operate the driver 21 to start. As shown in FIGS. 5 and 6, the driver 21 starts to drive the lower mold 22 to move upward, so that the bottle container 40 on the lower mold 22 abuts against the The upper mold 23, the driver 21 will continue to push the lower mold 22 against the upper mold 23, then the bottled container 40 will be subjected to the lower mold base 223 of the lower mold 22 and the upper mold of the upper mold 23 The seat 233 is clamped and clamped, and the driving force of the driver 21 is uniform. The bottled container 40 will abut the upper curved surface 234 and the lower curved surface 224, then the upper mold 23 will be pushed upward to squeeze the pressure The measuring element 31, the pressure sensed by the pressure sensing element 31 is transmitted and displayed on the display 32, and the worker can know the pressure value of the bottled container 40 through the display 32.

In the above, as shown in FIGS. 5 and 6, the bottled container 40 abuts between the upper mold 23 and the lower mold 22. The pressure value of the bottled container 40 is 50Kg/cm2. The upper mold The clamping between the piece 23 and the lower module 22 may also have an error of 10Kg/cm2. The continuous clamping operation is maintained for 15 seconds. If the bottled container 40 does not fall off, the gap 41, the gap or burst For the problem of damage, the contents of the bottled container 40 did not leak out, then the bottled container 40 and the bottle cap 41 have sufficient tightness, and the device for detecting the tightness of the bottle cap can make the pressure of the bottled container 40 data In addition, the bottled containers 40 that are required to be shipped meet the required quality, achieve unified standards, and reduce the occurrence of inconsistent quality.

As shown in FIGS. 7 and 8, when the bottled container 40 has a defect, the cap 41 is insufficiently sealed. During the operation of the pressure unit 20, the cap 41 ruptures and falls on the receiving On the tray 14, the contents of the bottled container 40 will leak and fall on the receiving tray 14, wherein the bottle cap 41 can be broken, popped, and bounced off by the blocking wall 16 of the receiving tray 14 and fall on the tray 14 The tray body 15 prevents the bottle cap 41 from spraying accidentally and causing industrial safety accidents, and the tray body 15 can receive the contents of the bottled container 40 to prevent the contents from splashing and avoid the surrounding environment from being cleaned by the contents splashing Difficult situations occur.

In addition, the control rod 24 of the bottle cap tightness detection device of the present invention can control the driver 21 to be pushed up to facilitate the operation of the staff. The upper mold 23 and the lower mold 22 have corresponding upper arc curved surfaces 234 and the lower arc The curved surface 224 can prevent the bottled container 40 from slipping when placed, and can concentrate the applied pressure on the bottled container 40, the second sliding seat 221 and the two upper sliding seats 231 can make the lower plate 222 and the The upper plate 232 slides smoothly and steadily between the two uprights 12, so that the pressure unit 20 can hold the bottled container 40 more smoothly, and the detection unit 30 can measure more accurately The measurement error caused by the friction between the column 12 and the upper module 23, and the rear stopper 25 can be adjusted according to the length of the bottle body 40 of the bottled container to be tested, and the stopper rod 252 can be placed on the adjustment seat 251 By adjusting the front and rear positions, the distance between the stopper 252 and the upper mold 23 and the lower mold 22 can be adjusted. When the bottled container 40 is placed in the lower mold 22, the bottled container 40 will abut When the stopper 252 is reached, the rear stopper 25 can be used as an auxiliary structure for positioning the bottled container 40, then the original bottle cap tightness detection device can detect bottled containers 40 of different sizes (200ml~520ml) without replacement The upper module 23 and the lower module 22 or the rear stopper 25 are more convenient for the staff to detect.

In summary, the device for detecting the tightness of the bottle cap by the driver 21 of the pressure unit 20 pushes the lower mold 22 upward, so that the lower mold 22 and the upper mold 23 can hold the bottle to be inspected For the container 40, the driving force of the driver 21 is uniform, and the pressure received by the bottled container 40 is sensed by the pressure sensor 31 of the detection unit 30, and the sensed pressure is displayed on the display as a digitalized value 32. Let the staff have a standard test basis, so that the test results tend to be consistent, so that the sealing quality of the bottled container 40 and the bottle cap 41 maintain the same level.

10‧‧‧machine 11‧‧‧Base 12‧‧‧pillar 13‧‧‧Top cover 14‧‧‧Take the plate 15‧‧‧ plate body 16‧‧‧retaining wall 17‧‧‧Sidewall 20‧‧‧Pressure unit 21‧‧‧Drive 22‧‧‧lower module 221‧‧‧Slide seat 222‧‧‧Lower plate 223‧‧‧Lower mold base 224‧‧‧Lower arc surface 23‧‧‧ Upper module 231‧‧‧Upper slide 232‧‧‧upper board 233‧‧‧ Upper mold base 234‧‧‧Curved surface 24‧‧‧Control lever 25‧‧‧Rear stop 251‧‧‧Adjustable seat 252‧‧‧Ball 30‧‧‧Detection unit 31‧‧‧Pressure sensor 32‧‧‧Monitor 40‧‧‧Bottled containers 41‧‧‧ bottle cap

Fig. 1: A schematic side view of a preferred embodiment of the device for detecting the tightness of a bottle cap. Fig. 2: A schematic rear view of a preferred embodiment of the device for detecting the tightness of the bottle cap. Fig. 3: A schematic side view of the placement of one preferred embodiment of the bottle cap tightness testing device of the present invention. Figure 4: A schematic view of the rear view of a preferred embodiment of the bottle cap tightness testing device of the present invention. Figure 5: A side schematic view of the squeezed form of a preferred embodiment of the bottle cap tightness testing device of the present invention. Fig. 6: A schematic view of a squeezed state of a preferred embodiment of a bottle cap tightness detection device of the present invention. Fig. 7: A schematic side view of the bursting state of one preferred embodiment of the bottle cap tightness detection device of the present invention. Figure 8: A schematic view of the explosion of one preferred embodiment of the bottle cap tightness detection device of the present invention.

10‧‧‧machine

11‧‧‧Base

12‧‧‧pillar

13‧‧‧Top cover

14‧‧‧Take the plate

15‧‧‧ plate body

16‧‧‧retaining wall

17‧‧‧Sidewall

20‧‧‧Pressure unit

21‧‧‧Drive

22‧‧‧lower module

221‧‧‧Slide seat

222‧‧‧Lower plate

223‧‧‧Lower mold base

224‧‧‧Lower arc surface

23‧‧‧ Upper module

231‧‧‧Upper slide

232‧‧‧upper board

233‧‧‧ Upper mold base

234‧‧‧Curved surface

24‧‧‧Control lever

25‧‧‧Rear stop

251‧‧‧Adjustable seat

252‧‧‧Ball

30‧‧‧Detection unit

31‧‧‧Pressure sensor

32‧‧‧Monitor

Claims (7)

A bottle cap tightness detection device, comprising: A machine, which includes a base, two uprights, a top cover and a receiving tray, the two uprights are erected at intervals on the base, the top cover spans the top of the two uprights, the receiving tray is located In front of the base; A pressure unit, the pressure unit is arranged on the machine table, the pressure unit comprises a driver, a lower module and an upper module, the driver is arranged on the base and is located between the two columns, the lower The module is spanned on the two uprights and connected to the driver, the drive can drive the lower mold to move up and down, and the upper mold is spanned on the two uprights and is located above the lower mold; and A detection unit is provided on the machine. The detection unit includes a pressure sensor and a display. The pressure sensor is located at the bottom of the top cover and is connected to the upper mold of the pressure unit. The display is electrically connected to the pressure sensing element and displays the value sensed by the pressure sensing element. The bottle cap tightness detection device according to claim 1, wherein the lower mold includes two lower seats, a lower plate and a lower mold seat, the two lower seats are slidably provided on the two upright posts, and the lower plate spans The lower mold base is provided on the top of the lower plate, the lower mold base is provided on the top of the lower plate, the lower mold base has a lower curved surface, the lower arc curved surface is located on the top surface of the lower mold base, the The upper mold part includes two upper slide seats, an upper plate and an upper mold seat, the two upper slide seats are slidably provided on the two upright posts and are respectively located above the two lower slide seats, and the upper plate is spanned on the two The sliding base is connected to the bottom of the pressure sensing element. The upper mold base is located at the bottom of the upper plate and above the lower mold base. The upper mold base has an upper arc curved surface, and the upper arc curved surface is located at the The bottom surface of the upper mold base is corresponding to the lower arc curved surface. The bottle cap tightness detection device according to claim 1, wherein the receiving tray has a tray body, a retaining wall and at least one side wall, the tray system is located in front of the base, and the retaining wall is formed upright on the tray At the front edge of the body, the side wall is formed at the side edge of the disc body and connected to the blocking wall. The bottle cap tightness detection device according to claim 2, wherein the receiving tray has a tray body, a retaining wall and at least one side wall, the tray system is located in front of the base, and the retaining wall is formed upright on the tray At the front edge of the body, the side wall is formed at the side edge of the disc body and connected to the blocking wall. The bottle cap tightness detection device according to any one of claims 1 to 4, wherein the pressure applying unit includes a control lever, the control lever is disposed on the base and electrically connected to the driver. The bottle cap tightness detection device according to any one of claims 1 to 4, wherein the pressure applying unit includes a rear stopper, the rear stopper is provided on the lower mold, and the rear stopper includes an adjustment A seat and a stop rod. The adjusting seat is provided on the lower mold part and moves up and down with the lower mold part. The stop rod can be provided on the adjusting seat to adjust back and forth. The bottle cap tightness detection device according to claim 5, wherein the pressure applying unit includes a rear stopper, the rear stopper is provided on the lower mold, the rear stopper includes an adjustment seat and a stopper lever, The adjusting base is arranged on the lower mold part and moves up and down with the lower mold part, and the blocking rod is arranged on the adjusting base to be adjusted back and forth.

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