CN220270309U - Glass bottle tooth root external diameter detection device - Google Patents

Abstract

The utility model relates to the technical field of glass bottle detection, and provides a glass bottle tooth root outer diameter detection device which aims at the problems that the existing detection device needs PCL sensor, high-speed camera and other equipment, has poor economy and is not easy to popularize, and comprises a box body, wherein a measurement assembly and a placement assembly are arranged in the box body, and the placement assembly can be used for placing and limiting a bottle to be detected; the lantern ring in the measuring assembly is in sliding connection with the inner side wall of the box body, and the lantern ring can be sleeved on the bottle mouth of the bottle to be measured; one end of the telescopic rod in the measuring assembly is detachably connected with the inner top of the box body, one end of the telescopic rod, which is far away from the top of the box body, can be extended to the inside of the sleeve ring, and the telescopic rod is close to one end of the sleeve ring and the inner side wall surface of the sleeve ring are detachably connected, whether the sleeve ring is completely sleeved on the bottle mouth to be measured or not is determined, whether the telescopic rod stretches into the sleeve ring or not is supported by the tooth root, whether the tooth root outer diameter of the bottle to be measured meets the standard or not can be conveniently and rapidly determined, and the measuring device is economical and practical.

Description

Glass bottle tooth root external diameter detection device

Technical Field

The utility model relates to the technical field of glass bottle detection, in particular to a glass bottle tooth root outer diameter detection device.

Background

The matching degree of the bottle mouth and the bottle cap of the glass bottle directly influences the product performance, for example, if the external diameter of the tooth root of the rotating tooth of the glass bottle is smaller, the interference size of the glass bottle and the bottle cap is smaller, and the slipping phenomenon is easy to occur when the bottle cap is rotated; if the diameter of the external diameter geometric dimension of the bottle mouth tooth is larger than the required diameter of the bottle cap, the bottle cap is forced to be pressed and assembled, and the shell of the bottle cap is easy to break; if the fit clearance between the bottle mouth and the bottle cap is too large, liquid leakage and the like are easy to occur. Therefore, when the glass bottle is produced and processed, the outer diameter of the tooth root of the glass bottle is required to be detected, and unqualified products are timely checked. The detection of current glass bottle tooth root external diameter is through the manual work utilizes slide caliper to measure, and efficiency is extremely low. In recent years, vial detection has gradually shifted to automated and semi-automated.

As disclosed in the patent with publication number CN216791117U, a device for detecting the bottle mouth of a high-strength glass bottle is disclosed, and the combination of the conveying component and the bottle mouth detecting component makes it possible to detect the diameter of the bottle mouth during the processing of the glass bottle, so that the glass bottle which does not meet the requirements can be detected; through the arrangement of the anti-skid grooves, the glass bottles are not easy to slide when conveyed on the conveyor belt; through the arrangement of the anti-collision soft cushion, the glass bottle is not easy to damage even touching the guide channel in the conveying process; the device is convenient to move by the arrangement of the rollers; the plurality of rollers are arranged, so that the device is more stable in placement and movement, and the skew of the device is avoided; the problem that the production efficiency of the glass bottle is seriously affected by the fact that the efficiency is low, time and labor are wasted and errors are large is solved by the fact that the measurement work of the bottle mouth of the glass bottle is mostly manually participated through the combination arrangement of the components. But this detection device detects through the range finding sensor that sets up at bottleneck both ends, still uses equipment such as PCL sensor, high-speed camera, has the economic nature poor, difficult problem of popularization.

Therefore, there is a need for an economical and practical device for detecting the outer diameter of the tooth root of a glass bottle, which can rapidly detect and improve the working efficiency.

Disclosure of Invention

The utility model aims to solve the problems that the existing detection device needs to adopt PCL sensors, high-speed cameras and other equipment, so that the economical efficiency is poor and the popularization is difficult. The application provides a glass bottle tooth root external diameter detection device, can realize economical and practical, can short-term test, improve work efficiency's technological effect.

The utility model is realized by the following technical scheme:

the device for detecting the external diameter of the tooth root of the glass bottle comprises a box body, wherein a measuring assembly and a placing assembly are arranged in the box body; the measuring assembly comprises a lantern ring and a plurality of telescopic rods, the lantern ring is in sliding connection with the inner side wall of the box body, the lantern ring can be sleeved on the bottle mouth of the bottle to be measured, one end of each telescopic rod is detachably connected with the inner top of the box body, one end of each telescopic rod, which is far away from the top of the box body, can be extended to the position in the lantern ring, and one end, which is close to the lantern ring, of each telescopic rod is detachably connected with the inner side wall surface of the corresponding lantern ring.

Preferably, a connecting rod is arranged on the outer side wall of the lantern ring, and one end of the connecting rod, which is far away from the lantern ring, is in sliding connection with the inner side wall surface of the box body; the box body is close to the inner side wall of the connecting rod and is provided with a first sliding rail, and the first sliding rail is arranged along the vertical direction; the connecting rod is close to one end of the first sliding rail is provided with a first sliding block, and the first sliding block is in sliding connection with the first sliding rail.

Preferably, a first indication mark line is arranged on the side wall surface of the first sliding rail; the outer wall surface of the telescopic rod is provided with a second indication mark.

Preferably, the placing component comprises a bottom plate and a placing table, the bottom plate is movably connected with the inner bottom of the box body, the placing table is configured on the surface of the bottom plate, which is close to the lantern ring, a groove is formed in the surface of the placing table, and the groove can limit the bottle to be tested.

Preferably, the side wall surface of the bottom plate is provided with a second sliding block, and a second sliding rail is arranged at a position, close to the second sliding block, of the side wall surface in the box body, and the second sliding block is in sliding connection with the second sliding rail, so that the bottom plate can reciprocate along the side wall surface in the box body.

Preferably, the box body is provided with a box door, and the box door can be used for allowing the bottom plate and the bottle to be tested to enter and exit the box body.

Preferably, the telescopic rod is provided with a first motor, and a penetrating shaft of the first motor is detachably connected with the telescopic rod.

Preferably, the first slider is provided with a second motor, and a penetrating shaft of the second motor is detachably connected with the first slider.

Preferably, the second slider is provided with a third motor, and a penetrating shaft of the third motor is detachably connected with the second slider.

The technical scheme of the utility model has the following beneficial effects:

(1) The inner diameter of the lantern ring is the size which can be just sleeved into the bottle mouth of the glass bottle with the tooth root outer diameter as a standard value, the first sliding block arranged on the inner side wall of the box body is driven by the second motor to slide in the first sliding rail arranged on the inner side wall of the box body, so that the lantern ring slides in the vertical direction, and if the lantern ring can be sleeved on the bottle mouth of the bottle to be tested, the tooth root outer diameter of the bottle to be tested is smaller than the inner diameter of the lantern ring; if the lantern ring can not be sleeved in, the external diameter of the tooth root of the measured bottle is larger than the internal diameter of the lantern ring, and the external diameter of the tooth root of the measured bottle can be judged to be inconsistent with the standard.

The diameter of the telescopic rod is the maximum value of the difference between the external diameter of the tooth root and the size of the sleeve ring allowed by production. When the external diameter of the tooth root of the bottle to be tested is smaller than the internal diameter of the lantern ring, the first motor drives one end of the telescopic rod, which is far away from the top of the box body, to extend into the lantern ring, and one end of the telescopic rod, which is close to the lantern ring, is detachably connected with the inner side wall surface of the lantern ring, when the telescopic rod extends into the lantern ring and is propped against the tooth root, the external diameter of the tooth root of the bottle to be tested is indicated to be close to the internal diameter of the lantern ring, and the external diameter of the tooth root of the bottle to be tested can be judged to meet the standard; when the telescopic rod stretches into the sleeve ring and is not propped against by the tooth root, the external diameter of the tooth root of the measured bottle can be judged to be smaller than the internal diameter of the sleeve ring and larger than the internal diameter of the sleeve ring in size, and the external diameter of the tooth root of the measured bottle can be judged to be inconsistent with the standard.

(2) The first indication mark is the position where the first sliding block slides to the first sliding rail when the lantern ring is completely sleeved into the bottle mouth of the bottle to be tested. The second indication mark is that the external diameter of the tooth root of the measured bottle is close to the internal diameter of the lantern ring, when the standard is met, the telescopic rod stretches into the lantern ring to be propped against the tooth root, and one end of the telescopic rod close to the lantern ring is contacted with the top of the inner wall surface of the lantern ring. Whether the lantern ring is completely sleeved into the bottle mouth of the bottle to be tested can be judged through the first indication mark, so that whether the external diameter of the tooth root of the bottle to be tested is smaller than the internal diameter of the lantern ring is judged; whether the telescopic rod stretches into the sleeve ring can be judged to be propped against the tooth root of the bottle to be tested or not through the second indication mark, so that whether the tooth root outer diameter of the bottle to be tested is close to the inner diameter of the sleeve ring or whether the tooth root outer diameter of the bottle to be tested is far smaller than the inner diameter of the sleeve ring is judged. The first indication mark and the second indication mark are arranged to be favorable for quickly judging whether the external diameter of the tooth root of the bottle to be tested meets the standard.

(3) The groove arranged on the surface of the placing table can limit the bottle to be tested. The second sliding block is in sliding connection with the second sliding rail, so that the bottom plate is movably connected with the inner bottom of the box body, the third motor can drive the second sliding block to reciprocate along the inner side wall surface of the side of the box body, and the box body is provided with a whole box door, so that the bottom plate and the bottle to be tested can enter and exit the box body.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings that are needed in the embodiments will be briefly described below, it being understood that the following drawings only illustrate some embodiments of the present utility model and therefore should not be considered as limiting the scope, and other related drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the apparatus for detecting the outer diameter of the root of a glass bottle in example 1;

fig. 2 is a schematic diagram of the internal structure of the device for detecting the external diameter of the tooth root of the glass bottle in embodiment 1 (when the collar is not sleeved and the telescopic rod is not inserted);

FIG. 3 is a schematic diagram showing the internal structure of the device for detecting the external diameter of the tooth root of the glass bottle in the embodiment 1 (when the collar is sleeved and the telescopic rod is extended);

fig. 4 is a schematic circuit diagram of the device for detecting the outer diameter of the tooth root of the glass bottle in example 1.

Reference numerals: 1-box, 11-first slide rail, 111-first instruction marking, 12-second slide rail, 2-lantern ring, 21-connecting rod, 211-first slider, 22-second motor, 3-telescopic link, 31-second instruction marking, 32-first motor, 4-bottle under test, 5-bottom plate, 51-placing table, 52-second slider, 53-third motor, 6-power, 7-controller.

Detailed Description

For the purpose of making the objects, technical solutions and advantages of the embodiments of the present utility model more apparent, the technical solutions of the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model, and it is apparent that the described embodiments are some embodiments of the present utility model, but not all embodiments of the present utility model. The components of the embodiments of the present utility model generally described and illustrated in the figures herein may be arranged and designed in a wide variety of different configurations.

Thus, the following detailed description of the embodiments of the utility model, as presented in the figures, is not intended to limit the scope of the utility model, as claimed, but is merely representative of selected embodiments of the utility model. All other embodiments, which can be made by those skilled in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

It should be noted that: like reference numerals and letters denote like items in the following figures, and thus once an item is defined in one figure, no further definition or explanation thereof is necessary in the following figures.

Example 1

As shown in fig. 1 to 4, the present embodiment provides a device for detecting the external diameter of the root of a glass bottle, which comprises a box body 1, wherein a placement component configured in the box body 1 can be used for placing and limiting a bottle 4 to be tested.

The lantern ring 2 in the measuring assembly arranged in the box body 1 is in sliding connection with the inner side wall of the box body 1, the lantern ring 2 can be sleeved on the bottle mouth of the measured bottle 4, and if the lantern ring 2 can be sleeved on the bottle mouth of the measured bottle 4, the outer diameter of the tooth root of the measured bottle 4 is smaller than the inner diameter of the lantern ring 2; if the lantern ring 2 can not be sleeved in, the external diameter of the tooth root of the measured bottle 4 is larger than the internal diameter of the lantern ring 2, and the external diameter of the tooth root of the measured bottle can be judged to be inconsistent with the standard.

One end of a plurality of telescopic rods 3 in the measuring assembly is welded with the inner top of the box body 1, one end of the telescopic rods 3, which is far away from the top of the box body 1, can extend into the lantern ring 2, one end of the telescopic rods 3, which is close to the lantern ring 2, is abutted against the inner side wall surface of the lantern ring 2, when the telescopic rods 3 extend into the lantern ring 2 and are abutted against by tooth roots, the tooth root outer diameter of the bottle 4 to be measured is indicated to be close to the inner diameter of the lantern ring 2, and the tooth root outer diameter of the bottle 4 to be measured can be judged to meet the standard; when the telescopic rod 3 stretches into the lantern ring 2 and is not propped by the tooth root, and the stretching length is longer, the outer diameter of the tooth root of the measured bottle 4 can be judged to be smaller than the inner diameter of the lantern ring 2 and larger than the inner diameter of the lantern ring 2 in size difference, and the outer diameter of the tooth root of the measured bottle 4 can be judged to be inconsistent with the standard.

The inner diameter of the lantern ring 2 in the embodiment is the size which can be just sleeved into the bottle mouth of the glass bottle with the tooth root outer diameter as the standard value; the diameter of the telescopic rod 3 is the maximum value of the difference between the external diameter of the tooth root allowed for production and the dimensions of the collar 2. Through the removal of lantern ring 2 and telescopic link 3, can short-term test glass bottle tooth root external diameter accords with the standard, improves work efficiency, economical and practical.

In this embodiment, a first slider 211 is disposed at one end of the connecting rod 21 disposed on the outer side wall of the collar 2 near the first sliding rail 11, and the first slider 211 can slide in the first sliding rail 11 disposed on the inner side wall of the box 1 near the connecting rod 21 along the vertical direction, so that one end of the connecting rod 21 far away from the collar 2 is slidably connected with the inner side wall surface of the box 1, which is favorable for moving the collar 2 along the vertical direction to be sleeved into the bottle mouth of the bottle 4 to be tested.

In this embodiment, the first indication mark 111 provided on the side wall surface of the first sliding rail 11 can conveniently determine whether the collar 2 is completely sleeved into the bottle mouth of the bottle 4 to be tested, so as to be beneficial to determining whether the external diameter of the tooth root of the bottle 4 to be tested is smaller than the internal diameter of the collar 2; the second indicating mark 31 that the outer wall surface of telescopic link 3 set up can conveniently judge whether telescopic link 3 stretches into in the lantern ring 2 can be supported by the tooth root of survey bottle 4 to be favorable to judging whether the tooth root external diameter of survey bottle 4 is close to lantern ring 2 internal diameter, or the tooth root external diameter of survey bottle 4 is less than lantern ring 2 internal diameter far away, and then can judge whether the tooth root external diameter of survey bottle 4 accords with the standard.

The first indication mark 111 is the position where the first sliding block 211 slides to the first sliding rail 11 when the collar 2 is completely sleeved on the bottle mouth of the bottle 4 to be tested.

The second indication mark 31 is that the external diameter of the tooth root of the bottle 4 to be measured is close to the internal diameter of the lantern ring 2, when the standard is met, the telescopic rod 3 stretches into the lantern ring 2 to be propped against the tooth root, and one end of the telescopic rod 3 close to the lantern ring 2 contacts with the top of the inner wall surface of the lantern ring 2.

In this embodiment, the placement component includes a bottom plate 5 movably connected to the inner bottom of the case 1, and a placement table 51 disposed on the surface of the bottom plate 5 near the collar 2, where a groove provided on the surface of the placement table 51 can limit the bottle 4 to be tested.

In this embodiment, the second sliding block 52 disposed on the side wall surface of the bottom plate 5 is slidably connected with the second sliding rail 12 disposed on the side wall surface of the box 1 near the position of the second sliding block 52, so that the bottom plate 5 can reciprocate along the side wall surface of the box 1, and the bottom plate 5 extends out to facilitate the to-be-tested bottle 4 to be placed in the groove of the bottom plate 5; the bottom plate 5 is retracted into the box body 1, so that the center point of the bottle 4 to be measured and the center point of the lantern ring 2 are positioned at the same vertical line, and the measurement is convenient.

In this embodiment, a whole box door is opened at one side of the sliding direction of the bottom plate 5 of the box body 1, and the box door can allow the bottom plate 5 and the bottle 4 to be tested to enter and exit the box body 1.

In this embodiment, the telescopic rod 3 is configured with a first motor 32, a penetrating shaft of the first motor 32 is connected with the telescopic rod 3 through a shaft, and the first motor 32 can drive the telescopic rod 3 to extend into the collar 2 or retract; the first sliding block 211 is provided with a second motor 22, a penetrating shaft of the second motor 22 is connected with the first sliding block 211 in a shaft way, and the second motor 22 can drive the first sliding block 211 to do repeated motion along the first sliding rail 11, so that the lantern ring 2 is driven to be sleeved into the bottle mouth of the bottle 4 to be tested or lift back along the vertical direction; the second sliding block 52 is provided with a third motor 53, the penetrating shaft of the third motor 53 is connected with the second sliding block 52 in a shaft way, and the third motor 53 can drive the second sliding block 52 to move along the second sliding rail 12 so as to drive the bottom plate 5 to stretch out or retract, thereby realizing multiple continuous measurement and improving the working efficiency.

The first motor 32, the second motor 22, and the third motor 53 in this embodiment are electrically connected to the controller 7 and the power source 6, respectively, to realize the control of the cooperative movement of the motors by the controller 7.

The specific working mode of the embodiment is as follows:

s1: the power supply 6 is turned on, and the controller 7 controls the third motor 53 to drive the second sliding block 52 to move along the second sliding rail 12, so that the bottom plate 5 extends out of the box body 1, and the bottle 4 to be tested is placed in the groove of the bottom plate 5.

S2: the controller 7 controls the third motor 53 to drive the second sliding block 52 to move towards the inside of the box body 1 along the second sliding rail 12, so that the bottom plate 5 is retracted into the box body 1, and the center point of the bottle 4 to be tested and the center point of the lantern ring 2 are located at a vertical line.

S3: the controller 7 controls the second motor 22 to drive the first sliding block 211 to slide downwards along the first sliding rail 11 so as to drive the lantern ring 2 to slide downwards, if the lantern ring 2 can be sleeved on the bottle mouth of the bottle 4 to be tested, the outer diameter of the tooth root of the bottle 4 to be tested is smaller than the inner diameter of the lantern ring 2, and the controller 7 controls the step S3 to be performed;

if the collar 2 cannot be sleeved in, the outer diameter of the tooth root of the bottle 4 to be tested is larger than the inner diameter of the collar 2, and it can be determined that the outer diameter of the tooth root of the bottle to be tested does not meet the standard, the second motor 22 drives the first sliding block 211 to move towards the top of the box body 1, so that the collar 2 is far away from the bottle 4 to be tested, and then the controller 7 controls the third motor 53 to control the second sliding block 52 to slide along the second sliding rail 12 on the inner side wall surface of the box body 1, so that the bottom plate 5 extends out of the box body 1, and the bottle 4 to be tested is taken out.

In this step, it can be observed whether the slide block slides to the corresponding position of the first indication mark 111 provided on the slide rail, so as to determine whether the collar 2 is completely sleeved into the bottle mouth of the bottle 4 to be tested.

S4: the controller 7 controls the first motor 32 to enable the telescopic rod 3 to extend towards the lantern ring 2, so that one end of the telescopic rod 3 far away from the top of the box body 1 can extend into the lantern ring 2, when the telescopic rod 3 extends into the lantern ring 2, if the telescopic rod 3 is propped against by the tooth root to enable the second indication mark 31 of the telescopic rod 3 to be positioned at a position contacted with the top of the lantern ring 2, the tooth root outer diameter of the bottle 4 to be tested is indicated to be close to the inner diameter of the lantern ring 2, and the tooth root outer diameter of the bottle 4 to be tested can be judged to meet the standard;

if the telescopic rod 3 stretches into the collar 2 and is not propped by the tooth root, the stretching length is longer, so that the second indication mark 31 descends to the inner cavity of the collar 2, the fact that the tooth root outer diameter of the measured bottle 4 is smaller than the inner diameter of the collar 2 and the difference between the tooth root outer diameter of the measured bottle and the size of the inner diameter of the collar 2 is larger is indicated, and it can be determined that the tooth root outer diameter of the measured bottle 4 does not meet the standard.

S5: the controller 7 controls the first motor 32 to retract the telescopic rod 3, the controller 7 controls the second motor 22 to drive the first sliding block 211 to move towards the top of the box body 1, the lantern ring 2 is far away from the bottle 4 to be tested, and then the controller 7 controls the third motor 53 to enable the bottom plate 5 to extend out of the box body 1, and the bottle 4 to be tested is taken out.

S6: and continuously detecting the next bottle 4 to be detected, putting the next bottle 4 to be detected into the groove of the bottom plate 5, and repeating S2-S5.

The above is only a preferred embodiment of the present utility model, and is not intended to limit the present utility model, but various modifications and variations can be made to the present utility model by those skilled in the art. Any modification, equivalent replacement, improvement, etc. made within the spirit and principle of the present utility model should be included in the protection scope of the present utility model.

Claims (9)

1. The device for detecting the external diameter of the tooth root of the glass bottle is characterized by comprising a box body (1), wherein a measuring assembly and a placing assembly are arranged in the box body (1);

the measuring assembly comprises a lantern ring (2) and a plurality of telescopic rods (3), wherein the lantern ring (2) is in sliding connection with the inner side wall of the box body (1), the lantern ring (2) can be sleeved on the bottle mouth of a bottle to be measured (4), one end of each telescopic rod (3) is detachably connected with the inner top of the box body (1), one end of each telescopic rod (3) away from the top of the box body (1) can be stretched to the inner side wall of the lantern ring (2), and one end of each telescopic rod (3) close to the lantern ring (2) is detachably connected with the inner side wall surface of the corresponding lantern ring (2).

2. The glass bottle tooth root outer diameter detection device according to claim 1, wherein a connecting rod (21) is arranged on the outer side wall of the lantern ring (2), and one end of the connecting rod (21) away from the lantern ring (2) is in sliding connection with the inner side wall surface of the box body (1);

the box body (1) is provided with a first sliding rail (11) close to the inner side wall of the connecting rod (21), and the first sliding rail (11) is arranged along the vertical direction; one end of the connecting rod (21) close to the first sliding rail (11) is provided with a first sliding block (211), and the first sliding block (211) is in sliding connection with the first sliding rail (11).

3. The glass bottle tooth root outer diameter detection device according to claim 2, wherein a first indication mark line (111) is arranged on the side wall surface of the first sliding rail (11); the outer wall surface of the telescopic rod (3) is provided with a second indication mark line (31).

4. A carafe tooth root external diameter detection apparatus according to any one of claims 1 to 3, wherein said placement unit comprises a bottom plate (5) and a placement table (51), said bottom plate (5) is movably connected with the inner bottom of said box (1), said placement table (51) is disposed on the surface of said bottom plate (5) adjacent to said collar (2), a groove is provided on the surface of said placement table (51), and said groove can limit the carafe (4) to be tested.

5. The glass bottle tooth root outer diameter detection device according to claim 4, wherein a second sliding block (52) is configured on the side wall surface of the bottom plate (5), a second sliding rail (12) is configured on the side wall surface of the box body (1) close to the position of the second sliding block (52), and the second sliding block (52) is in sliding connection with the second sliding rail (12), so that the bottom plate (5) can reciprocate along the side wall surface of the box body (1).

6. The glass bottle tooth root outer diameter detection device according to claim 5, wherein the box body (1) is provided with a box door, and the box door can be used for allowing the bottom plate (5) and the bottle to be detected (4) to enter and exit the box body (1).

7. The carafe tooth root outer diameter detection device according to claim 1, wherein the telescopic rod (3) is configured with a first motor (32), and a penetrating shaft of the first motor (32) is detachably connected with the telescopic rod (3).

8. The carafe tooth root outer diameter detection device according to claim 2, wherein the first slider (211) is provided with a second motor (22), and a penetrating shaft of the second motor (22) is detachably connected with the first slider (211).

9. The carafe tooth root outer diameter detection device according to claim 6, wherein the second slider (52) is provided with a third motor (53), and a penetrating shaft of the third motor (53) is detachably connected with the second slider (52).