CN114183526B

CN114183526B - Vertical shaft sealing ring of intelligent gas meter of Internet of things and discharging device of vertical shaft sealing ring

Info

Publication number: CN114183526B
Application number: CN202010965945.2A
Authority: CN
Inventors: 邵泽华; 向海堂; 魏小军; 李勇; 刘彬
Original assignee: Chengdu Qinchuan IoT Technology Co Ltd
Current assignee: Chengdu Qinchuan IoT Technology Co Ltd
Priority date: 2020-09-15
Filing date: 2020-09-15
Publication date: 2023-11-14
Anticipated expiration: 2040-09-15
Also published as: CN114183526A

Abstract

The invention relates to the technical field of gas meter production, and specifically relates to an Internet of Things intelligent gas meter vertical shaft sealing ring; the technical solution adopted is: an Internet of Things intelligent gas meter vertical shaft sealing ring, the cross-section of the sealing ring body is larger at the top and smaller at the bottom. "V" shape. The middle part has a through hole that is small at the top and large at the bottom. When assembling, put the small end of the sealing ring body downwards. Set the sealing ring body on the upper end of the IoT smart gas meter column through the loading device, and then use the pressing device to The sealing ring body is pressed to the working position to seal the gap between the vertical shaft and the bellows box. During the press-fitting process, because the lower end of the sealing ring body is smaller, it can play a guiding role and prevent the sealing ring body from being distorted when the sealing ring is first pressed down. It can also prevent the sealing ring body from being twisted when the sealing ring is automatically assembled. Produces breakage and distortion. Therefore, the present invention can ensure the sealing performance of the upright column and the diaphragm box of the Internet of Things smart gas meter, and meet the needs of automated production of the Internet of Things smart gas meter.

Description

Vertical shaft sealing ring of intelligent gas meter of Internet of things and discharging device of vertical shaft sealing ring

Technical Field

The application relates to the technical field of gas meter production, in particular to an intelligent gas meter vertical shaft sealing ring of the Internet of things and a discharging device thereof.

Background

With the continuous improvement of the life quality of residents, the use of natural gas is increased, and the use requirements of the intelligent gas meter of the internet of things cannot be met by the traditional production mode and production equipment. Therefore, automatic production of the gas meter is required to be realized so as to meet the market demand of the intelligent gas meter of the Internet of things. In the process of the production and processing of the intelligent gas meter of the Internet of things, a sealing ring is required to be sleeved outside the vertical shaft so as to seal a gap between the vertical shaft and the diaphragm capsule. If the traditional sealing ring is adopted, when the sealing ring is pushed out of the section with the largest diameter of the vertical shaft by adopting automatic equipment, the sealing ring is easy to distort and skew, so that the sealing ring is deformed or even damaged, and the requirement of the automatic production line production of the intelligent gas meter of the Internet of things cannot be met.

Disclosure of Invention

The application provides an internet of things intelligent gas meter vertical shaft sealing ring and a discharging device thereof, which can prevent the sealing ring from being distorted or damaged during automatic assembly of the sealing ring so as to ensure the tightness of an internet of things intelligent gas meter upright post and a diaphragm capsule and meet the requirement of automatic production of the internet of things intelligent gas meter.

The application is realized by the following technical scheme:

the utility model provides an intelligent gas table vertical scroll sealing washer of thing networking, includes the sealing washer body, the cross-section of sealing washer body is big-end-up 'V' style of calligraphy.

The cross section of the sealing ring body is in a V shape with a large upper part and a small lower part, the corresponding hole in the middle part for the upright post to pass through is a through hole with a small upper part and a large lower part, one small end of the sealing ring body faces downwards during assembly, the sealing ring body is sleeved at the upper end of the upright post of the intelligent gas meter of the Internet of things through the feeding device, and then the sealing ring body is pressed to a working position through the press-fitting device so as to seal a gap between the vertical shaft and the diaphragm capsule. In the press fitting process, the lower end of the sealing ring body is smaller, so that the guiding effect can be achieved, and the sealing ring body can be prevented from being distorted when the sealing ring body is just pressed down. Meanwhile, the through hole of the sealing ring body is small in upper part and large in lower part, so that when the sealing ring body is pressed, the lower end of the sealing ring body is provided with a deformation space, and the sealing ring body can be prevented from being damaged and twisted when the sealing ring is assembled automatically. Therefore, the sealing performance of the upright post and the diaphragm capsule of the intelligent gas meter of the Internet of things can be ensured, and the requirement of automatic production of the intelligent gas meter of the Internet of things is met.

Further, the annular groove is formed in the upper end face of the sealing ring body, so that deformation empty parts are provided for the inner side wall and the outer side wall of the sealing ring body when the sealing ring body is pressed, and the sealing ring body can be further prevented from being distorted and damaged when the sealing ring is assembled automatically.

Preferably, the annular groove is a V-shaped groove, so that the sealing ring body can be pressed to further prevent the sealing ring body from being damaged in the assembly process.

Preferably, the inner side wall of the sealing ring body comprises straight wall sections and inclined wall sections which are distributed from top to bottom, so that the sealing ring body has good sealing performance while not generating distortion and damage in the assembly process through the fitting of the straight wall sections and the vertical shaft.

The application also provides a discharging device of the vertical shaft sealing ring of the intelligent gas meter of the Internet of things, which is used for conveying the sealing ring body into a sealing ring assembly station and comprises a vibration disc; the vibration disc comprises a spiral track for arranging the sealing ring body, and the section of the spiral track comprises a horizontal section and an inclined section; the space between horizontal segment and the slope section is used for holding the sealing washer body to make the lateral wall laminating of sealing washer body at the horizontal segment and make the lower extreme laminating of sealing washer body at the horizontal segment, ensure then that the vibration dish can send out the sealing washer body.

Further, the inclined section is provided with a first air pipe, so that the sealing ring bodies on the spiral track are screened through air flow output by the first air pipe, and then the sealing ring bodies which are not arranged according to the set posture are blown off, and the sealing ring bodies are ensured to be sent out according to the set posture.

Further, the device also comprises a direct vibration feeder, wherein the direct vibration feeder comprises a feeding groove; the end of the spiral track is provided with a straight material channel, and one end of the feeding groove is communicated with the discharge end of the straight material channel so as to convey the sealing ring body to the sealing ring body material taking station through the feeding groove.

Preferably, the vibration dish still is equipped with the second trachea, the second trachea sets up along the length direction of straight material way, and then through the gaseous supplementary sealing washer body removal of second trachea output, ensures that the sealing washer body can send to the material station.

Preferably, two feed tanks are arranged in parallel, one end of each feed tank is communicated with the discharge end of the corresponding straight material channel through a transition groove, so that the sealing ring bodies are fed into the two parallel feed tanks, the requirement of clamping the two sealing ring bodies at one time is met, and the production efficiency of the gas meter is improved.

Further, third air pipes are arranged on two side walls of the transition groove, so that air flow is output through the third air pipes to control the moving direction of the sealing ring body. Therefore, the sealing ring bodies alternately enter the two feeding tanks through the alternate air outlet of the two third air pipes, so that the sealing ring bodies are ensured to be arranged in the two feeding tanks.

The application has the beneficial effects that:

1. in the press fitting process, the lower end of the sealing ring body is smaller, so that the guiding function can be realized, and the sealing ring body can be prevented from being distorted when the sealing ring body is just pressed down;

2. the through hole of the sealing ring body is small at the upper part and large at the lower part, so that the lower end of the sealing ring body is provided with a deformation space when the sealing ring body is pressed and assembled, and the sealing ring body can be prevented from being damaged and distorted when the sealing ring is assembled automatically;

3. the upper end face of the sealing ring body is provided with an annular groove, so that deformation empty parts are provided for the inner side wall and the outer side wall of the sealing ring body when the sealing ring body is pressed and assembled, and the sealing ring body can be further prevented from being distorted and damaged when the sealing ring is assembled automatically;

4. the section of the spiral track of the vibration disk comprises a horizontal section and an inclined section; the space between the horizontal section and the inclined section is used for accommodating the sealing ring body, so that the side wall of the sealing ring body is attached to the horizontal section, the lower end of the sealing ring body is attached to the horizontal section, and then the vibrating disk is ensured to be capable of sending out the sealing ring body;

5. the inclined section of the spiral track is provided with a first air pipe so as to screen the sealing ring bodies on the spiral track through the air flow output by the first air pipe, and then blow off the sealing ring bodies which are not arranged according to the set posture, so that the sealing ring bodies are ensured to be sent out according to the set posture;

6. the feeding grooves of the direct vibration feeder are arranged in parallel, one ends of the two feeding grooves are communicated with the discharge end of the direct material channel through the transition groove, so that the sealing ring bodies are fed into the two parallel feeding grooves, the requirement of clamping the two sealing ring bodies at one time is met, and the production efficiency of the gas meter is improved.

Drawings

The accompanying drawings, which are included to provide a further understanding of embodiments of the application and are incorporated in and constitute a part of this specification, illustrate embodiments of the application and together with the description serve to explain the principles of the application. In the drawings:

FIG. 1 is a schematic top view of a seal ring of the present application;

FIG. 2 is a cross-sectional view taken along the A-A plane of FIG. 1;

FIG. 3 is a schematic top view of the seal ring discharging device of the present application;

FIG. 4 is a cross-sectional view taken along the B-B plane of FIG. 3;

FIG. 5 is a schematic illustration of the sealing ring arranged in a set posture within the helical track of the vibrating disk;

fig. 6 is a schematic view of the seal ring in an improper posture within the spiral track of the alignment vibratory pan.

In the drawings, the reference numerals and corresponding part names:

the sealing ring comprises a sealing ring body, an 11-annular groove, a 12-straight wall section, a 13-inclined wall section, a 2-vibration disc, a 21-spiral track, a 211-horizontal section, a 212-inclined section, a 22-first air pipe, a 23-second air pipe, a 24-straight material channel, a 3-straight vibration feeder, a 31-feeding groove, a 32-transition groove, a 33-third air pipe and a 34-detection optical fiber.

Detailed Description

For the purpose of making apparent the objects, technical solutions and advantages of the present application, the present application will be further described in detail with reference to the following examples and the accompanying drawings, wherein the exemplary embodiments of the present application and the descriptions thereof are for illustrating the present application only and are not to be construed as limiting the present application.

Example 1

The utility model provides an intelligent gas table vertical scroll sealing washer of thing networking, includes sealing washer body 1, the cross-section of sealing washer body 1 is big-end-up 'V' style of calligraphy.

The cross section of the sealing ring body 1 of this embodiment is big end down's "V" style of calligraphy, and corresponding middle part is used for the hole that the stand passed for big end down's through-hole, and the one end that is little of sealing ring body 1 is down during the assembly, establishes sealing ring body 1 cover at the upper end of thing networking intelligent gas table stand through loading attachment, and rethread pressure equipment device presses sealing ring body 1 to working position to the clearance between sealed vertical scroll and the diaphragm capsule.

In the press fitting process, the lower end of the sealing ring body 1 is smaller, so that the guiding function can be realized, and the sealing ring body 1 can be prevented from being distorted when the sealing ring body is just pressed down. Meanwhile, the through hole of the sealing ring body 1 is small at the upper part and large at the lower part, so that the lower end of the sealing ring body is provided with a deformation space when the sealing ring body 1 is pressed and assembled, and the sealing ring body 1 can be prevented from being damaged and twisted when the sealing ring is assembled automatically.

Therefore, the sealing performance of the upright post and the diaphragm capsule of the intelligent gas meter of the Internet of things can be ensured, and the requirement of automatic production of the intelligent gas meter of the Internet of things is met.

Further, the annular groove 11 is formed in the upper end face of the sealing ring body 1, so that deformation empty parts are provided for the inner side wall and the outer side wall of the sealing ring body 1 when the sealing ring body 1 is pressed, and the sealing ring body 1 can be further prevented from being distorted and damaged when the sealing ring is assembled automatically.

Preferably, the annular groove 11 is a V-shaped groove, so that the sealing ring body 1 can be pressed to further prevent the sealing ring body 1 from being damaged during the assembly process.

Preferably, the inner side wall of the sealing ring body 1 comprises a straight wall section 12 and an inclined wall section 13 which are distributed from top to bottom, so that the sealing ring body 1 has good sealing performance while ensuring no distortion and damage in the assembly process through the fitting of the straight wall section 12 and a vertical shaft.

Example 2

The utility model provides an thing networking intelligent gas table vertical scroll sealing washer discharging device, is used for sending sealing washer body 1 of embodiment 1 into sealing washer assembly station, includes vibration dish 2; the vibration disc 2 comprises a spiral track 21 for arranging the sealing ring body 1, and the section of the spiral track 21 comprises a horizontal section 211 and an inclined section 212; the space between the horizontal section 211 and the inclined section 212 is used for accommodating the sealing ring body 1, so that the side wall of the sealing ring body 1 is attached to the horizontal section 211 and the lower end (small end) of the sealing ring body 1 is attached to the horizontal section 211, and then the vibration disc 2 is ensured to be capable of sending out the sealing ring body 1.

Further, the inclined section 212 is provided with a first air pipe 22, so that the air flow output by the first air pipe 22 screens the sealing ring bodies 1 on the spiral track 21, and then blows off the sealing ring bodies 1 which are not arranged according to the set posture, so as to ensure that the sealing ring bodies 1 are sent out according to the set posture.

The length from the lower side of the air outlet end of the first air pipe 22 to the horizontal section 211 is larger than the diameter of the small end of the sealing ring body 1 and smaller than the diameter of the large end of the sealing ring body 1. Specifically, referring to fig. 5 and 6, the first air pipe 22 is parallel to the upper side wall of the sealing ring body 1 when the sealing ring body 1 is arranged on the spiral track 21 according to the set posture (the side wall of the sealing ring body 1 is attached to the horizontal section 211, and the lower end of the sealing ring body 1 is attached to the horizontal section 211), and the lower side of the air outlet end of the first air outlet pipe 22 is located above the upper side of the sealing ring body 1. Therefore, when the seal ring body 1 is arranged on the spiral rail 21 in a set posture, the compressed gas outputted through the first gas pipe 22 cannot blow off the seal ring body 1 from the spiral rail 21. Accordingly, when the seal ring body 1 is not arranged on the spiral track 21 in the set posture (the large end of the seal ring body 1 is attached to the horizontal section 211), the upper end of the seal ring body 1 is located on the flow path of the gas output from the first gas pipe 22, so that when the seal ring body 1 is not arranged on the spiral track 21 in the set posture, the compressed gas output through the first gas pipe 22 can blow the seal ring body 1 off the spiral track 21.

Further, the device also comprises a direct vibration feeder 3, wherein the direct vibration feeder 3 comprises a feeding groove 31; the end of the spiral track 21 is provided with a straight material channel 24, and one end of the feeding groove 31 is communicated with the discharge end of the straight material channel 24 so as to convey the sealing ring body 1 to a material taking station of the sealing ring body 1 through the feeding groove 31.

Preferably, the vibration plate 2 is further provided with a second air pipe 23, and the second air pipe 23 is arranged along the length direction of the straight material channel 24. It can be understood that the sealing ring body 1 on the straight material channel 24 moves not only under the vibration of the vibration disc 2, but also under the blowing of the gas output by the second gas pipe 23, and then the gas output by the second gas pipe 23 assists the movement of the sealing ring body 1, so that the sealing ring body 1 is ensured to be capable of being sent to the material taking station.

Preferably, two feeding grooves 31 are arranged in parallel, one end of each feeding groove 31 is communicated with the discharge end of the corresponding straight material channel 24 through a transition groove 32, so that the sealing ring bodies 1 are fed into the two parallel feeding grooves 31, the requirement of clamping the two sealing ring bodies 1 at one time is met, and the production efficiency of the gas meter is improved. It should be understood that two vertical shafts of the gas meter are arranged at intervals, so that the two sealing ring bodies 1 can be sent out according to a certain interval by arranging the two feeding grooves 31, the sealing ring grabbing device can grab the two sealing ring bodies 1 at the same time, and then the production efficiency of the gas meter is improved.

Further, the two side walls of the transition groove 32 are respectively provided with a third air pipe 33, so that the air flow is output through the third air pipes 33 to control the moving direction of the sealing ring body 1. Therefore, the sealing ring body 1 alternately enters the two feeding tanks 31 through the alternate air outlet of the two third air pipes 33, so that the sealing ring body 1 is ensured to be arranged in the two feeding tanks 31.

A pair of detecting fibers 34 is usually provided at the middle or end of the two feed grooves 31 to detect whether the sealing body 1 is normally discharged.

The foregoing description of the embodiments has been provided for the purpose of illustrating the general principles of the application, and is not meant to limit the scope of the application, but to limit the application to the particular embodiments, and any modifications, equivalents, improvements, etc. that fall within the spirit and principles of the application are intended to be included within the scope of the application.

Claims

1. An Internet of Things intelligent gas meter vertical shaft sealing ring discharging device used to deliver the sealing ring body (1) to the sealing ring assembly station, which is characterized in that it includes a vibration plate (2);

The vibration plate (2) includes a spiral track (21) for arranging the seal ring body (1), and the cross section of the spiral track (21) includes a horizontal section (211) and an inclined section (212);

The cross-section of the sealing ring body (1) is a "V" shape with a larger top and a smaller bottom, and the space between the horizontal section (211) and the inclined section (212) is used to accommodate the sealing ring body (1). , so that the side wall of the sealing ring body (1) fits in the horizontal section (211) and the small end of the sealing ring body (1) fits in the inclined section (212);

The inclined section (212) is provided with a first air pipe (22). The length from the lower side of the air outlet end of the first air pipe (22) to the horizontal section (211) is greater than the diameter of the small end of the sealing ring body (1) but less than the sealing ring body (1). The diameter of the large end of the ring body (1) is used to screen the sealing ring body (1) on the spiral track (21) with the air flow output through the first air pipe (22).

2. The device for discharging the vertical shaft sealing ring of the Internet of Things intelligent gas meter according to claim 1, characterized in that it also includes a direct vibrating feeder (3), and the direct vibrating feeder (3) includes a feeding chute (31) ;

A straight feed channel (24) is provided at the end of the spiral track (21), and one end of the feeding chute (31) is connected with the discharge end of the straight feed channel (24).

3. The device for discharging the vertical shaft sealing ring of the Internet of Things intelligent gas meter according to claim 2, characterized in that the vibration plate (2) is also provided with a second air pipe (23), and the second air pipe (23) Set along the length direction of the straight material channel (24).

4. The device for discharging the vertical shaft seal ring of the Internet of Things intelligent gas meter according to claim 2, characterized in that two of the feeding troughs (31) are arranged in parallel, and one end of the two feeding troughs (31) passes through The transition groove (32) is connected with the discharge end of the straight feed channel (24).

5. The device for discharging the vertical shaft seal ring of the Internet of Things smart gas meter according to claim 4, characterized in that third air pipes (33) are provided on both side walls of the transition groove (32) to pass through the third gas pipe. The airflow output from the air pipe (33) controls the moving direction of the sealing ring body (1).