CN210973073U - Glass ball blanking station mechanism - Google Patents

Abstract

The utility model relates to a glass ball unloading station mechanism, a serial communication port, including the station support, set up glass ball storage tank, at least one unloading mouth and the drive unloading mouth on the station support and be the actuating mechanism of round trip movement of vertical direction along glass ball storage tank, the unloading mouth has the unloading chamber that the glass ball in the adaptation glass ball storage tank freely slided in proper order, and the movably glass ball storage tank that is located of one end of this unloading mouth, the other end of this unloading mouth has the unloading export. This glass ball unloading station mechanism can avoid traditional manual operation mode's inefficiency, realizes the automation of glass ball unloading, moreover because the one end of unloading mouth is located the glass ball storage tank, can guarantee that the unloading mouth is at the round trip movement in-process, it can not produce the clearance with the glass ball storage tank, prevents effectively that the glass ball from taking place by the condition of card, has ensured the normal clear of glass ball unloading process.

Description

Glass ball blanking station mechanism

Technical Field

The utility model relates to an atomizing valve processing field especially relates to a glass ball unloading station mechanism.

Background

In the course of the processing of spraying valve, often need use a large amount of glass balls to utilize glass balls to realize effects such as mixture or sealed to the spraying valve.

In order to ensure that a large amount of glass balls can be orderly and stably fed to be assembled at a preset position of the spray valve, the glass balls are usually required to be manually placed. However, not only can the glass ball assembly efficiency in the spray valve be low due to the manual placement of the glass balls, but also the whole organization process of the spray valve is affected due to the fact that the glass balls are difficult to be assembled in the spray valve well due to the non-standard manual placement of the glass balls.

Although some automatic glass ball feeding mechanisms are also available in the market at present. However, the automatic glass ball feeding mechanisms are easy to cause the problem that the glass balls are blocked or the glass balls are easy to break due to friction in the feeding process.

Therefore, how to realize the automatic unloading of glass ball, guarantee that the mechanism is reliable and stable, prevent the broken damage of glass ball to the needs that satisfy product production become the technical problem that this field needs to solve.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the technical problem that a glass ball unloading station mechanism is provided to above-mentioned prior art.

The utility model provides a technical scheme that above-mentioned technical problem adopted does: glass ball unloading station mechanism, its characterized in that includes:

a station support;

the glass ball storage tank is arranged on the station support and used for placing glass balls to be subjected to blanking treatment;

the discharging device comprises at least one discharging nozzle, a discharging device and a control device, wherein the discharging nozzle is provided with a discharging cavity which is matched with glass balls in the glass ball storage tank to slide freely in sequence, one end of the discharging nozzle is movably positioned in the glass ball storage tank, and the other end of the discharging nozzle is provided with a discharging outlet;

and the driving mechanism is fastened with the discharging nozzle and used for driving the discharging nozzle to move back and forth along the glass ball storage tank in the vertical direction.

In the glass ball blanking station mechanism, an observation groove for observing the glass balls in the glass ball storage tank is formed on the side wall of the glass ball storage tank.

And in the glass ball feeding station mechanism, a groove is formed at the bottom of the glass ball storage tank and is communicated with a feeding cavity of the feeding nozzle.

Furthermore, the groove is in a ladder shape with a large upper opening and a small lower groove bottom.

Optionally, in the glass ball blanking station mechanism, the blanking nozzle and the driving mechanism are detachably fastened together.

Preferably, in the glass ball blanking station mechanism, the driving mechanism is an air cylinder.

Compared with the prior art, the utility model has the advantages of:

firstly, the glass ball blanking station mechanism in the utility model can avoid the low efficiency of the traditional manual operation mode, realize the automation of glass ball blanking, and can ensure that the blanking nozzle can not generate a gap with the glass ball storage tank in the back and forth movement process because one end of the blanking nozzle is positioned in the glass ball storage tank, thereby effectively preventing the glass ball from being blocked, avoiding the breakage and damage of the glass ball due to the blockage and ensuring the normal operation of the glass ball blanking process;

secondly, according to the requirement, the blanking nozzles with required number can be arranged on the glass ball blanking station mechanism so as to meet the feeding requirement of the stations with required number; if a certain blanking nozzle or a plurality of blanking nozzles are not needed, the blanking ports of the unneeded blanking nozzles are plugged.

Drawings

FIG. 1 is a schematic structural view of a glass ball blanking station mechanism in an embodiment of the present invention;

FIG. 2 is a schematic view of the glass ball feeding station mechanism shown in FIG. 1 at another viewing angle;

fig. 3 is a sectional view of a part of the structure of the glass ball blanking station mechanism shown in fig. 1.

Detailed Description

The present invention will be described in further detail with reference to the following embodiments.

As shown in fig. 1 to 3, the glass ball feeding station mechanism in this embodiment includes:

a station support 1;

the glass ball storage tank 2 is arranged on the station support 1, and the glass ball storage tank 2 is used for placing glass balls 5 to be subjected to blanking treatment; as shown in fig. 1, an observation groove 20 for observing the glass balls in the glass ball storage tank is formed on the side wall of the glass ball storage tank 2;

at least one discharging nozzle 3, which is provided with a discharging cavity 30 adapted to the glass balls in the glass ball storage tank 2 to slide freely in sequence, one end of the discharging nozzle 3 is movably positioned in the glass ball storage tank 2, and the other end of the discharging nozzle 3 is provided with a discharging outlet 31;

a driving mechanism 4, which is tightly fixed with the blanking nozzle 3, for example, the blanking nozzle 3 is detachably fixed with the driving mechanism 4; the driving mechanism 4 is used for driving the discharging nozzle 3 to move back and forth along the glass ball storage tank 2 in the vertical direction. The driving mechanism 4 in this embodiment is a cylinder. In addition, as shown in fig. 3, a groove 21 is formed at the bottom of the glass ball storage tank 2, and the groove 21 is communicated with the feeding cavity 30 of the feeding nozzle 3. Wherein, the groove 21 is in a ladder shape with a large upper opening and a small lower groove bottom.

In the production process of products, when the glass ball blanking station mechanism is required to perform blanking processing on glass balls, a required number of glass balls are placed in the glass ball storage tank 2, then the driving mechanism 4 is started, the driving mechanism 4 drives the blanking nozzle 3 to move back and forth along the glass ball storage tank 2 in the vertical direction, and at the moment, one end of the glass ball storage tank 2, which belongs to the blanking nozzle 3, also moves back and forth in the glass ball storage tank 2, so that the glass balls in the glass ball storage tank 2 enter the blanking cavity 30 through the groove 21 and sequentially and freely slide down from the blanking port 31 of the blanking nozzle 3 along the blanking cavity 30, thus the low efficiency of the traditional manual operation mode is avoided, the automation is realized, and because one end of the blanking nozzle is positioned in the glass ball storage tank 2, the blanking nozzle can be ensured to move back and forth, it can not produce the clearance with glass ball storage tank, has prevented effectively that the glass ball from being taken place by the condition of card, has ensured the normal clear of glass ball unloading process. Of course, the required number of blanking nozzles can be arranged according to the requirement so as to meet the feeding requirement of the required number of stations. Wherein, if a certain blanking nozzle or a plurality of blanking nozzles are not needed, the blanking port of the unneeded blanking nozzle is blocked.

Although the preferred embodiments of the present invention have been described in detail hereinabove, it should be clearly understood that modifications and variations of the present invention are possible to those skilled in the art. Any modification, equivalent replacement, or improvement made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (6)

1. Glass ball unloading station mechanism, its characterized in that includes:

a station support (1);

the glass ball storage tank (2) is arranged on the station support (1), and the glass ball storage tank (2) is used for placing glass balls (5) to be subjected to blanking treatment;

the discharging device comprises at least one discharging nozzle (3) and a discharging device, wherein the discharging nozzle (3) is provided with a discharging cavity (30) which is matched with glass balls in the glass ball storage tank (2) and can slide down freely in sequence, one end of the discharging nozzle (3) is movably positioned in the glass ball storage tank (2), and the other end of the discharging nozzle (3) is provided with a discharging outlet (31);

and the driving mechanism (4) is tightly fixed with the discharging nozzle (3) and is used for driving the discharging nozzle (3) to move back and forth along the vertical direction of the glass ball storage tank (2).

2. The glass ball feeding station mechanism as claimed in claim 1, wherein the side wall of the glass ball storage tank (2) is formed with an observation groove (20) for observing the glass balls in the glass ball storage tank.

3. The glass ball feeding station mechanism as claimed in claim 1, wherein the bottom of the glass ball storage tank (2) is formed with a groove (21), and the groove (21) is communicated with the feeding cavity (30) of the feeding nozzle (3).

4. A glass ball blanking station mechanism according to claim 3, characterized in that the groove (21) is trapezoidal in shape with a large upper opening and a small lower groove bottom.

5. Glass ball blanking station mechanism according to claim 1, characterized in that the blanking nozzle (3) is detachably fastened to the drive mechanism (4).

6. A glass ball blanking station mechanism as claimed in any one of claims 1 to 5, wherein the drive mechanism (4) is a pneumatic cylinder.

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