CN214320742U - Multi-outlet synchronous glue pouring device - Google Patents

Abstract

A multi-outlet synchronous glue pouring device comprises a base and a plurality of glue pouring units; a glue inlet channel is arranged in the base in a penetrating manner; a plurality of encapsulating units set up in the base, all are equipped with encapsulating mechanism and dispensing head in every encapsulating unit, wherein: the glue filling mechanisms in the glue filling units are communicated with the glue inlet channels in an openable and closable manner; a glue outlet channel is arranged in each glue dispensing head and communicated with the glue pouring mechanism in an openable and closable manner; each glue filling mechanism realizes glue suction and glue discharge through a piston mechanism; when the automatic glue sucking machine works, each glue filling mechanism is synchronously communicated with the glue inlet channel, and each piston mechanism synchronously sucks glue; each glue pouring mechanism is synchronously communicated with the glue outlet channel, each piston mechanism synchronously discharges glue, the glue is discharged to each glue head, and each product is synchronously poured with glue.

Description

Multi-outlet synchronous glue pouring device

Technical Field

The utility model relates to a sizing material supply apparatus, concretely relates to synchronous encapsulating operation device with a plurality of glue outlets.

Background

In the glue bonding process in the part processing process, in order to improve the processing efficiency, a plurality of parts need to be subjected to glue dispensing operation at the same time; however, different dispensing devices are used for simultaneous operation, which is prone to the occurrence of conditions such as large glue quantity error, unstable glue discharge, and the like.

Therefore, how to solve the above-mentioned deficiencies of the prior art is a problem to be solved by the present invention.

Disclosure of Invention

The utility model aims at providing a synchronous encapsulating device of many exports, for reaching above-mentioned purpose, the utility model discloses a technical scheme be:

a multi-outlet synchronous glue pouring device comprises a base and a plurality of glue pouring units;

a glue inlet channel is arranged in the base in a penetrating manner; a plurality of encapsulating units set up in the base, all are equipped with encapsulating mechanism and dispensing head in every encapsulating unit, wherein:

the glue filling mechanism in each glue filling unit is communicated with the glue inlet channel; a glue outlet channel is formed in each glue dispensing head and communicated with the glue pouring mechanism;

the glue pouring mechanism comprises a piston sleeve, a piston rod, an openable glue sucking channel and an openable glue discharging channel;

the piston sleeve is arranged in the base, a containing cavity for containing glue is formed in the piston sleeve, and the piston rod is arranged in the containing cavity of the piston sleeve in a vertically sliding mode to form a piston mechanism;

the openable glue sucking channel is communicated between the cavity in the glue filling mechanism and the glue inlet channel in an openable mode; the openable glue discharging channel is communicated between the cavity in the glue pouring mechanism and the glue outlet channel communicated with the glue pouring mechanism in an openable mode;

in each glue filling unit, the piston rods move synchronously, the openable glue sucking channels are opened and closed synchronously, and the openable glue discharging channels are opened and closed synchronously.

Furthermore, a plurality of glue inlet channels penetrate through the base; every all be equipped with a plurality of encapsulating mechanisms and a dispensing head in the encapsulating unit, wherein:

the number of glue pouring mechanisms in each glue pouring unit is equal to that of the glue inlet channels in the base, and each glue pouring mechanism is communicated with each glue inlet channel in a one-to-one correspondence manner; each dispensing head is provided with a plurality of glue outlet channels, the number of the glue outlet channels in each glue pouring unit is equal to the number of the glue pouring mechanisms, and each glue outlet channel is communicated with each glue pouring mechanism in a one-to-one correspondence manner.

Furthermore, the openable glue sucking channel comprises a glue sucking air valve, a first glue sucking channel and a second glue sucking channel;

in each glue pouring mechanism, a first end of two ends of the first glue absorbing channel is communicated to the cavity of the piston sleeve, and a second end of the first glue absorbing channel is communicated to the glue absorbing air valve; a first end of the two ends of the second glue sucking channel is communicated to the glue inlet channel corresponding to the glue pouring mechanism, and a second end of the second glue sucking channel is communicated to the glue sucking air valve; thereby controlling the connection and disconnection between the glue inlet channel and the cavity through the glue sucking air valve.

Furthermore, the openable glue discharging channel comprises a glue discharging air valve, a first glue discharging channel and a second glue discharging channel;

in each glue filling mechanism, a first end of two ends of the first glue discharging channel is communicated to the cavity of the piston sleeve, and a second end of the first glue discharging channel is communicated to the glue discharging air valve; a first end of the two ends of the second glue discharging channel is communicated to the glue outlet channel corresponding to the glue pouring mechanism, and a second end of the second glue discharging channel is communicated to the glue discharging air valve; thereby controlling the connection and disconnection between the glue outlet channel and the corresponding cavity through the glue discharge air valve.

Furthermore, in each glue filling unit, the containing cavity of the piston sleeve of each glue filling mechanism is a cylindrical space, the piston sleeves are detachably arranged in the base, the containing cavities are the same in height, and the piston rods synchronously move in the height direction of the corresponding piston sleeves.

The relevant content in the above technical solution is explained as follows:

1. in the above scheme, each glue filling unit may be provided with a glue filling mechanism and a corresponding glue dispensing head, and the base is correspondingly provided with a glue inlet channel, so that each glue filling unit is used for supplying single-component glue;

the glue pouring device can also be provided with a plurality of glue pouring mechanisms and a glue dispensing head, wherein a plurality of glue outlet channels are arranged in the glue dispensing head corresponding to the glue pouring mechanisms, a plurality of glue inlet channels are correspondingly arranged in the base, the number of the glue pouring mechanisms in each glue pouring unit is equal to that of the glue inlet channels in the base, and the number of the glue outlet channels in each glue pouring unit is equal to that of the glue pouring mechanisms, so that each glue pouring unit can supply multi-component mixed glue;

a plurality of encapsulating units set up in the base, and every encapsulating unit all has a dispensing head, and every dispensing head is to a product encapsulating to this device can be to the synchronous encapsulating of a plurality of products.

2. In the above scheme, the piston rod is arranged in the containing cavity of the piston sleeve in a vertically sliding mode to form the piston mechanism, glue can be sucked into the containing cavity when the piston rod rises, and the glue can be discharged from the containing cavity when the piston rod descends.

3. In the above scheme, the openable glue sucking channel can be a channel which is opened and closed by a pneumatic piston valve or an electromagnetic valve, and the cavity in the glue filling mechanism is communicated with the corresponding glue inlet channel through the channel and is opened and closed by the pneumatic piston valve or the electromagnetic valve;

the openable glue discharging channel can be a pneumatic piston valve or a channel controlled to be opened and closed by an electromagnetic valve, and the cavity in the glue pouring mechanism is communicated with the corresponding glue outlet channel through the channel and is controlled to be opened and closed by the pneumatic piston valve or the electromagnetic valve;

preferably, the openable glue sucking channel comprises a glue sucking air valve, a first glue sucking channel and a second glue sucking channel;

in each glue pouring mechanism, the first glue suction channel is communicated with the containing cavity and the glue suction air valve; the second glue sucking channel is communicated to the glue inlet channel and the glue sucking air valve corresponding to the glue pouring mechanism;

the openable glue discharging channel comprises a glue discharging air valve, a first glue discharging channel and a second glue discharging channel;

in each glue filling mechanism, the first glue discharging channel is communicated with the accommodating cavity and the glue discharging air valve; the second glue discharging channel is communicated to the glue outlet channel and the glue discharging air valve corresponding to the glue pouring mechanism.

4. In the above scheme, the piston rods move synchronously, so that the cavities in the glue filling mechanisms can suck or discharge glue synchronously; the openable glue sucking channels are synchronously opened and closed, so that each glue pouring mechanism synchronously starts to suck glue or synchronously stops sucking glue; the openable glue discharging channels are synchronously opened and closed, so that the glue pouring mechanisms synchronously start to discharge glue or synchronously stop to discharge glue;

when each glue filling unit feeds glue, each piston rod synchronously rises, each openable and closable glue sucking channel is synchronously opened, each openable and closable glue discharging channel is closed, each glue filling mechanism synchronously sucks the glue, and the glue synchronously enters the corresponding cavity from each glue feeding channel;

when each glue pouring unit discharges glue, each piston rod descends synchronously, each openable glue sucking channel is closed synchronously, each openable glue discharging channel is opened synchronously, each glue pouring mechanism discharges glue synchronously, and the glue enters each glue head from each containing cavity and is discharged.

5. In the above scheme, the piston sleeves are detachably arranged in the base, the heights of the cavities are the same, the piston rods synchronously move in the height direction corresponding to the piston sleeves, namely the movement strokes of the piston rods 6 are the same, the volume of the cavity 7 can be changed by changing the cross-sectional area of the cavity 7 and the diameter of the piston rod 6, so that in the same glue filling unit, when the two piston rods 6 synchronously move, the glue outlet amount of the two glue filling mechanisms is related to the cross-sectional area of the cavity 7, and the glue outlet ratio can be changed by replacing the piston sleeves 5 with different cavities 7.

The working principle of the utility model is as follows:

a multi-outlet synchronous glue pouring device comprises a base and a plurality of glue pouring units; a glue inlet channel is arranged in the base in a penetrating manner; a plurality of encapsulating units set up in the base, all are equipped with encapsulating mechanism and dispensing head in every encapsulating unit, wherein: the glue filling mechanisms in the glue filling units are communicated with the glue inlet channels in an openable and closable manner; a glue outlet channel is arranged in each glue dispensing head and communicated with the glue pouring mechanism in an openable and closable manner; each glue filling mechanism realizes glue suction and glue discharge through a piston mechanism; when the automatic glue sucking machine works, each glue filling mechanism is synchronously communicated with the glue inlet channel, and each piston mechanism synchronously sucks glue; each glue pouring mechanism is synchronously communicated with the glue outlet channel, each piston mechanism synchronously discharges glue, the glue is discharged to each glue head, and each product is synchronously poured with glue.

The utility model has the advantages as follows:

the glue pouring efficiency is high, and a plurality of glue pouring units can synchronously pour glue into a plurality of products;

and secondly, the glue pouring error is small, and each glue pouring mechanism synchronously sucks and discharges glue, so that the glue pouring amount error of each product is reduced during glue pouring, and the glue discharging is stable.

Drawings

FIG. 1 is a front view of a multi-outlet synchronous glue-pouring device in an embodiment of the present invention;

FIG. 2 is a side view of a multi-outlet synchronous glue-pouring device in an embodiment of the present invention;

FIG. 3 is a cross-sectional view taken along line A-A of FIG. 1;

FIG. 4 is a cross-sectional view corresponding to the B-B cut symbol in FIG. 1, in which the first glue suction channel, the first glue discharge channel and the second glue discharge channel in the same glue filling unit can be seen;

FIG. 5 is an enlarged view of a portion E of FIG. 4;

FIG. 6 is a cross-sectional view corresponding to the C-C cut symbol in FIG. 1, in which one of the second glue sucking channels in the same glue pouring unit can be seen;

fig. 7 is a cross-sectional view corresponding to the cutting symbol D-D in fig. 1, in which another second glue suction channel in the same glue pouring unit can be seen.

In the above drawings: 1. a base; 2. a glue inlet channel; 3. dispensing a glue head; 4. a glue outlet channel; 5. a piston sleeve; 6. a piston rod; 7. a cavity; 8. a glue sucking air valve; 9. a first glue suction channel; 10. a second glue suction channel; 11. a glue discharging air valve; 12. a first glue discharge channel; 13. a second glue discharge channel; 14. a piston block; 15. a piston cavity; 16. a spring; 17. an interface.

Detailed Description

The invention will be further described with reference to the following drawings and examples:

the present disclosure will be described more fully hereinafter with reference to the accompanying drawings, in which embodiments of the disclosure may be shown and described, and which, when modified and varied by the techniques taught herein, can be made by those skilled in the art without departing from the spirit and scope of the disclosure.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the disclosure. The singular forms "a", "an", "the" and "the", as used herein, also include the plural forms.

The terms "first," "second," and the like, as used herein, do not denote any order or importance, nor do they denote any order or importance, but rather are used to distinguish one element from another element or operation described in such technical terms.

As used herein, "connected" or "positioned" refers to two or more elements or devices being in direct physical contact with each other or in indirect physical contact with each other, and may also refer to two or more elements or devices being in operation or acting on each other.

As used herein, the terms "comprising," "including," "having," and the like are open-ended terms that mean including, but not limited to.

As used herein, the term (terms), unless otherwise indicated, shall generally have the ordinary meaning as commonly understood by one of ordinary skill in the art, in this written description and in the claims. Certain words used to describe the disclosure are discussed below or elsewhere in this specification to provide additional guidance to those skilled in the art in describing the disclosure.

The terms "front", "rear", "upper", "lower", "left" and "right" used herein are directional terms, and are used only for describing the positional relationship between the structures, and are not intended to limit the specific direction of the protective reaction and the practical implementation of the present invention.

Example (b): referring to fig. 1 to 7, a multi-outlet synchronous glue-pouring device comprises a base 1 and five glue-pouring units;

two glue inlet channels 2 penetrate through the base 1 along the left and right directions; the two glue inlet channels 2 are correspondingly provided with interfaces 17 at the left side and the right side of the base 1;

the five glue filling units are arranged in the left-right direction and are serially connected in the base 1, and the two glue inlet channels 2 are communicated with the five glue filling units;

each glue pouring unit is internally provided with two glue pouring mechanisms and a glue dispensing head 3, the two glue pouring mechanisms are arranged in a tandem and opposite manner, the glue pouring mechanism positioned on the front side is communicated with one of the glue inlet channels 2, and the glue pouring mechanism positioned on the rear side is communicated with the other glue inlet channel 2;

each dispensing head 3 is arranged below the base 1 and corresponds to the glue filling unit; each dispensing head 3 is provided with two glue outlet channels 4, one glue outlet channel 4 is communicated with a glue pouring mechanism on the front side in the corresponding glue pouring unit, and the other glue outlet channel 4 is communicated with a glue pouring mechanism on the rear side in the corresponding glue pouring unit; the corresponding glue filling unit is the glue filling unit where the dispensing head 3 is located;

the glue pouring mechanism comprises a piston sleeve 5, a piston rod 6, an openable glue sucking channel and an openable glue discharging channel;

the piston sleeve 5 is detachably arranged in the base 1, a cavity 7 in the piston sleeve 5 is used for containing glue, and the piston rod 6 is arranged in the cavity 7 of the piston sleeve 5 in a vertically sliding manner to form a piston mechanism;

the cavity 7 is a columnar space, in each glue filling unit, the heights of the cavities 7 of the piston sleeves 5 of the two glue filling mechanisms are the same, namely the moving strokes of the piston rods 6 are the same, and the volumes of the cavities 7 can be changed by changing the cross-sectional areas of the cavities 7 and the diameters of the piston rods 6, so that in the same glue filling unit, when the two piston rods 6 move synchronously, the glue discharging amount of the two glue filling mechanisms is related to the cross-sectional areas of the cavities 7 thereof in the same time, and the glue discharging proportion can be changed by replacing the piston sleeves 5 with different cavities 7;

the openable glue sucking channel is communicated between the corresponding cavity 7 and the corresponding glue inlet channel 2 in an openable mode; the openable glue discharging channel is communicated between the corresponding accommodating cavity 7 and the glue outlet channel 4 of the corresponding glue dispensing head 3 in an openable and closable manner;

the openable glue sucking channel comprises a glue sucking air valve 8, a first glue sucking channel 9 and a second glue sucking channel 10; the glue sucking air valve 8 is provided with a piston cavity 15 and a piston block 14, and the piston block 14 and the piston cavity 15 form a piston structure; a first end of two ends of the first glue absorbing channel 9 is communicated to the containing cavity 7 corresponding to the piston sleeve 5, and a second end is communicated to the piston cavity 15 of the glue absorbing air valve 8; a first end of the two ends of the second glue absorbing channel 10 is communicated to the corresponding glue inlet channel 2, and a second end of the two ends of the second glue absorbing channel is communicated to the piston cavity 15 of the glue absorbing air valve 8; thereby controlling the connection and disconnection between the glue inlet channel 2 and the corresponding cavity 7 through the piston motion of the glue sucking air valve 8;

the openable glue discharging channel comprises a glue discharging air valve 11, a first glue discharging channel 12 and a second glue discharging channel 13; the glue discharging air valve 11 is provided with a piston cavity 15 and a piston block 14, and the piston block 14 and the piston cavity 15 form a piston structure; a first end of two ends of the first glue discharging channel 12 is communicated to the containing cavity 7 corresponding to the piston sleeve 5, and a second end is communicated to the piston cavity 15 of the glue discharging air valve 11; a first end of the two ends of the second glue discharging channel 13 is communicated to the corresponding glue discharging channel 4 of the corresponding glue dispensing head 3, and a second end of the two ends of the second glue discharging channel is communicated to the piston cavity 15 of the glue discharging air valve 11; thereby controlling the connection and disconnection between the glue outlet channel 4 and the corresponding cavity 7 through the piston motion of the glue discharging air valve 11;

in the two glue filling mechanisms of each glue filling unit:

each glue suction air valve 8 is a piston mechanism consisting of a piston block 14 and a piston cavity 15, the piston block 14 elastically slides in the piston cavity 15 through a spring 16, meanwhile, the piston block 14 is controlled by an air source, and during ventilation, the piston block 14 overcomes the elastic force of the spring 16 to move and block the communication between the piston cavity 15 and the first glue suction channel 9 and the second glue suction channel 10, so as to block the communication between the glue inlet channel 2 and the corresponding cavity 7; when the air is cut off, the spring 16 resets the piston block 14 to restore the communication between the piston cavity 15 of the piston block and the first glue absorbing channel 9 and the second glue absorbing channel 10, so as to restore the communication between the glue inlet channel 2 and the corresponding cavity 7; each glue sucking air valve 8 synchronously controls air ventilation or air cut-off so as to realize that the two glue pouring mechanisms simultaneously suck glue from the glue inlet channel 2 to the corresponding cavity 7;

each glue discharging air valve 11 is a piston mechanism consisting of a piston block 14 and a piston cavity 15, the piston block 14 elastically slides in the piston cavity 15 through a spring 16, meanwhile, the piston block 14 is controlled by an air source, and during ventilation, the piston block 14 overcomes the elastic force of the spring 16 to move and block the communication between the piston cavity 15 and the first glue discharging channel 12 and the second glue discharging channel 13, so that the communication between the glue discharging channel 4 and the corresponding accommodating cavity 7 is blocked; when the air is cut off, the spring 16 resets the piston block 14 to restore the communication between the piston cavity 15 of the piston block and the first glue discharging channel 12 and the second glue discharging channel 13, so as to restore the communication between the glue discharging channel 4 and the corresponding accommodating cavity 7; each glue discharging air valve 11 synchronously controls air ventilation or air cut-off so as to realize that the two glue pouring mechanisms simultaneously discharge glue from the corresponding cavities 7 to the glue dispensing heads 3;

the piston rods 6 move synchronously, so that the proportion of the glue extruded by the corresponding glue heads 3 at each point during the glue dispensing operation is consistent;

the working process of the multi-outlet synchronous glue pouring device is as follows:

the first step is as follows: two glue inlet channels (2) are used for feeding glue, wherein one glue inlet channel enters the first component glue, and the other glue inlet channel enters the second component glue; in the five glue filling units, the glue suction air valves 8 of the glue filling mechanisms are synchronously opened, the piston rods 6 are synchronously lifted, so that glue is synchronously fed into the containing cavities 7 of the glue filling mechanisms, the containing cavity 7 of one glue filling mechanism of the same glue filling unit enters the first component glue, and the containing cavity 7 of the other glue filling mechanism enters the second component glue;

the second step is that: when the cavity 7 of each glue filling mechanism is filled with glue, the piston rod 6 stops rising synchronously, and in the five glue filling units, the glue suction air valve 8 of each glue filling mechanism is closed synchronously, so that the first component glue and the second component glue stop entering synchronously in each glue filling unit;

the third step: in the five glue pouring units, the glue discharging air valves 11 of the glue pouring mechanisms are synchronously opened, the piston rods 6 are synchronously descended, and the glue pouring mechanisms synchronously discharge glue to the corresponding glue dispensing heads 3; in each glue head 3, one glue outlet channel 4 is used for discharging first component glue, and the other glue outlet channel 4 is used for discharging second component glue; when the glue pouring mechanism synchronously discharges glue, the glue discharged from the corresponding glue dispensing head 3 is a mixture of a first component glue and a second component glue in the same proportion, and the proportion of the first component glue to the second component glue is the ratio of the cross sections of the corresponding cavities 7;

the fourth step: and each piston rod 6 stops descending synchronously, and in the five glue filling units, the glue discharging air valves 11 of each glue filling mechanism are closed synchronously, so that the first component glue and the second component glue are stopped being discharged to the corresponding glue dispensing heads 3 synchronously in each glue filling unit.

Other embodiments and structural changes of the present invention are described below as follows:

1. in the above embodiment, each glue filling unit is provided with two glue filling mechanisms and a glue dispensing head 3, two glue filling mechanisms are arranged in tandem and are arranged relatively, and each glue filling unit is provided with three or more glue filling mechanisms, the corresponding bases are provided with the same number of glue inlet channels, and the glue dispensing heads 3 are provided with the corresponding number of glue outlet channels, so as to realize the glue mixing function of different component quantities, and the change in the number is included in the utility model, which can be understood and accepted by those skilled in the art.

The above embodiments are only for illustrating the technical concept and features of the present invention, and the purpose of the embodiments is to enable people skilled in the art to understand the contents of the present invention and to implement the present invention, which cannot limit the protection scope of the present invention. All equivalent changes and modifications made according to the spirit of the present invention should be covered by the protection scope of the present invention.

Claims (5)

1. The utility model provides a synchronous encapsulating device of many exports which characterized in that: comprises a base (1) and a plurality of glue pouring units;

a glue inlet channel (2) penetrates through the base (1); a plurality of encapsulating units set up in base (1), all are equipped with encapsulating mechanism and dispensing head (3) in every encapsulating unit, wherein:

the glue filling mechanism in each glue filling unit is communicated with the glue inlet channel (2); a glue outlet channel (4) is formed in each glue dispensing head (3), and the glue outlet channels (4) are communicated with a glue pouring mechanism;

the glue filling mechanism comprises a piston sleeve (5), a piston rod (6), an openable glue sucking channel and an openable glue discharging channel;

the piston sleeve (5) is arranged in the base (1), a containing cavity (7) for containing glue is formed in the piston sleeve (5), and the piston rod (6) is arranged in the containing cavity (7) of the piston sleeve (5) in a vertically sliding mode to form a piston mechanism;

the openable glue sucking channel is communicated between the cavity (7) in the glue filling mechanism and the glue inlet channel (2) in an openable mode; the openable glue discharging channel is communicated between the containing cavity (7) in the glue pouring mechanism and the glue outlet channel (4) communicated with the glue pouring mechanism in an openable and closable manner;

in each glue filling unit, the piston rods (6) move synchronously, the openable glue sucking channels are opened and closed synchronously, and the openable glue discharging channels are opened and closed synchronously.

2. The multi-outlet synchronous glue pouring device according to claim 1, characterized in that: a plurality of glue inlet channels (2) are arranged in the base (1) in a penetrating manner; every all be equipped with a plurality of encapsulating mechanisms and one dispensing head (3) in the encapsulating unit, wherein:

the number of glue pouring mechanisms in each glue pouring unit is equal to that of the glue inlet channels (2) in the base (1), and each glue pouring mechanism is communicated with each glue inlet channel (2) in a one-to-one correspondence manner; each dispensing head (3) is provided with a plurality of glue outlet channels (4), each glue outlet channel (4) in the glue pouring unit is equal to the glue pouring mechanism in number, and each glue outlet channel (4) is communicated with each glue pouring mechanism in a one-to-one correspondence manner.

3. The multi-outlet synchronous glue pouring device according to claim 1, characterized in that: the openable glue sucking channel comprises a glue sucking air valve (8), a first glue sucking channel (9) and a second glue sucking channel (10);

in each glue pouring mechanism, the first end of the two ends of the first glue absorbing channel (9) is communicated to the containing cavity (7) of the piston sleeve (5), and the second end of the first glue absorbing channel is communicated to the glue absorbing air valve (8); a first end of two ends of the second glue sucking channel (10) is communicated to the glue inlet channel (2) corresponding to the glue pouring mechanism, and a second end of the second glue sucking channel is communicated to the glue sucking air valve (8); thereby controlling the connection and disconnection between the glue inlet channel (2) and the cavity (7) through the glue sucking air valve (8).

4. The multi-outlet synchronous glue pouring device according to claim 1, characterized in that: the openable glue discharging channel comprises a glue discharging air valve (11), a first glue discharging channel (12) and a second glue discharging channel (13);

in each glue filling mechanism, the first end of the two ends of the first glue discharging channel (12) is communicated to the containing cavity (7) of the piston sleeve (5), and the second end is communicated to the glue discharging air valve (11); a first end of the two ends of the second glue discharging channel (13) is communicated to the glue outlet channel (4) corresponding to the glue pouring mechanism, and a second end of the second glue discharging channel is communicated to the glue discharging air valve (11); thereby controlling the connection and disconnection between the glue outlet channel (4) and the corresponding cavity (7) through the glue discharging air valve (11).

5. The multi-outlet synchronous glue pouring device according to claim 1, characterized in that: in each glue filling unit, the containing cavity (7) of the piston sleeve (5) of each glue filling mechanism is a columnar space, the piston sleeves (5) are detachably arranged in the base (1), the containing cavities (7) are the same in height, and the piston rods (6) synchronously move in the height direction corresponding to the piston sleeves (5).

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