CN113522639B - Aluminum alloy frame glue injection device and working method thereof - Google Patents

Abstract

The invention provides an aluminum alloy frame glue injection device and a working method thereof, wherein the aluminum alloy frame glue injection device comprises a placing table, an accommodating groove, an aluminum alloy frame and a rough adjusting assembly; the accommodating grooves are of a multi-group structure, and the plurality of groups of accommodating grooves are arranged on the placing table in an arc-shaped dispersing manner; through the setting of coarse adjustment assembly, can make the rolling disc rotate to different positions, just so can drive the injecting glue import that the injecting head of the injecting glue ware of fine adjustment assembly can aim at the aluminum alloy frame of different positions to through the setting of sliding block and through the fine adjustment assembly of the rotation effect drive of eccentric wheel the injecting glue head that drives the post glue ware insert in the import or extract from the import. In addition, through the setting of fine adjustment subassembly, can realize injecting glue in proper order to the import of two adjacent positions on the frame through the setting of swing piece to can promote the serialization and the automatic work level of injecting glue well.

Description

Aluminum alloy frame glue injection device and working method thereof

Technical Field

The invention relates to the field of aluminum alloy processing, in particular to a device structure and a working method capable of realizing continuous and automatic glue injection process for a glue injection port of an aluminum alloy frame structure.

Background

The aluminum alloy frame has very important application significance in the industrial field and daily life.

The aluminum alloy frame can be used as a glass mounting carrier and can be widely applied to the fields of building structures, industrial protection and the like. The most common structure of aluminum alloy frames is a rectangular aluminum alloy frame structure, which usually has four corner portions, and each corner portion has an inlet for injecting glue and an outlet for discharging glue. The sealing and heat-insulating properties of the aluminum alloy frame can be obviously improved by injecting the foaming colloid at the inlet.

In the actual operation process, the glue injection of the aluminum alloy frame is usually performed in a manual glue injection mode, namely, workers manually align the glue injection devices one by one to an inlet to complete glue injection, so that the working mode is high in labor consumption, the working efficiency is greatly inhibited, and the control on the economic cost of an enterprise is very unfavorable.

Disclosure of Invention

In order to solve the problems in the prior art, the invention provides a device structure and a working method capable of automatically and continuously injecting glue to a plurality of glue injection ports of an aluminum alloy frame.

The invention provides an aluminum alloy frame glue injection device which comprises a placing table, an accommodating groove, an aluminum alloy frame and a rough adjusting assembly, wherein the accommodating groove is formed in the aluminum alloy frame;

the accommodating grooves are of a multi-group structure, and the plurality of groups of accommodating grooves are arranged on the placing table in an arc-shaped dispersing manner;

the aluminum alloy frame is placed in the accommodating groove, two glue injection ports and two glue outlet ports are formed in corners of the aluminum alloy frame, the glue injection ports are communicated with the glue outlet ports, and the glue injection ports are located on a first side frame of the aluminum alloy frame;

the rough adjusting assembly is arranged on the placing table and is provided with a scale plate, a rotating disc, a sliding groove, a sliding block, an eccentric wheel, a first motor and a second motor, the scale plate is fixed on the placing table, the first motor is connected with the eccentric wheel, the second motor penetrates through the scale plate and is connected with the rotating disc, the sliding groove is formed in the rotating disc, the sliding block is slidably arranged in the sliding groove, a first protruding head and a second protruding head are respectively arranged at two ends of the sliding groove, the eccentric wheel is used for driving the first protruding head and the second protruding head in a contact mode, and the edge portion of the scale plate is provided with an arc scale mark;

the fine adjusting assembly is connected with the end part of the sliding block through a driving plate and is provided with a fixed plate, a swinging block, a limiting rotating column, an installation body, a swinging cylinder, a glue injector and a cylinder structure; the fixed plate with the sliding block is connected, the swing piece has spacing arc hole, the gag lever post has on the fixed plate, spacing arc hole cover is established on the gag lever post, four spacing rotation posts of group establish on the outer wall of swing piece, the upper portion of swing piece is fixed the installation body, the installation body coupling is in on the telescopic link of swing cylinder, the injecting glue ware is fixed the installation bending groove of installation body, the cylinder structure with the push rod of injecting glue ware is connected.

The beneficial effect of above-mentioned scheme does: through the setting of coarse adjustment assembly, can make the rolling disc rotate to different positions, just so can drive the injecting glue import that the injecting head of the injecting glue ware of fine adjustment assembly can aim at the aluminum alloy frame of different positions to through the setting of sliding block and through the fine adjustment assembly of the rotation effect drive of eccentric wheel the injecting glue head that drives the post glue ware insert in the import or extract from the import. In addition, through the setting of fine adjustment subassembly, can realize injecting glue in proper order to the import of two adjacent positions on the frame through the setting of swing piece to can promote the serialization and the automatic work level of injecting glue well.

According to a preferred scheme, the accommodating groove is provided with a lifting platform, the lifting platform is sleeved on the screw rod, the screw rod is connected with a lifting motor, the lifting platform is further sleeved on the sliding rod, and the aluminum alloy frame is placed on the lifting platform.

The beneficial effect of above-mentioned scheme does: the aluminum alloy frame can be driven to move up and down through the lifting platform, so that the glue injection process of the upper portion and the lower portion of the frame can be achieved in the vertical direction, and the efficiency is further improved.

Preferably, the edge of the rotating disc is provided with an arc groove part, a plurality of groups of proximity switches are arranged in the arc groove part in a sliding manner, and the surface of the side wall of the rotating disc is provided with an induction part used for inducing the proximity switches.

The beneficial effect of above-mentioned scheme does: move to accurate position better in order to realize the rolling disc to make the injecting glue ware of fine adjustment subassembly can aim at the aluminum alloy frame of different positions, just can carry out position control through proximity switch. And when error adjustment is needed, or when glue injection is not needed at a certain station, the rotation stop position of the rotating disc can be controlled through the arrangement or position movement of the proximity switch in the arc groove part, so that the use is more convenient.

The invention provides a working method of an aluminum alloy frame glue injection device, which comprises the following steps:

s1: placing an aluminum alloy frame to be subjected to glue injection into the accommodating groove, and keeping the first side frame to lean against the fine adjustment assembly, wherein glue injection ports on the first side frame are a glue injection port on the left side and a glue injection port on the right side;

s2: starting the coarse adjustment assembly to work, and driving the rotating disc to rotate by the second motor, so that the fine adjustment assembly is sequentially aligned to the first side frames of the aluminum alloy frames in the accommodating grooves at different positions;

s3, starting the fine adjustment assembly to work, driving the mounting body and the swinging block to swing by the swinging cylinder, swinging the swinging block between the limiting rotating columns, and limiting the swinging block to be limited by the limiting rod through the limiting arc-shaped hole; when the left end part of the limiting arc-shaped hole is in contact with the limiting rod, the glue injection head of the glue injector corresponds to the glue injection port on the right side, and when the right end part of the limiting arc-shaped hole is in contact with the limiting rod, the glue injection head of the glue injector corresponds to the glue injection port on the left side;

s4, the first motor drives the eccentric wheel to rotate, so that the eccentric wheel drives the sliding block to slide and displace along the sliding groove, and when the sliding block moves along the sliding groove, the fine adjusting assembly is linked through the driving plate to move, and then the glue injection head of the glue injector is inserted into the glue injection port; when the eccentric wheel drives the first protruding head of the sliding block to be close to the first end part of the driving plate, the glue injection head of the glue injector is inserted into the glue injection port, and when the eccentric wheel drives the second protruding head of the sliding block to be close to the second end part, the glue injection head of the glue injector is separated from the glue injection port.

And S5, the glue injector completes the glue injection process to the inside of the glue injection port under the driving action of the cylinder structure.

According to a preferable scheme, the accommodating groove is provided with a lifting platform, the lifting platform is sleeved on a screw rod, the screw rod is connected with a lifting motor, the lifting platform is further sleeved on a sliding rod, and the aluminum alloy frame is placed on the lifting platform;

the working method comprises the following steps: the lifting motor drives the screw rod to rotate, the screw rod drives the lifting platform to lift along the sliding rod, so that the aluminum alloy frame to be subjected to glue injection lifts in the vertical direction, and moves to different heights after lifting, and therefore glue injection actions of the glue injection port are achieved at different height positions.

Preferably, the edge part of the rotating disc is provided with an arc groove part, a plurality of groups of proximity switches are arranged in the arc groove part in a sliding manner, and the surface of the side wall of the rotating disc is provided with an induction part used for inducing the proximity switches;

the working method comprises the following steps: each group of proximity switches is used for rotating the rotating disc to an accurate position so that the glue injector is aligned and positioned with the aluminum alloy frame in the accommodating groove; when the position of the accommodating groove is changed, the proximity switch slides in the arc groove part to move to an accurate position, so that the glue injector can be aligned with the glue injection port in the accommodating groove; in addition, in the rotating process of the rotating disc, signals are generated through the induction of the induction part and the proximity switch, so that the rotation stop position of the rotating disc is controlled.

Drawings

Fig. 1 is a schematic structural diagram of an aluminum alloy frame glue injection device of the present invention.

Fig. 2 is a schematic structural view of the aluminum alloy frame glue injection device in a top view.

Fig. 3 is a partially enlarged structural schematic view of the aluminum alloy frame glue injection device in a top view state.

Fig. 4 is a partially enlarged structural schematic view of the aluminum alloy frame glue injection device of the invention.

Fig. 5 is a partially enlarged structural schematic view of the aluminum alloy frame glue injection device of the invention.

Fig. 6 is a partially enlarged structural schematic diagram of the aluminum alloy frame glue injection device of the invention.

Fig. 7 is a partially enlarged structural schematic view of an arc-shaped groove of the aluminum alloy frame glue injection device of the invention.

Detailed Description

The first embodiment:

as shown in fig. 1 to 6, the aluminum alloy frame glue injection apparatus of the present embodiment includes a placing table 10, an accommodating groove 11, an aluminum alloy frame 20, a coarse adjustment assembly 30, and a fine adjustment assembly 40.

The holding tank 11 is a multi-group structure, and the multi-group holding tank 11 is arranged on the placing table 10 in an arc-shaped dispersed manner.

Aluminum alloy frame 20 is placed in holding tank 11, and aluminum alloy frame 20's corner has two injecting glue mouths 21 and two play jiao kou 22, and injecting glue mouth 21 communicates with a jiao kou 22, and injecting glue mouth 21 is located aluminum alloy frame 20's first side frame 23.

The rough adjustment assembly 30 is arranged on the placing table 10, the rough adjustment assembly 30 is provided with a scale plate 31, a rotating disc 32, a sliding groove 33, a sliding block 34, an eccentric wheel 35, a first motor 36 and a second motor 37, the scale plate 31 is fixed on the placing table 10, the first motor 36 is connected with the eccentric wheel 35, the second motor 37 penetrates through the scale plate 31 and is connected with the rotating disc 32, the sliding groove 33 is arranged on the rotating disc 32, the sliding block 34 is slidably arranged in the sliding groove 33, two ends of the sliding groove 33 are respectively provided with a first protruding head 38 and a second protruding head 39, the eccentric wheel 35 is used for driving the first protruding head 38 and the second protruding head 39 in a contact mode, and the edge portion of the scale plate 31 is provided with an arc-shaped scale mark 311.

The fine adjusting assembly 40 is connected with the end part of the sliding block 34 through a driving plate, and the fine adjusting assembly 40 is provided with a fixing plate 41, a swinging block 42, a limiting rotating column 43, an installation body 44, a swinging cylinder 45, a glue injector 46 and a cylinder structure 47; the fixed plate 41 is connected with the sliding block 34, the swinging block 42 is provided with a limiting arc-shaped hole 48, the fixed plate 41 is provided with a limiting rod 49, the limiting arc-shaped hole 48 is sleeved on the limiting rod 49, the four groups of limiting rotating columns 43 are arranged on the outer wall surface 51 of the swinging block 42, the upper part of the swinging block 42 is fixedly provided with the installation body 44, the installation body 44 is connected onto the telescopic rod of the swinging cylinder 45, the telescopic rod of the swinging cylinder 45 is preferably hinged onto the installation body 44, the glue injector 46 is fixed in the installation curved groove 52 of the installation body 44, and the cylinder structure 47 is connected with the push rod 53 of the glue injector 46.

The working method of the aluminum alloy frame glue injection device provided by the embodiment comprises the following steps:

s1: placing the aluminum alloy frame 20 to be subjected to glue injection into the accommodating groove 11, keeping the first side frame 23 close to the fine adjusting assembly 40, and enabling the glue injection port 21 on the first side frame 23 to be a glue injection port on the left side and a glue injection port on the right side;

s2: starting the coarse adjustment assembly 30 to work, and driving the rotating disc 32 to rotate by the second motor 37, so that the fine adjustment assembly 40 is sequentially aligned with the first side frames 23 of the aluminum alloy frames 20 in the accommodating grooves 11 at different positions;

s3, starting the fine adjustment assembly 40 to work, driving the installation body 44 and the swinging block 42 to swing by the swinging cylinder 45, swinging the swinging block 42 between the limiting rotation columns 43, and limiting the swinging block 42 to swing by the limiting rods 49 through the limiting arc-shaped holes 48; when the left end of the limiting arc-shaped hole 48 contacts the limiting rod 49, the glue injection head of the glue injector 46 corresponds to the glue injection port 21 on the right side, that is, the state shown in fig. 5, and when the right end of the limiting arc-shaped hole 48 contacts the limiting rod 49, the glue injection head of the glue injector 46 corresponds to the glue injection port 21 on the left side, that is, the state shown in fig. 6;

s4, the first motor 36 drives the eccentric wheel 35 to rotate, so that the eccentric wheel 35 drives the sliding block 34 to perform sliding displacement along the sliding groove 33, and when the sliding block 34 performs position displacement along the sliding groove 33, the sliding block can move by driving the plate to link the fine adjusting assembly 40, and then the glue injection head of the glue injector 46 is inserted into the glue injection port 21; the glue injection head of the glue injector 46 is inserted into the glue injection opening 21 when the eccentric 35 drives the first protruding head 38 of the slide block 34 to approach the first end portion of the driving plate, and the glue injection head of the glue injector 46 is disengaged from the glue injection opening 21 when the eccentric 35 drives the second protruding head 39 of the slide block 34 to the second end portion.

And S5, the glue injector 46 completes the glue injection process to the inside of the glue injection port 21 under the driving action of the cylinder structure 47.

Second embodiment:

as shown in fig. 1, a plurality of accommodating grooves 11 are placed on a lifting platform 61, the lifting platform 61 is sleeved on a screw rod 62, the screw rod 62 is connected with a lifting motor, and the lifting platform 61 is further sleeved on a sliding rod 64;

the working method comprises the following steps: the lifting motor drives the screw rod 62 to rotate, the screw rod 62 drives the lifting platform 61 to lift along the sliding rod 64, so that the aluminum alloy frame 20 to be subjected to glue injection is lifted in the vertical direction and moved to different heights after being lifted, and therefore glue injection action on the glue injection port 21 is achieved at different height positions.

The third embodiment:

as shown in fig. 7, the edge portion of the rotating disk 32 has an arc-shaped groove portion 65, a plurality of sets of proximity switches 66 are slidably disposed in the arc-shaped groove portion 65, and a side wall surface 68 of the rotating disk 32 has a sensing portion 67 for sensing with the proximity switches 66;

the working method comprises the following steps: each group of proximity switches is used for rotating the rotating disc 32 to an accurate position so that the glue injector 46 is aligned and positioned with the aluminum alloy frame 20 in the accommodating groove 11; when the position of the accommodating groove 11 changes, the proximity switch slides in the arc-shaped groove 65 to move to a correct position, so that the glue injector 46 can be aligned with the glue injection port 21 in the accommodating groove 11; in addition, during the rotation of the rotary disk 32, a signal is generated by the sensing of the sensing part and the proximity switch, so as to control the rotation stop position of the rotary disk 32.

Claims (6)

1. The utility model provides an aluminum alloy frame injecting glue device which characterized in that includes:

a placing table;

the holding tanks are of a multi-group structure and are arranged on the placing table in an arc-shaped dispersion manner;

the aluminum alloy frame is placed in the accommodating groove, two glue injection ports and two glue outlet ports are formed in corners of the aluminum alloy frame, the glue injection ports are communicated with the glue outlet ports, and the glue injection ports are located on a first side frame of the aluminum alloy frame;

the rough adjusting assembly is arranged on the placing table and is provided with a scale plate, a rotating disc, a sliding groove, a sliding block, an eccentric wheel, a first motor and a second motor, the scale plate is fixed on the placing table, the first motor is connected with the eccentric wheel, the second motor penetrates through the scale plate and is connected with the rotating disc, the sliding groove is formed in the rotating disc, the sliding block is slidably arranged in the sliding groove, a first protruding head and a second protruding head are respectively arranged at two ends of the sliding groove, the eccentric wheel is used for driving the first protruding head and the second protruding head in a contact mode, and the edge portion of the scale plate is provided with an arc scale mark;

the fine adjusting assembly is connected with the end part of the sliding block through a driving plate and is provided with a fixed plate, a swinging block, a limiting rotating column, an installation body, a swinging cylinder, a glue injector and a cylinder structure; the fixed plate with the sliding block is connected, the swing piece has spacing arc hole, the gag lever post has on the fixed plate, spacing arc hole cover is established on the gag lever post, four spacing rotation posts of group establish on the outer wall of swing piece, the upper portion of swing piece is fixed the installation body, the installation body coupling is in on the telescopic link of swing cylinder, the injecting glue ware is fixed the installation bending groove of installation body, the cylinder structure with the push rod of injecting glue ware is connected.

2. The aluminum alloy frame glue injection device according to claim 1,

a plurality of the holding tank sets up at lift platform, lift platform cover is established on the lead screw, the lead screw is connected with elevator motor, lift platform still overlaps and establishes on the litter.

3. The aluminum alloy frame glue injection device according to claim 1,

the edge part of rolling disc has the arc slot part, it is provided with the multiunit proximity switch to slide in the arc slot part, the lateral wall surface of rolling disc have be used for with the response portion of proximity switch response.

4. The working method of the aluminum alloy frame glue injection device according to claim 1, characterized by comprising the following steps:

s1: placing an aluminum alloy frame to be subjected to glue injection into the accommodating groove, and keeping the first side frame to lean against the fine adjustment assembly, wherein glue injection ports on the first side frame are a glue injection port on the left side and a glue injection port on the right side;

s2: starting the coarse adjustment assembly to work, and driving the rotating disc to rotate by the second motor, so that the fine adjustment assembly is sequentially aligned to the first side frames of the aluminum alloy frames in the accommodating grooves at different positions;

s3, starting the fine adjustment assembly to work, driving the mounting body and the swinging block to swing by the swinging cylinder, swinging the swinging block between the limiting rotating columns, and limiting the swinging block to swing by the limiting rod through the limiting arc-shaped hole; when the left end part of the limiting arc-shaped hole is in contact with the limiting rod, the glue injection head of the glue injector corresponds to the glue injection port on the right side, and when the right end part of the limiting arc-shaped hole is in contact with the limiting rod, the glue injection head of the glue injector corresponds to the glue injection port on the left side;

s4, the first motor drives the eccentric wheel to rotate, so that the eccentric wheel drives the sliding block to slide and displace along the sliding groove, and when the sliding block moves along the sliding groove, the fine adjusting assembly is linked through the driving plate to move, and then the glue injection head of the glue injector is inserted into the glue injection port; when the eccentric wheel drives the first protruding head of the sliding block to be close to the first end part of the driving plate, the glue injection head of the glue injector is inserted into the glue injection port, and when the eccentric wheel drives the second protruding head of the sliding block to be close to the second end part, the glue injection head of the glue injector is separated from the glue injection port;

and S5, the glue injector completes the glue injection process to the inside of the glue injection port under the driving action of the cylinder structure.

5. The working method of the aluminum alloy frame glue injection device according to claim 4,

the lifting platform is arranged below the plurality of accommodating grooves, the lifting platform is sleeved on a screw rod, the screw rod is connected with a lifting motor, and the lifting platform is further sleeved on a sliding rod;

the working method comprises the following steps: the lifting motor drives the screw rod to rotate, the screw rod drives the lifting platform to lift along the sliding rod, so that the aluminum alloy frame to be subjected to glue injection lifts in the vertical direction, and moves to different heights after lifting, and therefore glue injection actions of the glue injection port are achieved at different height positions.

6. The working method of the aluminum alloy frame glue injection device according to claim 4,

the edge part of the rotating disc is provided with an arc-shaped groove part, a plurality of groups of proximity switches are arranged in the arc-shaped groove part in a sliding mode, and the surface of the side wall of the rotating disc is provided with an induction part used for inducing the proximity switches;

the working method comprises the following steps: each group of proximity switches is used for rotating the rotating disc to an accurate position so that the glue injector is aligned and positioned with the aluminum alloy frame in the accommodating groove; when the position of the accommodating groove is changed, the proximity switch slides in the arc groove part to move to an accurate position, so that the glue injector can be aligned with the glue injection port in the accommodating groove; in addition, in the rotating process of the rotating disc, signals are generated through the induction of the induction part and the proximity switch, so that the rotation stop position of the rotating disc is controlled.

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