CN111283963A

CN111283963A - Full-automatic production forming device for wall bushing

Info

Publication number: CN111283963A
Application number: CN201811488479.2A
Authority: CN
Inventors: 刘洋洋
Original assignee: Xinyi City Lvfeng Agriculture Technology Co ltd
Current assignee: Xinyi City Lvfeng Agriculture Technology Co ltd
Priority date: 2018-12-06
Filing date: 2018-12-06
Publication date: 2020-06-16

Abstract

The invention discloses a full-automatic production and forming device for a wall bushing, which comprises a vacuum pump, an air guide pipe, an air guide valve, a stirring device, a first conveying pipe, an electric control device, a material injection device, a second conveying pipe and a forming device, wherein the air guide pipe is connected above the vacuum pump, the other end of the air guide pipe is connected with the stirring device, the air guide valve is arranged in the middle of the air guide pipe, and a motor is connected above the stirring device. Avoids the harm of the unpleasant smell to the human body when the operation is carried out manually, and increases the safety.

Description

Full-automatic production forming device for wall bushing

Technical Field

The invention relates to the technical field of power equipment, in particular to a full-automatic production and forming device for a wall bushing.

Background

As a pipeline device, the wall bushing is often installed on a wall of a building, and can be used for leading out or leading in current. The commonly used wall bushing is made of insulating ceramic or glass, is fragile and not durable, and has a complex production process. The existing wall bushing is mainly formed by injection molding of epoxy resin through an APG (advanced manufacturing group) production process, but the existing APG production process forming equipment only has the functions of material mixing and injection molding, the injection amount of raw materials cannot be effectively controlled, so that the problem of too much or too little raw material injection exists in the process of injection molding each time, and the problem of overweight or incomplete wall bushing is caused.

Disclosure of Invention

The invention aims to provide a full-automatic production forming device for wall bushing, which is convenient to use, ensures the purity of raw materials, increases the production precision, increases the stirring uniformity, improves the stirring efficiency, saves time, improves the efficiency, ensures the same raw material amount and uniform weight of each wall bushing produced by the forming device, further ensures the uniform and stable quality of the wall bushing produced by forming equipment, further ensures the stable and uniform properties of each part of the formed wall bushing, is fully automatically operated integrally, saves manpower, increases the overall efficiency, avoids the harm of unpleasant smell to human bodies during manual operation, increases the safety, and solves the problems in the prior art.

In order to achieve the purpose, the invention provides the following technical scheme: a full-automatic production and forming device for a wall bushing comprises a vacuum pump, an air duct, an air guide valve, a stirring device, a first conveying pipe, an electric control device, an injection device, a second conveying pipe, a forming device, a motor and an injection valve, wherein the air duct is connected above the vacuum pump, the other end of the air duct is connected with the stirring device, the air guide valve is arranged in the middle of the air duct, the motor is connected above the stirring device, the stirring device consists of a rotating shaft, a fixed seat, a rotating screw rod, stirring blades, a feeding hole, a material conveying port and a stirring shell, the rotating shaft, the fixed seat, the rotating screw rod, the stirring blades, the feeding hole and the material conveying port are arranged in the stirring shell, the feeding hole is arranged above the stirring shell, the fixed seat is arranged above the stirring shell, and the rotating shaft is connected below the fixed, the lower part of the rotating shaft is connected with a rotating screw rod, the outer side of the rotating screw rod is provided with stirring fan blades, the lower part of the stirring device is connected with a first conveying pipe, the middle of the first conveying pipe is provided with a material injection valve, the other end of the first conveying pipe is connected with a material injection device, the material injection device consists of a material injection groove, a telescopic device, a material injection rod, a material injection plug and a material injection shell, the material injection rod is arranged above the telescopic device, the material injection plug is connected above the material injection rod, the material injection groove is arranged above the material injection plug, the front end of the material injection device is connected with an electric control device, the electric control device is provided with a timer, a control switch, a display and a meter, the second conveying pipe is connected above the material injection device, the top end of the second conveying pipe is connected with a forming device, and the forming device consists of a mold groove, a, the mould is arranged above the mould groove, the pressing block is connected above the mould, the supporting rod is connected above the pressing block, and the rotating device is connected above the supporting rod.

Preferably, one end of the air duct is installed in the stirring device, and the vacuum pump, the air duct and the stirring device are all fixedly connected in a sealing manner.

Preferably, there are two stirring blades, and the stirring blades are rotatably connected with the stirring shell through a rotating shaft and a rotating screw rod.

Preferably, the electric control device controls the stirring and injection time and dosage by a timer and a meter.

Preferably, the material injection plug is used for injecting materials through the expansion device and the material injection rod.

Preferably, the briquetting and the mould are rotationally connected with the mould groove through a rotating device.

Preferably, the upper ends of the lower end of the pressing block and the die are both provided with bayonet lock structures, and the pressing block is connected with the die through the bayonet lock structures.

Compared with the prior art, the invention has the following beneficial effects:

1. according to the full-automatic production forming device for the wall bushing, the air guide pipe is connected above the vacuum pump, the other end of the air guide pipe is connected with the stirring device, one end of the air guide pipe is installed inside the stirring device, the vacuum pump, the air guide pipe and the stirring device are fixedly connected in a sealing mode, air is prevented from entering the stirring device through the sealing connection, the purity of raw materials is guaranteed, and the production precision is improved.

2. The invention relates to a full-automatic production forming device of a wall bushing, wherein a stirring device consists of a rotating shaft, a fixed seat, a rotating screw, stirring blades, a feed inlet, a material conveying port and a stirring shell, the rotating shaft, the fixed seat, the rotating screw, the stirring blades, the feed inlet and the material conveying port are arranged in the stirring shell, the feed inlet is arranged above the stirring shell, the material conveying port is arranged below the stirring shell, the fixed seat is arranged above the stirring shell, the rotating shaft is connected below the fixed seat, the rotating screw is connected below the rotating shaft, the stirring blades are arranged outside the rotating screw, the two stirring blades are connected with the stirring shell in a rotating way through the rotating shaft and the rotating screw, the stirring blades are driven to stir through the rotating shaft and the rotating screw, the stirring blades are stirred by the two stirring blades, the stirring uniformity of the stirring is increased, and, time is saved, and efficiency is improved.

3. The invention relates to a full-automatic production forming device of wall bushing, wherein a material injection plug is used for injecting materials through a telescopic device and a material injection rod, the front end of the material injection device is connected with an electric control device, the electric control device is provided with a timer, a control switch, a display and a meter, the electric control device controls the stirring and injection molding time and dosage through the timer and the meter, the electric control device controls the material injection device to inject materials quantitatively, the material injection device is used for injecting materials quantitatively into the forming device, the raw material quantity and the weight of each wall bushing produced by the forming device are ensured to be the same, and the uniform and stable quality of the wall bushings produced by the forming device is further ensured.

4. The invention relates to a full-automatic production forming device of a wall bushing, wherein a die is arranged above a die groove, a pressing block is connected above the die, a supporting rod is connected above the pressing block, a rotating device is connected above the supporting rod, the pressing block and the die are rotatably connected with the die groove through the rotating device, the lower end of the pressing block and the upper end of the die are both provided with a bayonet lock structure, the pressing block is connected with the die through the bayonet lock structure, in the forming process, the rotating device drives the pressing block and the die to rotate, the die is used for mixing and stirring the raw materials in the forming device, the components of the raw materials are uniformly dispersed, the stability and uniformity of the properties of all parts of the formed wall bushing are further ensured, and the whole full-automatic operation saves the manpower, increases the whole efficiency, avoids the harm of the unpleasant smell to the human body during the manual operation and increases the safety.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a cross-sectional view showing the internal structure of the stirring apparatus of the present invention;

FIG. 3 is a schematic view of the overall structure of the electric control device of the present invention;

FIG. 4 is a cross-sectional view of the internal structure of the injection device of the present invention;

FIG. 5 is a sectional view showing the internal structure of the molding apparatus of the present invention.

In the figure: 1. a vacuum pump; 2. an air duct; 3. a gas introduction valve; 4. a stirring device; 401. a rotating shaft; 402. a fixed seat; 403. rotating the screw; 404. a stirring fan blade; 405. a feed inlet; 406. a material conveying port; 407. stirring the shell; 5. a first delivery pipe; 6. an electric control device; 601. a timer; 602. a control switch; 603. a display; 604. a meter; 7. a material injection device; 701. a material injection groove; 702. a telescoping device; 703. a material injection rod; 704. injecting a material plug; 705. injecting a material shell; 8. a second delivery pipe; 9. a molding device; 901. a mold slot; 902. a mold; 903. briquetting; 904. a support bar; 905. a rotating device; 906. forming a shell; 10. a motor; 11. and a material injection valve.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, a full-automatic production molding device for a wall bushing comprises a vacuum pump 1, an air duct 2, an air guide valve 3, a stirring device 4, a first conveying pipe 5, an electric control device 6, a material injection device 7, a second conveying pipe 8, a molding device 9, a motor 10 and a material injection valve 11, wherein the air duct 2 is connected above the vacuum pump 1, the other end of the air duct 2 is connected with the stirring device 4, one end of the air duct 2 is installed inside the stirring device 4, the vacuum pump 1, the air duct 2 and the stirring device 4 are fixedly connected in a sealing manner, air is prevented from entering the stirring device 4 through the sealing connection, the purity of raw materials is ensured, and the production precision is increased; the middle of the air duct 2 is provided with an air guide valve 3, the upper part of the stirring device 4 is connected with a motor 10, the stirring device 4 consists of a rotating shaft 401, a fixed seat 402, a rotating screw 403, stirring fan blades 404, a feed inlet 405, a material conveying port 406 and a stirring shell 407, the rotating shaft 401, the fixed seat 402, the rotating screw 403, the stirring fan blades 404, the feed inlet 405 and the material conveying port 406 are arranged in the stirring shell 407, the feed inlet 405 is arranged above the stirring shell 407, the material conveying port 406 is arranged below the stirring shell 407, the fixed seat 402 is arranged above the stirring shell 407, the rotating shaft 401 is connected below the fixed seat 402, the rotating screw 403 is connected below the rotating shaft 401, the stirring fan blades 404 are arranged outside the rotating screw 403, the number of the stirring fan blades 404 is two, the stirring fan blades 404 are rotatably connected with the stirring shell 407 through the rotating, the stirring fan blades 404 are driven to stir by the rotating shaft 401 and the rotating screw 403, and the two stirring fan blades 404 stir, so that the stirring uniformity is increased, the stirring efficiency is higher, the time is saved, and the efficiency is improved; a first delivery pipe 5 is connected below the stirring device 4, an injection valve 11 is installed in the middle of the first delivery pipe 5, the other end of the first delivery pipe 5 is connected with an injection device 7, the injection device 7 is composed of an injection trough 701, a telescopic device 702, an injection rod 703, an injection plug 704 and an injection shell 705, the injection rod 703 is arranged above the telescopic device 702, the injection plug 704 is connected above the injection rod 703, the injection trough 701 is arranged above the injection plug 704, the injection plug 704 performs injection through the telescopic device 702 and the injection rod 703, the front end of the injection device 7 is connected with an electric control device 6, the electric control device 6 is provided with a timer 601, a control switch 602, a display 603 and a meter 604, the electric control device 6 controls stirring and injection molding time and dosage through the timer 601 and the meter, the electric control device 6 controls the injection device 7 to inject quantitative material into the molding device 9 by using the injection device 7 to quantitatively, the raw material amount of each wall bushing produced by the forming device 9 is the same, the weight is uniform, and the quality of the wall bushings produced by the forming device is uniform and stable; a second conveying pipe 8 is connected above the material injection device 7, a forming device 9 is connected at the top end of the second conveying pipe 8, the forming device 9 is composed of a die groove 901, a die 902, a pressing block 903, a supporting rod 904, a rotating device 905 and a forming shell 906, the die 902 is arranged above the die groove 901, the pressing block 903 is connected above the die 902, the supporting rod 904 is connected above the pressing block 903, the rotating device 905 is connected above the supporting rod 904, the pressing block 903 and the die 902 are rotatably connected with the die groove 901 through the rotating device 905, the lower end of the pressing block 903 and the upper end of the die 902 are both provided with a bayonet lock structure, the pressing block 903 is connected with the die 902 through the bayonet lock structure, in the forming process, the pressing block 903 and the die 902 are driven to rotate by the rotating device 905, the die 902 is used for mixing and stirring raw materials in the forming device 9, uniform dispersion among the components of the raw materials is ensured, and further, and the whole full-automatic operation saves the manpower, increases the whole efficiency, avoids the harm of the unpleasant smell to the human body during the manual operation and increases the safety.

In summary, the following steps: according to the full-automatic production and forming device for the through-wall sleeve, the air guide pipe 2 is connected above the vacuum pump 1, the stirring device 4 is connected to the other end of the air guide pipe 2, one end of the air guide pipe 2 is installed inside the stirring device 4, the vacuum pump 1, the air guide pipe 2 and the stirring device 4 are all in sealed fixed connection, air is prevented from entering the stirring device 4 through sealed connection, the purity of raw materials is guaranteed, and the production precision is increased; the stirring device 4 comprises a rotating shaft 401, a fixed seat 402, a rotating screw 403, stirring blades 404, a feed inlet 405, a feed delivery port 406 and a stirring shell 407, wherein the rotating shaft 401, the fixed seat 402, the rotating screw 403, the stirring blades 404, the feed inlet 405 and the feed delivery port 406 are arranged in the stirring shell 407, the feed inlet 405 is arranged above the stirring shell 407, the feed outlet 406 is arranged below the stirring shell 407, the fixed seat 402 is arranged above the stirring shell 407, the rotating shaft 401 is connected below the fixed seat 402, the rotating screw 403 is connected below the rotating shaft 401, the stirring blades 404 are arranged outside the rotating screw 403, two stirring blades 404 are arranged, the stirring blades 404 are rotatably connected with the stirring shell 407 through the rotating shaft 401 and the rotating screw 403, the stirring blades 404 are driven to stir through the rotating shaft 401 and the rotating screw 403, and the two stirring blades 404 stir, the stirring uniformity is increased, so that the stirring efficiency is higher, the time is saved, and the efficiency is improved; the material injection plug 704 is used for injecting materials through the expansion device 702 and the material injection rod 703, the front end of the material injection device 7 is connected with the electric control device 6, the electric control device 6 is provided with a timer 601, a control switch 602, a display 603 and a meter 604, the electric control device 6 controls the stirring and injection molding time and dosage through the timer 601 and the meter 604, the electric control device 6 controls the material injection device 7 to quantitatively inject materials, the material injection device 7 is used for quantitatively injecting materials into the forming device 9, the same raw material amount and uniform weight of each wall bushing produced by the forming device 9 are ensured, and the uniform and stable quality of the wall bushings produced by the forming device is further ensured; a die 902 is arranged above the die groove 901, a pressing block 903 is connected above the die 902, a supporting rod 904 is connected above the pressing block 903, a rotating device 905 is connected above the supporting rod 904, the pressing block 903 and the die 902 are rotatably connected with the die groove 901 through the rotating device 905, both the lower end of the pressing block 903 and the upper end of the die 902 are provided with a bayonet lock structure, and the pressing block 903 is connected with the die 902 through the bayonet lock structure, in the forming process, the rotating device 905 drives the pressing block 903 and the die 902 to rotate, the die 902 is used for mixing and stirring the raw materials in the forming device 9, so as to ensure that all components of the raw materials are uniformly dispersed, further ensure that all parts of the formed wall bushing have stable and uniform properties, and the whole full-automatic operation saves the manpower, increases the whole efficiency, avoids the harm of the unpleasant smell to the human body during the manual operation and increases the safety.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides a full-automatic production forming device of wall bushing, includes vacuum pump (1), air duct (2), air guide valve (3), agitating unit (4), first conveyer pipe (5), electrically controlled device (6), notes material device (7), second conveyer pipe (8), forming device (9), motor (10), notes material valve (11), its characterized in that: the air guide pipe (2) is connected above the vacuum pump (1), the other end of the air guide pipe (2) is connected with a stirring device (4), an air guide valve (3) is arranged in the middle of the air guide pipe (2), a motor (10) is connected above the stirring device (4), the stirring device (4) consists of a rotating shaft (401), a fixed seat (402), a rotating screw (403), stirring fan blades (404), a feeding hole (405), a material conveying opening (406) and a stirring shell (407), the rotating shaft (401), the fixed seat (402), the rotating screw (403), the stirring fan blades (404), the feeding hole (405) and the material conveying opening (406) are arranged in the stirring shell (407), the feeding hole (405) is formed above the stirring shell (407), the material conveying opening (406) is formed below the stirring shell (407), and the fixed seat (402) is installed above the stirring shell (407), a rotating shaft (401) is connected below the fixed seat (402), a rotating screw (403) is connected below the rotating shaft (401), stirring fan blades (404) are installed on the outer side of the rotating screw (403), a first conveying pipe (5) is connected below the stirring device (4), a material injection valve (11) is installed in the middle of the first conveying pipe (5), a material injection device (7) is connected to the other end of the first conveying pipe (5), the material injection device (7) is composed of a material injection groove (701), a telescopic device (702), a material injection rod (703), a material injection plug (704) and a material injection shell (705), the material injection rod (702) is arranged above the telescopic device (702), the material injection plug (703) is connected above the material injection rod (703), the material injection groove (701) is arranged above the material injection plug (704), and an electric control device (6) is connected to the front end of the material injection device (7), be provided with time-recorder (601), control switch (602), display (603) and counter (604) on electrically controlled device (6), the top of annotating material device (7) is connected with second conveyer pipe (8), and the top of second conveyer pipe (8) is connected with forming device (9), and forming device (9) comprise mould groove (901), mould (902), briquetting (903), bracing piece (904), rotary device (905) and shaping shell (906), and the top of mould groove (901) is provided with mould (902), and the top of mould (902) is connected with briquetting (903), and the top of briquetting (903) is connected with bracing piece (904), and the top of bracing piece (904) is connected with rotary device (905).

2. The full-automatic production forming device for the wall bushing according to claim 1, characterized in that: one end of the air duct (2) is installed in the stirring device (4), and the vacuum pump (1), the air duct (2) and the stirring device (4) are fixedly connected in a sealing manner.

3. The full-automatic production forming device for the wall bushing according to claim 1, characterized in that: the number of the stirring fan blades (404) is two, and the stirring fan blades (404) are in rotary connection with the stirring shell (407) through the rotary shaft (401) and the rotary screw (403).

4. The full-automatic production forming device for the wall bushing according to claim 1, characterized in that: the electric control device (6) controls the stirring and injection molding time and dosage through a timer (601) and a metering device (604).

5. The full-automatic production forming device for the wall bushing according to claim 1, characterized in that: the material injection plug (704) is used for injecting materials through the expansion and contraction of the expansion device (702) and the material injection rod (703).

6. The full-automatic production forming device for the wall bushing according to claim 1, characterized in that: the pressing block (903) and the die (902) are rotationally connected with the die groove (901) through a rotating device (905).

7. The full-automatic production forming device for the wall bushing according to claim 1, characterized in that: briquetting (903) lower extreme and mould (902) upper end all are provided with the bayonet lock structure, and briquetting (903) passes through the bayonet lock structure with mould (902) and links to each other.