CN109368993B - Hanging device for tin bath linear motor of float glass production line - Google Patents

Abstract

The invention relates to a hanging device for a tin bath linear motor of a float glass production line, which relates to the technical field of glass production equipment, and has the characteristics of simple structure, high flexibility and stable performance, wherein a travelling wheel (7) in the travelling mechanism is hung on a hanging beam (15), a water inlet tank (2), a water return tank (9) and a control box (12) are arranged in the box, a lifting rod (5) is arranged below the box, the linear motor (21) is lifted and fallen through the lifting rod, the flow of cooling water in the linear motor is displayed through a flowmeter (12.2), and the effective cooling of the linear motor is ensured.

Description

Hanging device for tin bath linear motor of float glass production line

Technical Field

The invention relates to the technical field of glass production equipment, in particular to a hanging device for a tin bath linear motor of a float glass production line.

Background

It is known that a tin bath linear motor in a float glass production line is specially used for removing tin ash from the tail of a tin bath, so that the tin bath linear motor is also called a slag removing machine. When the device is used, the tin bath linear motor body is directly arranged on the ash removing lug pools specially designed on two sides of the tail part of the tin bath, and tin liquid is dragged by electromagnetic thrust generated by a moving magnetic field, so that the tin liquid can flow directionally, adjustably and uniformly under the action of directional electromagnetic force, and tin dioxide and tin oxide slag on the surface of the tin liquid under the glass rake angles at the tail part and the inner side of a baffle bank of the tin bath can be continuously flowed into the lug pools on two sides by placing the slag removing machine on the lug pools on two sides of the tail part of the tin bath, thereby ensuring the surface of the tin liquid at the tail part of the tin bath to be clean and bright, and further eliminating the root of tin dipping. The linear motor of the tin bath is one of important equipment for producing the tin bath part by the float process, and plays an irreplaceable role in producing high-quality glass and improving the level of the whole float glass process.

At present, the installation and maintenance of a T-shaped tin bath linear motor for a float glass production line are carried out by manually lifting a tin bath in a tin bath edge sealing at a high temperature of 700 ℃, and because the whole weight of the T-shaped tin bath linear motor reaches more than 100 kg, the T-shaped tin bath linear motor is small in size, front heavy and rear light, accidents such as high-temperature scalding, injury accidents and damage to a fire-resistant shell of the motor due to missing hands and the like can often occur. Because the linear motor operates in a high-temperature environment at 700 ℃, the three-phase windings of the motor are required to be cooled by cooling water, the T-shaped tin bath linear motor for the float glass production line does not have winding cooling water flow display and temperature alarm at present, high-temperature short circuit of the motor windings is easily caused by blockage of a cooling water pipeline, and if the tin bath linear motor cannot be timely pulled out of the tin bath, great loss is caused to production, so that long-term technical requirements of a person in the field are met by how to provide a hanging device for the tin bath linear motor for the float glass production line.

Disclosure of Invention

In order to overcome the defects in the background art, the invention provides the hanging device for the tin bath linear motor of the float glass production line, the traveling mechanism is arranged above the box body, the lifting rod is arranged below the box body, then the linear motor is lifted and fallen through the lifting rod, the flow of cooling water in the linear motor is displayed through the flowmeter, the effective cooling of the linear motor is ensured, and the hanging device has the characteristics of simple structure, high flexibility and stable performance, and can ensure the running stability and safety of linear motor equipment.

In order to achieve the aim of the invention, the invention adopts the following technical scheme:

a hanging device for a tin bath linear motor of a float glass production line comprises a travelling mechanism, a water inlet tank, a lifting rod, a water return tank, a tank body, a control box, a lifting rod lifter and a hanging beam, wherein the travelling wheel in the travelling mechanism is hung on the hanging beam, the right end of the hanging beam is fixed on the side wall of the glass tin bath, the left end of the hanging beam is suspended, the control box is arranged on a front panel of the tank body, a control board, three alarms, three flow meters and a switch are respectively arranged on the control box, an electric control system of the three flow meters is connected with the control board through lines, the control board is respectively connected with the electric control system of the three alarms through lines, the water inlet tank and the water return tank are respectively arranged in the tank body, three water inlet tank water outlets and one water inlet are respectively arranged on the water inlet tank, the three water inlet tank water inlets are respectively connected with water inlets of the water inlet tank through lines, the three water outlets of the three flow meters are respectively connected with the three water inlets of the linear motor through lines, the three water outlets of the linear motor are respectively connected with the water inlets of the three flow meters through the lines, the three flow meters are respectively arranged on the lifting rod lifter through lines, the lifting rod lifter is connected with the lifting rod, and the lifting rod lifter is connected with the lifting rod through the lower end of the lifting rod.

The hanging device for the tin bath linear motor of the float glass production line is characterized in that the travelling mechanism comprises travelling wheels, a front fixing seat and a rear fixing seat, wherein the front fixing seat and the rear fixing seat are arranged at intervals, the lower ends of the front fixing seat and the rear fixing seat are fixed on the box body, the inner side surfaces of the front fixing seat and the rear fixing seat are respectively connected with the travelling wheels through pin shafts, the travelling wheels are arranged at one end of each travelling wheel in a suspended mode, the other end of each travelling wheel is arranged at one end of each travelling wheel, and the inner side surfaces of the two travelling wheels are arranged at intervals.

The hanging device for the tin bath linear motor of the float glass production line is characterized in that a driving motor is arranged on the outer side of the front fixing seat or the rear fixing seat, a main shaft of the driving motor is connected with a pin shaft, and an electric control system of the driving motor is connected with a power supply.

The hanging device for the tin bath linear motor of the float glass production line is characterized in that the hanging beam is I-steel.

The suspension device for the tin bath linear motor of the float glass production line is characterized in that the upper surface of the suspension end of the suspension beam is connected with the left end of a pull rod, the right end of the pull rod is connected with the side wall of the glass tin bath, and the right end of the pull rod is higher than the left end of the pull rod.

The hanging device for the tin bath linear motor of the float glass production line is characterized in that a water return tank water outlet is formed in the lower portion or the bottom of the water return tank.

The hanging device for the tin bath linear motor of the float glass production line is characterized in that two lifting rods are arranged at intervals, clamping seats are respectively arranged at the lower ends of the two lifting rods, and supporting rods are fixed in the two clamping seats.

The hanging device for the tin bath linear motor of the float glass production line is of a hollow structure, three water outlet pipes and three water inlet pipes are respectively arranged in inner holes of the supporting rods, water inlet ends of the three water outlet pipes are respectively connected with three water outlets of the linear motor, water outlet ends of the three water outlet pipes are respectively connected with three water return tank water inlets through pipelines, water inlet ends of the three water inlet pipes are respectively connected with three water inlet tank water outlets through pipelines, and water outlet ends of the three water inlet pipes are respectively connected with three water inlets of the linear motor through pipelines.

The suspension device for the tin bath linear motor of the float glass production line is characterized in that the linear motor is arranged above molten tin in the ash removal lug pond.

The hanging device for the tin bath linear motor of the float glass production line is characterized in that a booster pump is arranged on a pipeline between a water inlet of the water inlet tank and a water source.

By adopting the technical scheme, the invention has the following advantages:

according to the invention, the travelling wheel in the travelling mechanism is suspended on the suspension hanging beam, the water inlet tank, the water return tank and the control box are arranged in the box, the lifting rod is arranged below the box, the linear motor is lifted and dropped through the lifting rod, the flow of cooling water in the linear motor is displayed through the flowmeter, and the effective cooling of the linear motor is ensured.

Drawings

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

FIG. 2 is a schematic left-hand view of the present invention;

FIG. 3 is a schematic view of the structure of the case of the present invention;

FIG. 4 is a schematic diagram of an application architecture of the present invention;

in the figure: 1. a water inlet of the water return tank; 2. a water inlet tank; 3. a water inlet and a water outlet of the water tank; 4. a water inlet of the water inlet tank; 5. a lifting rod; 6. a clamping seat; 7. a walking wheel; 8. a front fixing seat; 9. a water return tank; 10. a water outlet of the water return tank; 11. a case; 12. a control box; 12.1, an alarm; 12.2, a flowmeter; 12.3, a switch; 13. a lifter; 14. a support rod; 15. hanging a hanging beam; 16. a rear fixing seat; 17. a pull rod; 18. a water outlet pipe; 19. a water inlet pipe; 20. a glass tin bath; 21. a linear motor; 22. an ash removing ear pool; 23. molten tin.

Detailed Description

The present invention will be explained in more detail by the following examples, which are not intended to limit the scope of the invention;

it should be noted that, in describing the structure, the directions or positional relationships indicated by "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of description and simplification of description, and do not indicate or imply that the apparatus or element to be referred to must have a specific orientation, be configured and operated in a specific orientation, and thus should not be construed as limiting the present invention.

The hanging device for the tin bath linear motor of the float glass production line comprises a travelling mechanism, a water inlet tank 2, a lifting rod 5, a water return tank 9, a box body 11, a control box 12, a lifting rod lifter 13 and a hanging beam 15, wherein the travelling mechanism is arranged above the box body 11 and comprises travelling wheels 7, a front fixing seat 8 and a rear fixing seat 16, the front fixing seat 8 and the rear fixing seat 16 are arranged at intervals, the lower ends of the front fixing seat 8 and the rear fixing seat 16 are fixed on the box body 11, the inner side surfaces of the front fixing seat 8 and the rear fixing seat 16 are respectively connected with the travelling wheels 7 through pin shafts, the travelling wheels 7 are arranged at one end of each of the travelling wheels, the other end of each of the travelling wheels 7 is suspended, the inner side surfaces of the two travelling wheels 7 are arranged at intervals, when the hanging device is particularly used, the travelling mechanism is arranged at two sets of intervals above the box body 11 so as to improve the running stability of the box body 11, meanwhile, in order to improve the automation degree of the present invention, a driving motor is disposed at the outer side of the front fixing seat 8 or the rear fixing seat 16, a spindle of the driving motor is connected with a pin shaft, an electric control system of the driving motor is connected with a power supply, wherein the driving motor is a standard component, the electric control system is also a standard component, so detailed description is not made on the specific structure, the travelling wheel 7 in the travelling mechanism is hung on the hanging beam 15, the right end of the hanging beam 15 is fixed on the side wall of the glass tin bath 20, the specific manner can be welding or bolting, the specific structure is determined according to the actual condition on site, namely, the hanging beam is fixed on the steel side wall of the glass tin bath 20, so as to improve the stability, the left end of the hanging beam 15 is suspended, the upper surface of the suspended end of the hanging beam 15 is connected with the left end of the pull rod 17 for further improving the stability, the right end of the pull rod 17 is connected with the side wall of the glass tin bath 20, and the right end of the pull rod 17 is higher than the left end of the pull rod 17; the suspension hanging beam 15 is I-steel, and a limiting plate can be arranged at the left end of the I-steel when the suspension hanging beam is implemented so as to prevent the travelling wheel 7 from falling off the offside;

further, a control box 12 is arranged on the front panel of the box 11, a control board, three alarms 12.1, three flow meters 12.2 and a switch 12.3 are respectively arranged on the control box 12, the electric control systems of the three flow meters 12.2 are connected with the control board through circuits, the control board is respectively connected with the electric control systems of the three alarms 12.1 through circuits, and it is noted that the flow meters 12.2, the alarms 12.1, the control board and the switch 12.3 are standard components and common components and can be directly obtained in the market, so that detailed structures are not accumulated;

further, a water inlet tank 2 and a water return tank 9 are respectively arranged in the tank body 11, a three-way water inlet tank water outlet 3 and a one-way water inlet tank water inlet 4 are respectively arranged on the water inlet tank 2, the water inlet tank water inlet 4 is connected with a water source, the three-way water inlet tank water outlet 3 is respectively connected with three water inlets of a linear motor 21 through a pipeline, the three water outlets of the linear motor 21 are respectively connected with water inlets of three flow meters 12.2 through a pipeline, the water outlets of the three flow meters 12.2 are respectively connected with three water return tank water inlets 1 arranged on the water return tank 9 through a pipeline, a water return tank water outlet 10 is arranged at the lower part or the bottom of the water return tank 9, and the water return tank water outlet 10 is connected with a water storage tank. The end heads of the rubber hoses are respectively provided with a quick connector, and the quick connectors are standard components;

further, at least one lifting rod 5 is arranged below the box 11, wherein the lifting rod 5 is a spiral screw rod lifter, the spiral screw rod lifter is a standard component and can be directly obtained in the market, so that detailed description of specific structures of the spiral screw rod lifter is omitted, the lifting rod lifter 13 is arranged at the upper end of the lifting rod 5, an electric control system of the lifting rod lifter 13 is connected with a switch 12.3 through a circuit, the switch 12.3 and a control board are respectively connected with a power supply through a circuit, the lifting rod lifter 13 is a standard component and can be directly obtained in the market, detailed description of specific structures of the lifting rod 5 is omitted, a supporting rod 14 is arranged at the lower end of the lifting rod 5, and a linear motor 21 is connected with the right end of the supporting rod 14 to form the hanging device for the tin bath linear motor of the float glass production line.

In specific implementation, the two lifting rods 5 are arranged at intervals, the clamping seats 6 are respectively arranged at the lower ends of the two lifting rods 5, the supporting rods 14 are fixed in the two clamping seats 6, the supporting rods 14 are of hollow structures, three water outlet pipes 18 and three water inlet pipes 19 are respectively arranged in inner holes of the supporting rods 14, water inlet ends of the three water outlet pipes 18 are respectively connected with three water outlets of the linear motor 21, water outlet ends of the three water outlet pipes 18 are respectively connected with three water return tank water inlets 1 through pipelines, water inlet ends of the three water inlet pipes 19 are respectively connected with three water inlet tank water outlets 3 through pipelines, water outlet ends of the three water inlet pipes 19 are respectively connected with three water inlets of the linear motor 21 through pipelines, and the linear motor 21 is arranged above molten tin 23 in the ash removal ear tanks 22.

When the glass tin bath is used, firstly, the sectional I-steel with higher precision is spliced and assembled into an integral structure on site to form the hanging beam 15, then the hanging beam 15 is installed and welded on the steel wall of the glass tin bath 20, the box 11 is hung on the hanging beam 15 through the travelling wheel 7, the lifting rod 5 is arranged below the box 11, the clamping seat 6 is arranged below the lifting rod 5, the tin bath T-shaped linear motor 21 is fixed on the clamping seat 6 through the supporting rod 14, the three-phase winding cooling water inlet and the three-phase winding cooling water outlet of the linear motor 21 are respectively connected with the water inlet tank 2 and the water return tank 9 through rubber hoses, during installation, the lifting rod 5 is controlled through the switch 12.3 to lift the front end of the T-shaped linear motor 21, the linear motor 21 is driven to be positioned above the ash removing lug pond 22 in the tin bath of the glass production line, and the lifting rod 5 is controlled through the switch 12.3 to enable the front end of the T-shaped linear motor 21 to fall. The flow meter 12.2 on the control box 12 facilitates the operator to observe the flow condition of the motor winding cooling water at any time. When the cooling water of the three-phase winding of the linear motor 21 is blocked, the alarm 12.1 alarms, so that operators are reminded to rapidly withdraw the motor from the tin bath for maintenance and the like.

The invention is not described in detail in the prior art.

The embodiments selected herein for the purposes of disclosing the present invention are presently considered to be suitable, however, it is to be understood that the present invention is intended to include all such variations and modifications as fall within the spirit and scope of the present invention.

Claims (8)

1. A hanging device for a tin bath linear motor of a float glass production line comprises a travelling mechanism, a water inlet tank (2), a lifting rod (5), a water return tank (9), a tank body (11), a control box (12), a lifting rod lifter (13) and a hanging beam (15), and is characterized in that: a travelling mechanism is arranged above the box body (11), travelling wheels (7) in the travelling mechanism are hung on a hanging beam (15), the right end of the hanging beam (15) is fixed on the side wall of a glass tin bath (20), the left end of the hanging beam (15) is arranged in a hanging mode, the upper surface of the hanging end of the hanging beam (15) is connected with the left end of a pull rod (17), the right end of the pull rod (17) is connected with the side wall of the glass tin bath (20), and the right end of the pull rod (17) is higher than the left end of the pull rod (17); a control box (12) is arranged on a front panel of a box body (11), a control board, three alarms (12.1), three flow meters (12.2) and a switch (12.3) are respectively arranged on the control box (12), an electric control system of the three flow meters (12.2) is connected with the control board through a circuit, the control board is respectively connected with the electric control system of the three alarms (12.1) through a circuit, a water inlet tank (2) and a water return tank (9) are respectively arranged in the box body (11), three water inlet tank water outlets (3) and one water inlet tank water inlet (4) are respectively arranged on the water inlet tank (2), the water inlet tank water inlets (4) are connected with a water source, the three water inlet tank water outlets (3) are respectively connected with three water inlets of a linear motor (21) through a pipeline, the three water outlets of the linear motor (21) are respectively connected with the water inlets of the three flow meters (12.2) through pipelines, the water outlets of the three flow meters (12.2) are respectively connected with three water inlets (1) arranged on the water return tank (9) through pipelines, at least one lifting rod (11) is respectively arranged below the box body (11) and is connected with a lifting rod (12) through a lifting rod (13) of the lifting rod (12), the lower end of the lifting rod (5) is provided with a supporting rod (14), the supporting rod (14) is of a hollow structure, three water outlet pipes (18) and three water inlet pipes (19) are respectively arranged in inner holes of the supporting rod (14), water inlet ends of the three water outlet pipes (18) are respectively connected with three water outlets of the linear motor (21), water outlet ends of the three water outlet pipes (18) are respectively connected with three water return tank water inlets (1) through pipelines, water inlet ends of the three water inlet pipes (19) are respectively connected with three water inlet tank water outlets (3) through pipelines, and water outlet ends of the three water inlet pipes (19) are respectively connected with three water inlets of the linear motor (21) through pipelines; the right end of the supporting rod (14) is connected with a linear motor (21) to form the hanging device for the tin bath linear motor of the float glass production line.

2. The hanging device for a tin bath linear motor of a float glass production line according to claim 1, wherein the hanging device is characterized in that: the walking mechanism comprises a walking wheel (7), a front fixing seat (8) and a rear fixing seat (16), wherein the front fixing seat (8) and the rear fixing seat (16) are arranged at intervals, the lower ends of the front fixing seat (8) and the rear fixing seat (16) are fixed on a box body (11), the inner side surfaces of the front fixing seat (8) and the rear fixing seat (16) are respectively connected with the walking wheel (7) through pin shafts, the walking wheel (7) is provided with one end fixed and the other end suspended, and the inner side surfaces of the two walking wheels (7) are arranged at intervals.

3. The hanging device for a tin bath linear motor of a float glass production line according to claim 2, characterized in that: the outer side of the front fixing seat (8) or the rear fixing seat (16) is provided with a driving motor, a main shaft of the driving motor is connected with a pin shaft, and an electric control system of the driving motor is connected with a power supply.

4. The hanging device for a tin bath linear motor of a float glass production line according to claim 1, wherein the hanging device is characterized in that: the hanging beam (15) is I-steel.

5. The hanging device for a tin bath linear motor of a float glass production line according to claim 1, wherein the hanging device is characterized in that: the lower part or the bottom of the water return tank (9) is provided with a water return tank water outlet (10).

6. The hanging device for a tin bath linear motor of a float glass production line according to claim 1, wherein the hanging device is characterized in that: the two lifting rods (5) are arranged at intervals, clamping seats (6) are respectively arranged at the lower ends of the two lifting rods (5), and supporting rods (14) are fixed in the two clamping seats (6).

7. The hanging device for a tin bath linear motor of a float glass production line according to claim 1, wherein the hanging device is characterized in that: the linear motor (21) is arranged above molten tin (23) in the ash removal lug pond (22).

8. The hanging device for a tin bath linear motor of a float glass production line according to claim 1, wherein the hanging device is characterized in that: a booster pump is arranged on a pipeline between the water inlet (4) of the water inlet tank and the water source.