CN215592913U - Neck water bag lifting device - Google Patents

Abstract

The application relates to glass production equipment technical field provides a neck water drum elevating gear, includes: a motor; the first transmission shaft is connected with the motor; the first lifting mechanism is connected with the first transmission shaft and is used for driving the front end of the neck water bag to lift; the second transmission shaft is parallel to the first transmission shaft and is arranged at intervals; the second lifting mechanism is connected with the second transmission shaft and is used for driving the rear end of the neck water bag to lift; the synchronous structure comprises a first bevel gear assembly, a connecting shaft and a second bevel gear assembly, wherein the first bevel gear assembly is in transmission connection between the first transmission shaft and the connecting shaft, and the second bevel gear assembly is in transmission connection between the second transmission shaft and the connecting shaft. This application realizes the automatic rising of card neck water drum through motor drive for the card neck water drum goes up and down steadily, and lifting efficiency is high, reduces artifical injured.

Description

Neck water bag lifting device

Technical Field

The application belongs to the technical field of glass production equipment, and more specifically relates to a neck water drum elevating gear.

Background

The neck water bag is used as an isolating device between the cooling part and the clarifying part of the glass melting furnace, is generally formed by welding high-quality steel plates, and mainly plays roles in reducing temperature, blocking scum, improving convection of molten glass, increasing clarifying temperature and saving energy. In the existing glass production process, a lifting device of a neck water bag of a glass production melting furnace is driven to lift by a manual rocking handle so as to lift the neck water bag. However, the manual operation speed is slow, the efficiency is low, the lifting is unstable, and impurities attached to the neck water drum easily fall into the melting furnace to cause quality problems. Meanwhile, the field temperature is high, the environment is severe, the working strength is high, and safety accidents are easy to occur. In addition, with the rapid development of the photovoltaic glass industry in the last decade, the market demand for photovoltaic glass, namely rolled glass, is increasing, and the technical requirements and the automation degree of the hot-end process equipment of the glass are also higher and higher.

SUMMERY OF THE UTILITY MODEL

An object of the embodiment of this application is to provide a neck water drum elevating gear to there is the neck water drum to need manual lift to lead to the technical problem of lifting efficiency low, lift unstability and the incident appears easily among the solution prior art.

In order to achieve the purpose, the technical scheme adopted by the application is as follows: provided is a neck water drum lifting device, including:

a motor;

the first transmission shaft is connected with the motor;

the first lifting mechanism is connected with the first transmission shaft, can convert the rotation motion of the first transmission shaft into lifting motion and is used for driving the front end of the neck water bag to lift;

the second transmission shaft is parallel to the first transmission shaft and is arranged at intervals;

the second lifting mechanism is connected with the second transmission shaft, can convert the rotary motion of the second transmission shaft into lifting motion and is used for driving the rear end of the neck water drum to lift;

the synchronous structure comprises a first bevel gear assembly, a connecting shaft and a second bevel gear assembly, wherein the first bevel gear assembly is in transmission connection with the first transmission shaft and the connecting shaft, and the second bevel gear assembly is in transmission connection with the second transmission shaft and the connecting shaft.

In a possible embodiment, the connecting shaft is arranged perpendicular to the first transmission shaft;

the first bevel gear component comprises a first bevel gear and a second bevel gear which are in meshing transmission, the first bevel gear is fixedly sleeved on the first transmission shaft, and the second bevel gear is fixedly sleeved on the connection shaft;

the second bevel gear assembly comprises a third bevel gear and a fourth bevel gear which are in meshing transmission, the third bevel gear is fixedly sleeved on the connecting shaft, and the fourth bevel gear is fixedly sleeved on the second transmission shaft.

In a possible embodiment, the first lifting mechanism comprises a first mounting table and two sets of first lifting assemblies, the two sets of first lifting assemblies are respectively in transmission connection with the first transmission shaft, and the first mounting table is mounted on the two sets of first lifting assemblies and used for mounting the front end of the neck water bag;

the second lifting mechanism comprises a second mounting platform and two groups of second lifting assemblies, the two groups of second lifting assemblies are respectively in transmission connection with the second transmission shaft, and the second mounting platform is mounted on the two groups of second lifting assemblies and used for mounting the rear end of the neck clamping water drum.

In a possible embodiment, the first bevel gear assembly is arranged in the middle of the two groups of first lifting assemblies;

the second bevel gear assembly is arranged in the middle of the two groups of second lifting assemblies.

In a possible embodiment, the first lifting assembly and the second lifting assembly are structurally identical.

In a possible embodiment, the first lifting assembly comprises a gear box and a lifting bolt adapted to the gear box.

In a possible embodiment, the first lifting assembly is a worm gear assembly;

or, the first lifting assembly is a gear rack transmission assembly.

In a possible embodiment, the neck water bag lifting device further comprises a frame, the motor is mounted on the frame, the first transmission shaft, the connecting shaft and the second transmission shaft are rotatably arranged on the frame, and traveling wheels are arranged at the bottom of the frame.

In a possible embodiment, the neck water bag lifting device further comprises a controller electrically connected with the motor.

In a possible embodiment, the first mounting stage comprises a base plate, two side plates and a top plate; the base plate is connected with two first lifting components, two the curb plate interval is fixed in on the base plate, the both ends of roof respectively with two the curb plate can be dismantled and be connected, two the curb plate reaches all be equipped with on the roof and be used for supporting tightly the retaining member of card neck water drum.

The application provides a neck water drum elevating gear's beneficial effect lies in: the utility model provides a calorie neck water drum elevating gear, through the motor, first transmission shaft, first elevating system, the synchronization structure, second transmission shaft and second elevating system's setting, thereby realized the automatic rising of calorie neck water drum, and regard as the power supply through the motor, guaranteed that the lift of calorie neck water drum is steady, and improve the lift efficiency of calorie neck water drum, and then improved glass's preparation precision and preparation efficiency, need not manual operation simultaneously, practice thrift the cost of labor, avoid artifical be injured. In addition, through the setting of synchronization structure for the front end and the rear end of card neck water drum can go up and down in step, go up and down stably. Through the arrangement of the first bevel gear assembly, the second bevel gear assembly and the connecting shaft, the transmission between the second transmission shaft and the first transmission shaft is stable, the structure of the synchronous structure is simple, and the whole neck water bag lifting device is favorably simplified.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present application, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described below, and it is obvious that the drawings in the following description are only some embodiments of the present application, and it is obvious for those skilled in the art to obtain other drawings based on these drawings without inventive exercise.

Fig. 1 is a first angle schematic view of a neck water bag lifting device according to an embodiment of the present disclosure;

fig. 2 is a second angle schematic view of the neck water bag lifting device according to the embodiment of the present application;

FIG. 3 is a schematic connection diagram of the first transmission shaft, the synchronizing structure and the second transmission shaft shown in FIG. 2;

fig. 4 is a partially enlarged schematic view of the upper portion of fig. 2.

Wherein, in the figures, the respective reference numerals:

10. a motor; 20. a coupling; 30. a first drive shaft; 40. a first lifting mechanism; 41. a first lifting assembly; 411. a gear transmission case; 412. a lifting bolt; 42. a first mounting table; 421. a substrate; 422. a side plate; 423. a top plate; 424. a locking member; 425. a butt joint plate; 50. a synchronization structure; 51. a first bevel gear assembly; 511. a first bevel gear; 512. a second bevel gear; 52. a connecting shaft; 53. a second bevel gear assembly; 531. a third bevel gear; 532. a fourth bevel gear; 60. a second drive shaft; 70. a second lifting mechanism; 71. a second lifting assembly; 72. a second mounting table; 80. a frame; 90. a traveling wheel; 100. a neck water bag.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present application clearer, the present application is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

It will be understood that when an element is referred to as being "secured to" or "disposed on" another element, it can be directly on the other element or be indirectly on the other element. When an element is referred to as being "connected to" another element, it can be directly connected to the other element or be indirectly connected to the other element.

It will be understood that the terms "length," "width," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like, as used herein, refer to an orientation or positional relationship indicated in the drawings that is solely for the purpose of facilitating the description and simplifying the description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be considered as limiting the present application.

Furthermore, the terms "first", "second" and "first" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first" or "second" may explicitly or implicitly include one or more of that feature. In the description of the present application, "a plurality" means two or more unless specifically limited otherwise.

Referring to fig. 1 and fig. 2, a neck water bag lifting device according to an embodiment of the present application will be described. This calorie of neck water drum elevating gear is used for realizing the automatic rising of calorie of neck water drum, and it is steady to go up and down, and goes up and down efficiently, need not manual operation, avoids personnel's industrial injury.

The neck water bag lifting device comprises a motor 10, a first transmission shaft 30, a first lifting mechanism 40, a second transmission shaft 60, a second lifting mechanism 70 and a synchronous structure 50. The motor 10 is a speed reduction motor and is used for outputting rotary motion, the first transmission shaft 30 is connected with an output shaft of the motor 10 through the coupler 20, and the first transmission shaft 30 and the motor 10 rotate synchronously. The first lifting mechanism 40 is connected with the first transmission shaft 30, the first lifting mechanism 40 can convert the rotation motion of the first transmission shaft 30 into vertical lifting motion, and the first lifting mechanism 40 is used for fixing and driving the front end of the neck clamping water bag 100 to lift. The second transmission shaft 60 is parallel to the first transmission shaft 30 and spaced apart from the first transmission shaft 30, the synchronization structure 50 is connected between the first transmission shaft 30 and the second transmission shaft 60, and the synchronization structure 50 is used for synchronizing the rotation of the first transmission shaft 30 to the second transmission shaft 60. The second lifting mechanism 70 is connected with the second transmission shaft 60, the second lifting mechanism 70 can rotate the rotation motion of the second transmission shaft 60 into a lifting motion, and the second lifting mechanism 70 is used for fixing and driving the rear end of the neck clamping water bag 100 to lift.

The synchronizing structure 50 includes a first bevel gear assembly 51, a connecting shaft 52 and a second bevel gear assembly 53, wherein the first bevel gear assembly 51 is drivingly connected between the first transmission shaft 30 and the connecting shaft 52, and the second bevel gear assembly 53 is drivingly connected between the second transmission shaft 60 and the connecting shaft 52. The first bevel gear assembly 51 is used for transmitting the rotation motion of the first transmission shaft 30 to the connection shaft 52, and the second bevel gear assembly 53 is used for transmitting the rotation motion of the connection shaft 52 to the second transmission shaft 60, so as to synchronize the rotation motion of the first transmission shaft 30 to the second transmission shaft 60, and further synchronize the lifting motion of the first lifting mechanism 40 to the lifting motion of the second lifting mechanism 70.

The utility model provides a neck water drum elevating gear during operation, at first be fixed in first elevating system 40 and second elevating system 70 with the front end and the rear end of neck water drum 100 respectively, then starter motor 10, motor 10 drives first drive shaft 30 rotation, thereby drive the front end lift of first elevating system 40 drive neck water drum 100, and simultaneously, the rotary motion with first drive shaft 30 through synchronizing structure 50 is synchronous to second drive shaft 60, thereby drive the rear end lift of second elevating system 70 drive neck water drum 100, it is also that first elevating system 40 and second elevating system 70 drive the front end and the rear end lift of neck water drum 100 in step, and then realize the automatic rising of neck water drum 100.

The lifting device for the neck water bag in the embodiment is provided with the motor 10, the first transmission shaft 30, the first lifting mechanism 40, the synchronous structure 50, the second transmission shaft 60 and the second lifting mechanism 70, so that the automatic lifting of the neck water bag 100 is realized, the motor 10 serves as a power source, the stable lifting of the neck water bag 100 is ensured, the lifting efficiency of the neck water bag 100 is improved, the manufacturing precision and the manufacturing efficiency of glass are improved, meanwhile, manual operation is not needed, the labor cost is saved, and manual injuries are avoided. In addition, through the setting of synchronization structure 50 for the front end and the rear end of neck water drum 100 can go up and down in step, go up and down stably. Through the arrangement of the first bevel gear assembly 51, the second bevel gear assembly 53 and the connecting shaft 52, the transmission between the second transmission shaft 60 and the first transmission shaft 30 is stable, and the structure of the synchronous structure 50 is simple, so that the whole neck water bag lifting device is simplified.

As shown in fig. 3, the connecting shaft 52 is disposed perpendicular to the first transmission shaft 30; the first bevel gear assembly 51 comprises a first bevel gear 511 and a second bevel gear 512, the first bevel gear 511 is fixedly sleeved on the first transmission shaft 30, the second bevel gear 512 is fixedly sleeved on the connection shaft 52, and the first bevel gear 511 and the second bevel gear 512 are in meshing transmission, so that the first bevel gear 511 and the second bevel gear 512 are used for converting the rotating motion of the first transmission shaft 30 into the rotating motion of the connection shaft 52 perpendicular to the first bevel gear 511 and the second bevel gear 512. Meanwhile, in order to ensure that the rotation speed of the connecting shaft 52 is the same as that of the first transmission shaft 30, the number of teeth, the modulus, the pressure angle, the tooth top height, the tooth root height and other parameters of the first bevel gear 511 and the second bevel gear 512 are ensured to be the same.

Similarly, the connecting shaft 52 is also perpendicular to the second transmission shaft 60, the second bevel gear assembly 53 includes a third bevel gear 531 and a fourth bevel gear 532, the third bevel gear 531 is fixedly sleeved on the connecting shaft 52, the fourth bevel gear 532 is fixedly sleeved on the second transmission shaft 60, the third bevel gear 531 and the fourth bevel gear 532 are in meshing transmission, so that the rotating motion of the connecting shaft 52 is converted into the rotating motion of the second transmission shaft 60 perpendicular thereto through the third bevel gear 531 and the fourth bevel gear 532, and the first transmission shaft 30 and the second transmission shaft 60 which are parallel to each other are synchronously rotated. Meanwhile, in order to ensure that the rotation speeds of the connecting shaft 52 and the second transmission shaft 60 are the same, the numbers of teeth, the modulus, the pressure angle, the tooth top height, the tooth root height and the like of the third bevel gear 531 and the fourth bevel gear 532 should be ensured to be the same.

As shown in fig. 2, the first lifting mechanism 40 includes a first mounting platform 42 and two sets of first lifting assemblies 41, the two sets of first lifting assemblies 41 are disposed at intervals along an extending direction of the first transmission shaft 30, the two sets of first lifting assemblies 41 are respectively connected to the first transmission shaft 30 in a transmission manner, the first lifting assemblies 41 are used for converting a rotation motion of the first transmission shaft 30 into a lifting motion, the first mounting platform 42 is respectively mounted on the two sets of first lifting assemblies 41, the first mounting platform 42 is used for mounting a front end of the neck water bag 100, and the first mounting platform 42 is synchronously driven to lift by the two sets of first lifting assemblies 41, so that the area of the first mounting platform 42 is large enough, and the lifting is stable, thereby the front end of the neck water bag 100 can lift stably.

The second lifting mechanism 70 includes a second mounting platform 72 and two sets of second lifting assemblies 71, the two sets of second lifting assemblies 71 are arranged at intervals along the extending direction of the second transmission shaft 60, the two sets of second lifting assemblies 71 are respectively connected to the second transmission shaft 60 in a transmission manner, the second lifting assemblies 71 are used for converting the rotation motion of the second transmission shaft 60 into lifting motion, the second mounting platform 72 is respectively mounted on the two sets of second lifting assemblies 71, the second mounting platform 72 is used for mounting the rear end of the neck water bag 100, the second mounting platform 72 is synchronously driven to lift through the two sets of second lifting assemblies 71, so that the area of the second mounting platform 72 is large enough, the lifting is stable, the rear end of the neck water bag 100 is lifted stably, and the neck water bag 100 is lifted and lowered stably integrally.

The first bevel gear assembly 51 is arranged in the middle of the two groups of first lifting assemblies 41, and specifically, the first bevel gear 511 is arranged on the first transmission shaft 30 and is located in the middle of the two groups of first lifting assemblies 41; the second bevel gear assembly 53 is disposed at a middle position of the two sets of second lifting assemblies 71, and specifically, the fourth bevel gear 532 is disposed on the second transmission shaft 60 and located at a middle position of the two sets of second lifting assemblies 71. Therefore, the first transmission shaft 30 and the second transmission shaft 60 are stable in structural transmission, and the whole neck water bag lifting device is compact in structure and small in occupied space.

In this embodiment, the first lifting assembly 41 and the second lifting assembly 71 have the same structure, so as to ensure that the front end and the rear end of the neck water bag 100 are lifted synchronously, and the lifting action is stable. Of course, in other embodiments of the present application, the structures of the first lifting assembly 41 and the second lifting assembly 71 may be different, as long as the first lifting assembly 41 and the second lifting assembly 71 can lift and descend synchronously.

As shown in fig. 4, the first lifting assembly 41 includes a gear box 411 and a lifting bolt 412, the lifting bolt 412 is adapted to the gear box 411, the rotation speed of the first transmission shaft 30 is adjusted to a required value through the gear box 411, and then the rotation motion of the gear box 411 is converted into the lifting motion through the lifting bolt 412.

Specifically, the gear housing 411 is preferably a helical bevel gear housing. Adopt spiral bevel gear transmission case, because its rodent is crooked rodent, consequently relative straight bevel gear, it has higher overlap coefficient, and the overlap ratio of rodent is higher, and during the transmission, meshing and breaking away from between the rodent all can go on slowly, therefore it has higher bearing capacity, and the produced noise of transmission is also littleer, and the transmission process is also more steady for the elevating movement of first mount table 42 and second mount table 72 is more reliable in succession. In addition, the rotation of the first transmission shaft 30 about the horizontal axis can be converted into rotation of the lifting bolt 412 about the vertical axis by the bevel gear box, and the lifting bolt 412 is driven to lift. It should be understood that, in other embodiments of the present application, the first lifting assembly 41 and the second lifting assembly 71 may also be a worm gear transmission assembly or a gear-and-pinion transmission assembly, as long as the rotation of the first transmission shaft 30 can be converted into a lifting motion with a specific speed, which is not limited herein.

As shown in fig. 2, the neck water bag lifting device further includes a frame 80, the motor 10 is fixedly mounted on the frame 80, the first transmission shaft 30, the connection shaft 52 and the second transmission shaft 60 are rotatably mounted on the frame 80, and a traveling wheel 90 is disposed at the bottom of the frame 80. Through the arrangement of the walking wheels 90, when the neck water bag 100 needs to be moved, the rack 80 can be manually pushed, and the walking wheels 90 are utilized to walk on the ground, so that the movement is convenient.

In other embodiments of the present application, the neck water bag lifting device may further include a controller, the controller is electrically connected to the motor 10, and the controller controls the rotation of the motor 10 without manual operation. In addition, the upper system can also be connected with the controller through communication modules such as WIFI and Bluetooth, so that the work of the neck water bag lifting device can be remotely monitored on the upper system.

In addition, in other embodiments of this application, frame 80 is last to set up the actuating mechanism who is used for road wheel 90 of driven, and be connected actuating mechanism and controller electricity, through controller control actuating mechanism with road wheel 90 motion of driven, thereby can control whole neck water drum elevating gear automatic walking, need not artifical promotion, full automation.

The first mounting table 42 is identical in structure to the second mounting table 72. Taking the structure of the first mounting stage 42 as an example, referring to fig. 4, the first mounting stage 42 includes a base plate 421, two side plates 422, and a top plate 423; base plate 421 level setting, base plate 421 are connected with two first lifting unit 41 respectively, for example, the both ends of base plate 421 are connected with the top of two lifting bolt 412 respectively, the bottom of two curb plates 422 is parallel and the interval is fixed in on base plate 421, the both ends of roof 423 can be dismantled with the top of two curb plates 422 respectively and be connected, base plate 421, roof 423 and two curb plates 422 enclose jointly and close and be formed with the installation cavity, all be equipped with the retaining member 424 that is used for supporting tight calorie of neck water drum 100 on two curb plates 422 and the roof 423. During the installation, transversely insert the front end of ka wei water drum 100 and run through in the installation cavity, then support tightly the relative both sides and the top side of ka wei water drum 100 respectively through retaining member 424 on two curb plates 422 and the roof 423 to tightly be fixed in on the first mount table 42 with the front end of ka wei water drum 100.

Specifically, the uniform end of retaining member 424 on two curb plates 422 stretches into the installation cavity, and after installation cavity was packed into to card neck water drum 100, the other end of rotatory retaining member 424 can make the one end of retaining member 424 support tightly on card neck water drum 100.

In addition, the installation of retaining member 424 on the roof 423 is the same with retaining member 424's the mounting means on two curb plates 422, and its difference lies in, and the one end of retaining member 424 of roof 423 still is equipped with butt plate 425, and butt plate 425's width sets up the width that is greater than ka jing water drum 100, and retaining member 424 passes through butt plate 425 butt in the top of ka jing water drum 100, increase butt area to can increase the locking dynamics.

The above description is only exemplary of the present application and should not be taken as limiting the present application, as any modification, equivalent replacement, or improvement made within the spirit and principle of the present application should be included in the protection scope of the present application.

Claims (10)

1. The utility model provides a neck water drum elevating gear which characterized in that includes:

a motor;

the first transmission shaft is connected with the motor;

the first lifting mechanism is connected with the first transmission shaft, can convert the rotation motion of the first transmission shaft into lifting motion and is used for driving the front end of the neck water bag to lift;

the second transmission shaft is parallel to the first transmission shaft and is arranged at intervals;

the second lifting mechanism is connected with the second transmission shaft, can convert the rotary motion of the second transmission shaft into lifting motion and is used for driving the rear end of the neck water drum to lift;

the synchronous structure comprises a first bevel gear assembly, a connecting shaft and a second bevel gear assembly, wherein the first bevel gear assembly is in transmission connection with the first transmission shaft and the connecting shaft, and the second bevel gear assembly is in transmission connection with the second transmission shaft and the connecting shaft.

2. The neck water bag lifting device as claimed in claim 1, wherein the connecting shaft is disposed perpendicular to the first transmission shaft;

the first bevel gear component comprises a first bevel gear and a second bevel gear which are in meshing transmission, the first bevel gear is fixedly sleeved on the first transmission shaft, and the second bevel gear is fixedly sleeved on the connection shaft;

the second bevel gear assembly comprises a third bevel gear and a fourth bevel gear which are in meshing transmission, the third bevel gear is fixedly sleeved on the connecting shaft, and the fourth bevel gear is fixedly sleeved on the second transmission shaft.

3. The neck water bag lifting device as claimed in claim 1, wherein the first lifting mechanism comprises a first mounting platform and two sets of first lifting components, the two sets of first lifting components are respectively connected to the first transmission shaft in a transmission manner, and the first mounting platform is mounted on the two sets of first lifting components and is used for mounting the front end of the neck water bag;

the second lifting mechanism comprises a second mounting platform and two groups of second lifting assemblies, the two groups of second lifting assemblies are respectively in transmission connection with the second transmission shaft, and the second mounting platform is mounted on the two groups of second lifting assemblies and used for mounting the rear end of the neck clamping water drum.

4. The neck water bag lifting device as claimed in claim 3, wherein the first bevel gear assembly is provided at a middle position of the two sets of first lifting assemblies;

the second bevel gear assembly is arranged in the middle of the two groups of second lifting assemblies.

5. The neck water bag lifting device as claimed in claim 3, wherein the first lifting member and the second lifting member have the same structure.

6. The neck water bag lifting device as claimed in claim 3, wherein the first lifting member comprises a gear box and a lifting bolt adapted to the gear box.

7. The neck water bag lifting device as claimed in claim 3, wherein the first lifting assembly is a worm gear assembly;

or, the first lifting assembly is a gear rack transmission assembly.

8. The neck water bag lifting device as claimed in claim 1, further comprising a frame, wherein the motor is mounted on the frame, the first transmission shaft, the connecting shaft and the second transmission shaft are rotatably disposed on the frame, and a traveling wheel is disposed at the bottom of the frame.

9. The neck water bag lifting device as claimed in claim 1, further comprising a controller electrically connected to the motor.

10. The neck water bag lifting device as claimed in claim 3, wherein the first mounting platform comprises a base plate, two side plates and a top plate; the base plate is connected with two first lifting components, two the curb plate interval is fixed in on the base plate, the both ends of roof respectively with two the curb plate can be dismantled and be connected, two the curb plate reaches all be equipped with on the roof and be used for supporting tightly the retaining member of card neck water drum.

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