CN117139089A - Bell shell coating production line for assembling driving shaft assembly - Google Patents

Abstract

The invention relates to a bell housing coating production line for assembling a driving shaft assembly, which comprises the following steps: a feeding device for transporting the bell housing; a product coating station for placing the bell housing and waiting to be coated; the discharging device is used for conveying out the coated bell housing; and the feeding coating device is used for transporting the bell housing at the outlet of the feeding device to the product coating table, coating the bell housing in cooperation with the product coating table, and transporting the coated bell housing to the discharging device. The invention can realize the automatic coating function of the product, and can more uniformly coat the end face of the product compared with manual coating by automatic program coating, thereby reducing labor cost, improving working benefit, ensuring the quality of the product and improving yield.

Description

Bell shell coating production line for assembling driving shaft assembly

Technical Field

The invention relates to the technical field of bell housing coatings, in particular to a bell housing coating production line for assembling a driving shaft assembly.

Background

The assembly of the bell housing is needed in the assembly process of the driving shaft assembly, but the coating needed for antifriction is needed on the step surface of the bell housing before the assembly, but the coating of the existing bell housing is manually smeared, after the product is cleaned, the bell housing is manually placed on a rotary table, a hairbrush is manually used for smearing the antifriction layer on the end surface of the bell housing, and the manual work is relied on for material taking and coating; the coating is uneven, and the yield is low; the operation time is long, and staff needs to repeatedly operate; the waste of coating agent is serious, thereby providing a bell housing coating production line for assembling a driving shaft assembly.

Disclosure of Invention

The invention provides a bell housing coating production line for assembling a driving shaft assembly, which can realize the automatic coating function of the type of products, and can be coated on the end surface of the products more uniformly compared with manual coating by automatic program coating, thereby reducing labor cost, improving working benefit, ensuring the quality of the products and improving yield.

In order to achieve the above purpose, the invention adopts the following technical scheme:

a drive shaft assembly bell housing coating line comprising:

a feeding device for transporting the bell housing;

a product coating station for placing the bell housing and waiting to be coated;

the discharging device is used for conveying out the coated bell housing;

and the feeding coating device is used for transporting the bell housing at the outlet of the feeding device to the product coating table, coating the bell housing in cooperation with the product coating table, and transporting the coated bell housing to the discharging device.

Preferably, the feeding device comprises a first mounting frame and a first conveyor belt assembly arranged on the first mounting frame, wherein the first conveyor belt assembly comprises a first conveyor belt, one end portion, close to the product coating table, of the first conveyor belt is an outlet, an interception assembly is arranged on the first conveyor belt and used for intercepting the bell shells, so that only one bell shell is conveyed to the outlet of the first conveyor belt at a time, and then the bell shells are conveyed to the product coating table by the feeding coating device.

Preferably, the interception assembly comprises a first stop piece, a second stop piece and a first detection device, and a second detection device is further arranged at the outlet of the first conveyor belt;

the first stopping member, the second stopping member and the first detecting device are all arranged on the first mounting frame, the first stopping member and the second stopping member can be used for stopping the bell housing, and the first stopping member is closer to the outlet of the first conveyor belt than the second stopping member;

in the initial state, the first stopping piece is in a stopping state, and the second stopping piece is not in a stopping state;

the first detection device is used for detecting that the second stop piece is switched to a stop state when the first conveyor belt at the first stop piece is provided with the bell housing;

the second detecting device is installed at the outlet of the first conveyor belt and is used for detecting that the first stopping piece is switched to a stopping state when the bell housing exists at the outlet of the first conveyor belt, the second stopping piece is switched to a non-stopping state, and the first stopping piece is switched to the non-stopping state when the bell housing does not exist.

Preferably, the feeding device further comprises a second conveyor belt assembly and a guide plate, the second conveyor belt assembly comprises a plurality of second conveyor belts arranged side by side, the second conveyor belts are arranged side by side and have the same conveying direction as the first conveyor belts, the guide plate is mounted on the first mounting frame, the guide plate is obliquely arranged along the conveying direction of the second conveyor belts and is located above the second conveyor belts, and the outlet direction of the guide plate is located at the first conveyor belts.

Preferably, the product coating table comprises a supporting table, a driving assembly and a fixing assembly;

the fixing assembly comprises a supporting plate and at least three fixing rods, the supporting table is provided with a mounting hole, the supporting plate is positioned in the mounting hole, and the output end of the driving assembly is connected with the supporting plate to drive the supporting plate to circumferentially rotate;

the fixing rods are circumferentially arranged on the upper end surface of the supporting plate, and the fixing rods enclose a space for fixing the lower end part of the bell housing.

Preferably, the fixing assembly further comprises an adjusting plate and a fixing piece, wherein the adjusting plate is detachably arranged on the upper end face of the supporting plate through the fixing piece;

a plurality of arc-shaped adjusting holes which are circumferentially arranged are formed in the adjusting plate, and a plurality of sliding holes which are circumferentially arranged are formed in the supporting plate and are radially arranged; the lower ends of the fixing rods are arranged in the sliding holes in a one-to-one correspondence manner, and the upper ends of the fixing rods penetrate through the arc-shaped adjusting holes in a one-to-one correspondence manner and are positioned above the adjusting plates;

when the adjusting plate is separated from the supporting plate, the plurality of arc-shaped adjusting holes drive the plurality of fixing rods to slide along the radial direction of the sliding hole by rotating the adjusting plate.

Preferably, the support table is further provided with a paint cartridge and a stirring device, the stirring device includes a cylinder and a stirring member, the stirring member is provided at an output end of the cylinder, and the stirring member is provided in the paint cartridge.

Preferably, the discharging device comprises a conveying device, wherein a grating assembly is arranged on the conveying device and used for guaranteeing the distance between the front bell housing and the rear bell housing on the conveying device.

Preferably, the feeding coating device comprises a manipulator, wherein the manipulator is provided with a clamping part and a coating part, and the coating part is provided with a hairbrush.

Preferably, the device also comprises a cleaning and drying device and a drying device;

the cleaning and drying device is used for cleaning the bell housing and drying moisture on the bell housing, and the dried bell housing is transported to the inlet of the feeding device;

the drying device is used for drying the coated bell housing, and the discharging device is used for conveying the coated bell housing into the drying device.

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

through setting gradually feed arrangement, product coating platform, storage device, then carry out the operation of bell shell between feed arrangement, product coating platform, the storage device three through material loading coating device, realize this type product automatic coating function, through the automatic coating of procedure, for manual coating, the coating can more evenly paint in the product terminal surface, reduces the human cost, improves the working efficiency, guarantees the quality of product, promotes the yields.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings that are needed in the description of the embodiments or the prior art will be briefly described, and it is obvious that the drawings in the description below are some embodiments of the present invention, and other drawings can be obtained according to the drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of an apparatus according to an embodiment of the present invention;

FIG. 2 is a schematic view of the whole feeding device according to an embodiment of the present invention;

FIG. 3 is an enlarged schematic view of FIG. 2A according to an embodiment of the present invention;

FIG. 4 is a schematic view of a product coating station according to an embodiment of the present invention;

FIG. 5 is a second overall schematic of a product coating station according to an embodiment of the present invention;

FIG. 6 is a schematic view of the structure of an adjusting plate, a supporting plate and a fixing rod according to an embodiment of the present invention;

FIG. 7 is a schematic view of a support plate according to an embodiment of the present invention;

fig. 8 is a schematic view of a discharging device according to an embodiment of the present invention.

Reference numerals illustrate:

1, cleaning a drying device; 2 a feeding device; a first mount 21; 22 a first conveyor belt; a first motor 23; 24 outlet; 25 an interception component; 251 first stop; 2511 first push rod motor; 2512 first stop lever; 252 second stop; 2521 a second pushrod motor; 2522 a second stop bar; 253 first detection means; 254 second detecting means; a second conveyor belt 26; a second motor 27; 28 guide plates; 29 sliding shafts; 3, a product coating table; 31 a support table; 32 a third motor; 33 a gear box; 34 a support plate; 341 a sliding hole; 35 adjusting plates; 351 arc-shaped adjustment holes; 36 fixing the rod; 37 paint cartridges; 38 stirring devices; 381 cylinders; 382 stirring member; 39 third detecting means; 40 fixing parts; 4, a discharging device; a second mount 41; 42 a third conveyor belt; 43 optical delete assembly; 5, feeding a coating device; 6 coating drying device.

Detailed Description

The following description of the embodiments of the present invention will be made apparent and fully in view of the accompanying drawings, in which some, but not all embodiments of the invention are shown. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

In the description of the present invention, it should be noted that the directions or positional relationships indicated by the terms "center", "upper", "lower", "left", "right", "vertical", "horizontal", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, are merely for convenience of describing the present invention and simplifying the description, and do not indicate or imply that the devices or elements 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. Furthermore, the terms "first," "second," and "third" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it should be noted that, unless explicitly specified and limited otherwise, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be either fixedly connected, detachably connected, or integrally connected, for example; can be mechanically or electrically connected; can be directly connected or indirectly connected through an intermediate medium, and can be communication between two elements. The specific meaning of the above terms in the present invention will be understood in specific cases by those of ordinary skill in the art.

The embodiment of the invention provides a bell housing coating production line for assembling a driving shaft assembly, which comprises a cleaning and drying device 1, a feeding device 2, a product coating table 3, a discharging device 4 and a coating and drying device 6 which are sequentially arranged, and further comprises a coating and drying device 5, wherein the cleaning and drying device 1 is used for cleaning and drying moisture on the bell housing before coating, the dried bell housing is transported to an inlet of the feeding device 2 and then transported to an outlet 24 of the feeding device 2 through the feeding device 2, then the coating and drying device 5 is used for transporting the bell housing at the outlet 24 of the feeding device 2 to the product coating table 3, carrying out coating on the bell housing in cooperation with the product coating table 3, transporting the coated bell housing to the discharging device 4, and carrying out coating and drying on the outer side of the bell housing through the discharging device 4, and the bell housing transportation and coating among the feeding device 2, the product coating table 3 and the discharging device 4 are all completed through the coating and drying device 5, and continuously and reciprocally cycling; through cleaning the drying device 1, the feeding device 2, the product coating table 3, the discharging device 4, the coating drying device 6 and the feeding coating device 5, automatic coating of the step surface of the bell housing is realized, and compared with manual coating, the coating can be coated on the end surface of the product more uniformly through program automatic coating, so that the labor cost is reduced, the working benefit is improved, the quality of the product is ensured, and the yield is improved; wherein the cleaning and drying device 1 is an existing device for cleaning and drying parts, and the coating and drying device 6 is an existing device for drying coatings.

Specifically, as shown in fig. 2-3, the feeding device 2 comprises a first mounting frame 21 and a first conveying belt 22 assembly, the first conveying assembly is arranged on the first mounting frame 21, the first conveying belt 22 assembly comprises a first motor 23 and a first conveying belt 22, the first motor 23 is arranged on the first mounting frame 21 to drive the first conveying belt 22 to convey, wherein one end of the first conveying belt 22, which is close to the product coating table 3, is an outlet 24, and one end of the first conveying belt 22, which is far away from the product coating table 3, is an inlet; since the charge coating device 5 and the product coating station 3 cooperate to coat only one bell at a time, in order to ensure that the charge coating device 5 only has one bell at the outlet 24 of the first conveyor belt 22 at a time when transporting the bell, so that the transportation of the bell is ordered, an interception member 25 is provided on the first conveyor belt 22 for intercepting the bell so that only one bell is transported at a time to the outlet 24 of the first conveyor belt 22.

Specifically, the interception assembly 25 includes a first stopping member 251, a second stopping member 252, a first detecting device 253 and a second detecting device 254, wherein the first stopping member 251, the second stopping member 252 and the first detecting device 253 are mounted on the first mounting frame 21, and the stopping portion of the first stopping member 251 and the stopping portion of the second stopping member 252 are parallel and perpendicular to the transporting direction of the first conveyor belt 22, the first stopping member 251 is closer to the outlet 24 of the first conveyor belt 22 relative to the second stopping member 252, and the first detecting device 253 is used for detecting that the second stopping member 252 is switched to the stopping state when the bell housing is located on the first conveyor belt 22 at the first stopping member 251; the second detecting device 254 is installed at the outlet 24 of the first conveyor 22, and is used for detecting that the first stopping piece 251 is switched to a stopping state when the bell housing exists at the outlet 24 of the first conveyor 22, the second stopping piece 252 is switched to a non-stopping state, and the first stopping piece 251 is switched to the non-stopping state when the bell housing does not exist; the first stopping member 251 is controlled to switch between the stopped state and the non-stopped state by the first detecting device 253 and the second detecting device 254, and the second stopping member 252 is controlled to switch between the stopped state and the non-stopped state, specifically as follows: the feeding device 2 first brings the first stopper 251 into a stopped state and the second stopper 252 into a non-stopped state before transporting the bell housing, and during transportation, when the bell housing is transported to the first stopper 251 via the first conveyor belt 22, the first detecting device 253 detects that there is a bell housing, the second stopper 252 is controlled to be changed from the non-stopped state to the stopped state, then the second detecting device 254 detects that there is no bell housing at the outlet 24 of the first conveyor belt 22, the first stopper 251 is controlled to be changed from the stopped state to the non-stopped state, and then when the bell housing is transported to the outlet 24 of the first conveyor belt 22, the second detecting device 254 detects that there is a bell housing at the outlet 24, the first stopper 251 is controlled to be changed from the non-stopped state to the stopped state, the second stopping member 252 is switched from the stopping state to the non-stopping state, then the bell housing is transported to the first stopping member 251, the first detecting device 253 detects the bell housing, the second stopping member 252 is changed from the non-stopping state to the stopping state again, then until the feeding coating device 5 transports the bell housing at the outlet 24, at this time, the second detecting device 254 detects that the outlet 24 is not provided with the bell housing, then the first stopping member 251 is controlled to be switched from the stopping state to the non-stopping state again, and then the bell housing is transported to the outlet 24 of the first conveyor belt 22, and the circulation is realized, so that only one bell housing exists at each time at the outlet 24, the congestion state of a plurality of bell housings at the outlet 24 is not caused, and the feeding coating device 5 can be ensured to transport only one bell housing at each time, and the smoothness of transportation is ensured. As can be appreciated, each time the outer race on the first conveyor 22 is transported to the first stop 251 before the outer race is transported by the coating-by-feed device 5 at the outlet 24, the second detecting device 254 waits for no outer race command to be detected, ensuring the continuity of outer race transport; specifically, the first detecting device 253 and the second detecting device 254 are each a photoelectric sensor.

Preferably, the first stopping member 251 includes a first push rod motor 2511 and a first stopping rod 2512, the first push rod motor 2511 is mounted on the first mounting frame 21 at the side end of the first conveyor belt 22 through a first mounting plate, the first detecting device 253 and the second detecting device 254 are operated by controlling the first push rod motor 2511 so that the first stopping rod 2512 is extended or retracted, the first stopping rod 2512 is extended and then located right above the first conveyor belt 22 for stopping the bell housing, the first stopping member 251 is in a stopping state, the first stopping rod 2512 is retracted and then not located right above the first conveyor belt 22, and then the stopping state is switched to a non-stopping state; similarly, the second stopping member 252 includes a second push rod motor 2521 and a second stopping rod 2522, the second push rod motor 2521 is mounted on the first mounting frame 21 at the side end of the first conveyor belt 22 through a second mounting plate, the first detecting device 253 and the second detecting device 254 operate by controlling the second push rod motor 2521 so that the second stopping rod 2522 is extended or retracted, the second stopping rod 2522 is extended and is located directly above the first conveyor belt 22 for stopping the bell housing, the second stopping member 252 is in a stopping state, the second stopping rod 2522 is retracted and is not located directly above the first conveyor belt 22, and the stopping state is switched to a non-stopping state; and preferably, and in order to secure that only one outer race is accommodated between the first and second stopper rods 2512 and 2522, it is sufficient to make the distance between the first and second stopper rods 2512 and 2522 slightly larger than one outer race, but since there are various sizes of outer race, in order to make the distance between the first and second stopper rods 2512 and 252 fit to the size of outer race, a sliding assembly is provided on the first mounting bracket 21 at the side end of the first conveyor belt 22, and includes two fixing blocks and a sliding shaft 29 provided between the fixing blocks, and the first or second mounting plate is slidably provided on the sliding shaft 29, and it is only necessary to slide the first or second mounting plate when adjusting the distance between the first and second stopper rods 2512 and 2522, and it is convenient to use by fixing the first or second mounting plate on the sliding shaft 29 by screws after the adjustment is completed.

Preferably, in order to ensure that the feeder 2 can be transported to a greater extent and also to ensure that all of the bells are transported to the outlet 24 of the first conveyor 22, the feeder 2 further comprises a second conveyor 26 assembly and a guide plate 28, the second conveyor 26 assembly comprising a second motor 27 and a plurality of second conveyors 26 arranged side by side, the second motor 27 and the second conveyors 26 being mounted on the first mounting frame 21 and the second conveyors 26 being arranged side by side with the first conveyor 22 with a consistent transport direction, wherein the guide plate 28 is mounted on the first mounting frame 21, the guide plate 28 being arranged obliquely in the transport direction of the second conveyors 26 above the second conveyor 26 and the outlet 24 of the guide plate 28 being arranged at the first conveyor 22 for guiding the bells on the second conveyor 26 to the first conveyor 22 in the end so that the bells can all be transported to the outlet 24 of the first conveyor 22; the plurality of second conveyor belts 26 arranged side by side ensures a greater range of feed of the feed assembly, and the corresponding presence of the guide plates 28 ensures stable transport of the outer race positioned on the second conveyor belt 26 to the first conveyor belt 22 and to the outlet 24.

Specifically, as shown in fig. 4-7, the product coating table 3 comprises a supporting table 31, a driving assembly and a fixing assembly, wherein the fixing assembly comprises a supporting plate 34 and at least three fixing rods 36, a mounting hole is formed in the supporting table 31, the supporting plate 34 is located in the mounting hole, the driving assembly comprises a third motor 32 and a gear box 33, the third motor 32 is installed on the gear box 33, the gear box 33 is installed on the lower end face of the supporting table 31, an output shaft of the third motor 32 is connected with a driving gear in the gear box 33, an output shaft of the gear box 33 is upwards connected with the supporting plate 34, the supporting plate 34 is controlled to circumferentially rotate in the mounting hole, a plurality of fixing rods 36 are installed on the upper end face of the supporting plate 34 and are circumferentially arranged, and a space for fixing the lower end part of the bell housing is formed by the plurality of fixing rods 36, so that the feeding coating device 5 places the bell housing in the space formed by the fixing rods 36, and avoids the bell housing from running in a mess and affecting the coating efficiency of the bell housing during rotary coating; also, it is preferable that since the outer race has various sizes, in order to use the coating fixation of the outer race of various sizes, the fixing assembly further includes an adjusting plate 35 and a fixing member 40, the adjusting plate 35 is detachably mounted on the upper end surface of the supporting plate 34 by the fixing member 40, specifically, a plurality of arc-shaped adjusting holes 351 circumferentially arranged are provided on the adjusting plate 35, a plurality of sliding holes 341 circumferentially arranged are provided on the supporting plate 34, and radially arranged, the arc-shaped adjusting holes 351, the sliding holes 341 and the fixing rods 36 are as many as the number of the plurality of fixing rods 36, the lower ends of the plurality of fixing rods 36 are slidably arranged in the plurality of sliding holes 341 one by one, and the upper ends upwardly pass through the plurality of arc-shaped adjusting holes 351 one by one and are located above the adjusting plate 35; when the outer diameter of the bell housing to be fixed is changed, only the fixing member 40 is required to be disassembled, so that the adjusting plate 35 and the supporting plate 34 are separated, then the adjusting plate 35 is rotated, the plurality of arc-shaped adjusting holes 351 drive the plurality of fixing rods 36 to slide radially along the sliding holes 341, so that the space surrounded by the plurality of fixing members 40 is increased or reduced, the lower end of the fixing rod 36 moves along the sliding holes 341 towards the direction close to the central axis of the supporting plate 34, the space surrounded by the plurality of fixing members 40 is reduced, the lower part of the fixing rod 36 moves along the sliding holes 341 towards the direction far away from the central axis of the supporting plate 34, the space surrounded by the plurality of fixing members 40 is increased, so that the outer diameter of the bell housing is used, the bell housing is stably fixed, and the stability of the bell housing in the rotating process driven by the third motor 32 is ensured.

The feeding coating device 5 is used for conveying the bell housing at the outlet 24 of the feeding device 2 to the product coating table 3, coating the bell housing by matching with the product coating table 3, conveying the coated bell housing to the discharging device 4, specifically, the feeding coating device 5 comprises an existing manipulator, wherein the manipulator is provided with a clamping part and a coating part, the manipulator conveys the bell housing through the clamping part, a brush is arranged on the coating part, correspondingly, the supporting table 31 is also provided with a paint box 37 and a stirring device 38, the stirring device 38 comprises a cylinder 381 and a stirring piece 382, the stirring piece 382 is arranged at the output end of the cylinder 381, and the stirring piece 382 is positioned in the paint box 37, firstly, paint is put into the paint box 37 firstly, then the stirring piece 382 is driven to move by the cylinder 381, the stirring piece 382 stirs the paint in the paint box 37 uniformly, specifically, the cylinder is a linear cylinder 381 stirs the brush, and the linear cylinder 381 enables the stirring brush to reciprocate in the paint box 37 along a straight line, so that stirring of the paint is realized; when the coating is performed, the manipulator firstly moves the hairbrush into the coating box 37 to be stained with the coating, then the hairbrush is moved to the fixed bell housing step surface, then the third motor 32 is started, the third motor 32 controls the supporting plate 34 to circumferentially rotate, the bell housing is driven to rotate, the step surface is continuously coated under the action of the hairbrush, the coating efficiency is high, and after the coating is finished, the hairbrush is transported to the discharging device 4 through the clamping part of the manipulator.

Preferably, in order to better detect whether there is a bell housing in the space formed by the fixing posts, a third detecting device 39 is provided on the supporting table 31, and the third detecting device 39 is used for detecting whether there is a bell housing on the adjusting plate 35, if there is an excessively long bell housing, it is suggested that if there is no bell housing on the adjusting plate 35 for a while, the clamping part of the control manipulator clamps the bell housing at the outlet 24 of the first conveyor belt 22, and then transports it to the adjusting plate 35, that is, into the space formed by the plurality of fixing posts; specifically, the third detection component is a photoelectric sensor.

Preferably, as shown in fig. 8, the discharging device 4 includes a conveying device and a light deleting assembly 43, the conveying device includes a second mounting frame 41, a third conveyor belt 42 and a fourth motor, the third conveyor belt 42 and the fourth motor are mounted on the second mounting frame 41, the light deleting assembly 43 includes a transmitting part and a receiving part, the transmitting part and the receiving part are mounted on the second mounting frame 41 and are mounted at both sides of an input port of the third conveyor belt 42, wherein the transmitting part and the receiving part have a certain length, when the bell housing is placed at the input port of the third conveyor belt 42, the next bell housing can not be transported to the input port of the third conveyor belt 42 until the bell housing leaves the detection range of the light deleting assembly 43, so that a certain distance is provided between the adjacent bell housings in the coating layer drying device 6, and stable drying of the bell housing coating layer can be ensured.

The above embodiments are only preferred embodiments of the present invention, and the scope of the present invention is not limited thereto, but any insubstantial changes and substitutions made by those skilled in the art on the basis of the present invention are intended to be within the scope of the present invention as claimed.

Claims (10)

1. A bell housing coating line for assembling a driveshaft assembly, comprising:

a feeding device for transporting the bell housing;

a product coating station for placing the bell housing and waiting to be coated;

the discharging device is used for conveying out the coated bell housing;

and the feeding coating device is used for conveying the bell housing at the outlet of the feeding device to the product coating table, coating the bell housing in cooperation with the product coating table, and conveying the coated bell housing to the discharging device.

2. The bell housing coating line for assembling a drive shaft assembly as set forth in claim 1 wherein said feed means includes a first mounting bracket and a first conveyor belt assembly disposed on said first mounting bracket, said first conveyor belt assembly including a first conveyor belt having an outlet near an end of said product coating station, said first conveyor belt further having an interception assembly for intercepting the bell housing such that only one bell housing is transferred to the outlet of said first conveyor belt at a time and then transported to said product coating station by said feed coating apparatus.

3. The outer race coating line for driveshaft assembly fitting of claim 2, wherein said interception component comprises a first stop, a second stop, a first detection means and a second detection means;

the first stopping piece, the second stopping piece and the first detection device are arranged on the first mounting frame, the first stopping piece and the second stopping piece can be used for stopping the bell housing, and the first stopping piece is closer to the outlet of the first conveyor belt than the second stopping piece;

when the first stop piece is in a stop state in the initial state, the second stop piece is not in a stop state;

the first detection device is used for detecting that the second stop piece is switched to a stop state when the first conveyor belt at the first stop piece is provided with the bell housing;

the second detection device is arranged at the outlet of the first conveyor belt and is used for detecting that when the bell housing is arranged at the outlet of the first conveyor belt, the first stop piece is switched to a stop state, the second stop piece is switched to a non-stop state, and when the bell housing is not arranged, the first stop piece is switched to the non-stop state.

4. The bell housing coating line for assembling a drive shaft assembly as set forth in claim 2, wherein the feed device further comprises a second conveyor belt assembly including a plurality of second conveyor belts disposed side by side, the second conveyor belts being disposed side by side with the first conveyor belts and having a conveying direction in accordance therewith, and a guide plate mounted on the first mounting frame, the guide plate being disposed obliquely in the conveying direction of the second conveyor belts and above the second conveyor belts, and an outlet direction of the guide plate being located at the first conveyor belts.

5. The outer race coating line for driveshaft assembly fitting of claim 1, wherein said product coating station comprises a support station, a drive assembly, and a stationary assembly;

the fixing assembly comprises a supporting plate and at least three fixing rods, a mounting hole is formed in the supporting table, the supporting plate is located in the mounting hole, and the output end of the driving assembly is connected with the supporting plate to drive the supporting plate to circumferentially rotate;

the fixing rods are arranged on the upper end face of the supporting plate and are circumferentially arranged, and the fixing rods enclose a space for fixing the lower end portion of the bell-shaped shell.

6. The bell housing coating line for driveshaft assembly installation of claim 5, wherein said securing assembly further comprises an adjustment plate and a securing member, said adjustment plate being removably mounted to said support plate upper end surface by said securing member;

the adjusting plate is provided with a plurality of arc adjusting holes which are circumferentially arranged, and the supporting plate is provided with a plurality of sliding holes which are circumferentially arranged and radially arranged; the lower ends of the fixing rods are arranged in the sliding holes in a one-to-one correspondence manner, and the upper ends of the fixing rods penetrate through the arc-shaped adjusting holes in a one-to-one correspondence manner and are positioned above the adjusting plates;

when the adjusting plate is separated from the supporting plate, the plurality of arc-shaped adjusting holes drive the plurality of fixing rods to slide along the radial direction of the sliding hole by rotating the adjusting plate.

7. The bell housing coating line for assembling a drive shaft assembly of claim 5 wherein the support base is further provided with a paint cartridge and a stirring device, the stirring device comprising a cylinder and a stirring member, the stirring member being disposed at an output end of the cylinder and the stirring member being disposed within the paint cartridge.

8. The bell housing coating line for assembling a driveshaft assembly according to claim 1, wherein the discharge means comprises a conveyor having a grating assembly disposed thereon for securing a distance between the front and rear bell housings on the conveyor.

9. The bell housing coating line for assembling a driveshaft assembly according to claim 1, wherein the feed coating device comprises a robot having a grip portion and a coating portion, and wherein the coating portion has a brush mounted thereon.

10. The bell housing coating line for driveshaft assembly installation according to claim 1, further comprising a cleaning and drying apparatus and a drying apparatus;

the cleaning and drying device is used for cleaning the bell housing and drying moisture on the bell housing, and the dried bell housing is transported to the inlet of the feeding device;

the drying device is used for drying the coated outer bell, and the discharging device conveys the coated outer bell into the drying device.