TW201526999A - Automatic dip spin coating machine - Google Patents

Abstract

This invention relates to a automatic dip spin coating machine, which include a vibration feeding equipment, weighting equipment, the bucket, transportation equipment, dip spin coating equipment and dryer. Said vibration feeding equipment uses shaking system to separate metal parts, and let metal parts fall into said bucket which above said weighting equipment. When the weight reaches the default value, said vibration feeding equipment will stop. Then, said transportation equipment will carry said bucket to dip spin coating equipment. Through the dip spin process and centrifugal process of dip spin coating equipment, the superabundance paint on said metal parts surface will throw away. Finally, said transportation equipment will carry said bucket and pour the metal parts in the dryer to complete metal parts coating.

Description

Automatic dip coating machine

The invention relates to a fully automatic dip coating machine, in particular to a fully automatic dip coating machine, which comprises at least: a vibrating feeding device, which can separate the metal parts from vibration and let the metal parts fall into the material located above the weighing equipment. In the barrel, the quantity of the barrel is measured by the weighing equipment, so that the vibrating feeding device can be suspended, and then the barrel is taken by the barrel conveying device and reaches the feeding table of the dip coating device. The material feeding device is pulled into the dip coating device by the component device of the feeding table, and the metal parts are dipped and dyed by the dip coating device, and the drum is repeatedly rotated forward and reverse, Centrifugal operation at various angles to remove the excess paint on the surface of the metal part, and then remove the bucket from the aforementioned dip coating equipment through the aforementioned feeding table, and then lift the bucket and perform the dumping action by the barrel conveying device In the subsequent drying equipment, the purpose of fully automatic dip coating of various metal parts can be completed.

According to the conventional screw surface treatment machine, the inventor of the present invention applied for this before and obtained the patent for the invention of the invention No. I288673 "Metal Surface Treatment Machine (1)", which is mainly for the orbit of the body of the dip dyeing machine. Further, a plurality of fixed pulleys are disposed under the dip tank to be disposed above the track; a plurality of pulleys are disposed on the placing table to be sandwiched between the vertical rails of the body, and the side of the placing table is further fixed to the cylinder of the hydraulic cylinder The other centrifugal device is driven by the power device to drive the barrel to rotate to generate the centrifugal function; the upper cover is further provided with the shaft on the side of the machine body, and the abutting component is arranged under the upper cover, and the upper cover is further provided with a fastening component, and the buckle is provided. The component is provided with a support shaft, and a power component is disposed at one end of the fastening component, and is disposed below the upper cover and fixed to one end of the power component, and the other end of the power component is fixed to the body, so that the upper cover is operated by the power component.

That is to say, the foregoing prior art is only a structure in which the dip dyeing machine has a single feature, and the effect of fully automatic processing of the metal surface cannot be achieved. To this end, the inventors have accumulated many years of related equipment manufacturing and The design technique, especially for the problems of the prior art, was studied and reinvented.

The object of the present invention is to provide a metal part into a barrel and automatically measure the quantity in the barrel, and then automatically extract the barrel to reach the dip coating equipment, and then the dip coating equipment. For the metal parts, the immersion paint is used, and the barrel is used for various centrifugal operations, the excess paint on the surface of the metal parts can be removed, and then the barrel is lifted by the barrel conveying equipment and the material is dumped to the subsequent drying equipment. In this way, a fully automatic dip coating machine for surface coating of various metal parts can be completed.

To achieve the foregoing objective, the fully automatic dip coating machine of the present invention comprises at least: a vibrating feeding device capable of separating the metal parts and allowing the metal parts to fall into the barrel above the weighing equipment, by weighing The quantity of the equipment is measured to obtain the quantity in the drum, so that the vibrating feeding equipment can be suspended. After that, the barrel is taken out by the barrel conveying equipment and reaches the feeding table of the dip coating equipment, and the power component will enter. The material table is pulled into the dip coating equipment, and the metal parts are dip-dyed paint through the dip coating equipment, and the barrel is repeatedly subjected to multiple positive and negative rotations and centrifugal operations at various angles to surface the metal parts. The excess paint is removed, and then the bucket is removed from the aforementioned dip coating device by the feeding platform, and then the bucket is lifted by the bucket conveying device and the dumping action is performed to the subsequent drying device, thereby completing each The purpose of automatic dip coating for metal-like parts.

The vibrating feeding device of the invention is that when the metal parts to be infiltrated are poured into the storage table of the vibrating feeding device, the vibration component is used to generate appropriate vibration to the storage table to carry various metal parts, such as screws, Nuts and the like are separated by vibration, allowing metal parts to fall smoothly into the bucket above the weighing equipment.

The weighing platform of the weighing device of the invention has a plurality of positioning seats, and the material barrel is pre-positioned, so that the material conveying device can accurately extract the material barrel, and the weighing platform of the weighing device can be rotated by the power component. At the same time, the barrel is rotated, and the metal parts from the vibrating feeding device are evenly dropped into the barrel, and the quantity in the barrel is measured, so that the vibrating feeding device is suspended.

The barrel conveying device of the invention is provided with a first barrel taking element and a second barrel receiving unit The first barrel taking unit is used to extract the barrel from the weighing device and move to one side to reach the feeding table of the dip coating device, and place the barrel above the feeding table, and then borrow Pulling the feeding table into the dip coating device by the power element, or the first barrel taking element is obtained from the feeding table to place the empty barrel in the weighing device, or the second barrel element is used Lifting the drum of the metal parts that have completed the dip-dyeing action from the feeding table, and moving to one side, and then using the pouring equipment to open the bottom wall of the barrel, so that the metal parts can all fall into the drying equipment, or can be utilized The foregoing second barrel taking unit is placed on the feeding table from the empty barrel to extract and place the first barrel taking unit in the weighing apparatus for the next action.

The dip coating device of the invention is provided with a paint bucket for immersing the metal parts as a dip paint, and is provided with a power rotating centrifugal element, which can repeatedly and positively rotate the barrel repeatedly and rotate at various angles. In order to remove the excess paint on the surface of the metal part, the bucket can be removed through the aforementioned feeding table, and the oil barrel conveying device can be followed for the purpose of fully automatic dip coating of various metal parts. And benefits.

1‧‧‧Vibration feeding equipment

10‧‧‧First storage platform

11‧‧‧Second storage bin

12‧‧‧Into the hopper

120‧‧‧ fulcrum

13‧‧‧Power components

130‧‧‧ Telescopic shaft

∮‧‧‧ angle

2‧‧‧Weighing equipment

20‧‧‧Weighing platform

21‧‧‧ Positioning Block

210‧‧‧Tough groove

22‧‧‧ scales

23‧‧‧Sprocket

230‧‧‧Chain

24‧‧‧Power components

240‧‧‧Sprocket

3, 3a‧‧‧ bucket

30‧‧‧ hopper

31‧‧‧ first ring

32‧‧‧second circumference

33‧‧‧ Space

34‧‧‧ bottom wall

340‧‧‧ fastening parts

341‧‧‧Compressed elastic components

35‧‧‧ bucket wall

350‧‧‧ shaft seat

36‧‧‧Closed hole

37‧‧‧Open components

370‧‧‧ fulcrum

371‧‧‧Restrictions

372‧‧‧ push block

4‧‧‧Bucket conveying equipment

40‧‧‧Rack

410, 411‧‧ Track

41‧‧‧Mobile space

42‧‧‧Mobile platform

420‧‧‧ moving wheel

421‧‧‧Assistance wheel

422‧‧‧Power components

423‧‧‧Sprocket

43‧‧‧First barrel taking

44‧‧‧Second barreling components

430, 440‧‧‧ vertical pole

431, 441‧‧‧ racks

432, 442‧‧‧ sandwich wheel

433, 443‧‧‧ Power components

434, 444‧‧‧ gears

435, 445‧‧ ‧ cross

436, 446‧‧‧ Grab

437, 447‧‧‧ Power Components

5‧‧‧ Feeding table

500, 501‧‧ track

50‧‧‧ gantry

51‧‧‧Mobile seat

510‧‧‧ pulley

52‧‧‧Power components

520‧‧‧Chain

520a‧‧‧Links

521, 521a‧‧ sprocket

53‧‧‧ material bucket

530‧‧‧ pillar

531‧‧‧Flexible components

532‧‧‧ Positioning Block

533‧‧‧Conical groove

54‧‧‧Inflatable components

6‧‧‧Dip coating equipment

60‧‧‧ body

600‧‧‧ side gate

601‧‧‧Power components

61‧‧‧ Lifting platform

610‧‧‧Power components

611‧‧‧ Telescopic rod

62‧‧‧dipping bucket

63‧‧‧Rotating centrifugal element

630‧‧‧Power components

631‧‧‧ Pulley

632‧‧‧Land

633‧‧‧Large pulley

634‧‧‧Rotary axis

635‧‧‧ shaft seat

636‧‧‧Ball bearings

637‧‧‧ rotating seat

638‧‧‧Fittings

638a‧‧‧ Rod

638b‧‧‧Deduction Department

638c‧‧‧ fulcrum

638d‧‧‧ shaft seat

638e‧‧‧Compressed elastic element

638f, 638g‧‧‧Flexible seat

638h‧‧‧Axis

638i‧‧‧Long slot

639‧‧‧ Telescopic power components

639a‧‧‧ Rod

64‧‧‧ sports platform

640‧‧‧Power components

641‧‧‧ Telescopic shaft

65‧‧‧Developer

650‧‧‧Power components

651‧‧‧ Telescopic shaft

652‧‧‧ fastening opening

7‧‧‧Dumping equipment

70, 71‧‧‧ fixed seat

72, 73‧‧‧ starter lever

720, 730‧‧‧ shaft

721, 731‧‧‧ sprocket

722, 732‧‧‧ chain

74, 75‧‧‧ Power components

740, 750‧‧‧ sprocket

8‧‧‧Drying equipment

Figure 1 is a perspective view of the present invention.

Figure 2 is a partial plan view of the present invention.

Figure 3 is a partial view of the vibrating feed of the present invention.

Figure 4 is a view of the weighing apparatus and bucket of the present invention.

Figure 5 is a plan view of the weighing apparatus of the present invention.

Figure 6 is a cross-sectional view taken along line A-A of Figure 5;

Figure 7 is a plan view of the barrel of the present invention.

Figure 8 is a cross-sectional view taken along line B-B of Figure 7;

Figure 9 is a view showing the opening of the drum of the present invention.

Figure 10 is a perspective view of the barrel conveying device of the present invention

Figure 11 is a first operational view of the bucket of the drum conveying device of the present invention.

Figure 12 is a cross-sectional view taken along line C-C of Figure 11;

Figure 12A is a first operational view of the extraction drum of the present invention.

Figure 12B is a second operational view of the extraction drum of the present invention.

Figure 13 is a second operational view of the first barrel taking element of the drum conveying apparatus of the present invention.

Figure 14 is a third operational view of the first barrel taking element of the drum conveying apparatus of the present invention.

Figure 15 is a fourth operational view of the first barrel taking element of the drum conveying apparatus of the present invention.

Figure 16 is a fifth operational view of the first barrel receiving element of the drum conveying apparatus of the present invention.

Figure 17 is a partial plan view of the present invention.

Figure 18 is a cross-sectional view showing the action of the D-D feeding table receiving bucket of Figure 17;

Figure 19 is a cross-sectional view showing the action of the D-D feeding table of Figure 17 feeding the drum to the dip coating apparatus.

Figure 20 is a cross-sectional view showing the action of the E-E feed station of Figure 17 feeding the drum to the dip coating apparatus.

Figure 21 is a cross-sectional view showing the action of the E-E feed table of Figure 17 feeding the drum to the dip coating apparatus.

Figure 22 is a view of the dip coating apparatus of the present invention.

Figure 23 is a view showing the action of the feed table and the tub of the present invention into the dip coating apparatus.

Figure 24 is a view showing the dipping of the dip coating apparatus of the present invention.

Figure 25 is a view showing the action of the bucket of the present invention into the dip coating apparatus.

Figure 26 is a view showing the dip coating of the drum by the dip coating apparatus of the present invention.

Figure 27 is a view of the barrel of the present invention exiting the dip tank.

Figure 28 is a view of the bucket of the present invention subjected to special angular centrifugal turbulence.

Figure 29 is a view showing the forward centrifugal turbulence of the drum of the present invention.

Figure 30 is a view showing the slow enameling of the drum of the present invention.

Figure 31 is a first operational view of the second barrel receiving element of the drum conveying apparatus of the present invention.

Figure 32 is a second, operational view of the second barrel receiving element of the drum conveying apparatus of the present invention.

Figure 33 is a third operational view of the second barrel taking element of the drum conveying apparatus of the present invention.

Figure 34 is a first operational view of the second bucket element of the present invention in conjunction with the dumping apparatus.

Figure 35 is a second operational view of the second bucket element of the present invention in conjunction with the dumping apparatus.

Figure 36 is a third operational view of the second bucket element of the present invention in conjunction with the dumping apparatus.

Figure 37 is a view showing the action of the second barrel taking unit of the present invention for placing the empty drum in front of the feeding table.

Figure 38 is a view showing the action of the second barrel taking unit of the present invention for placing an empty drum on the feeding table.

Figure 39 is a first operational view of the first bucket element of the present invention lifting the empty bucket.

Figure 40 is a second operational view of the first bucket element of the present invention lifting the empty bucket.

Figure 41 is a third operational view of the first bucket element of the present invention lifting the empty bucket.

Figure 42 is a view showing the placement of the empty barrel by the first barrel taking member of the present invention.

Figure 43 is a view of the first bucket taking material lifting bucket of the present invention.

In this way, in order to enable the examiner to fully understand the fully automatic dip coating machine of the present invention, the following description is as follows: As shown in FIGS. 1 to 3, the fully automatic dip coating machine of the present invention comprises at least: vibration feeding. The device 1 can separate the metal parts from the vibration and let the metal parts fall into the barrel 3 located above the weighing device 2, and the weighing device 2 can accurately measure the quantity of the metal parts falling into the barrel. The vibrating feeding device 1 is temporarily stopped, and then the drum conveying device 4 is used to extract the drum and reach above the feeding table 5, and the feeding table is pulled to the dip coating device 6 by the power component. Among them, the metal parts are dipped and dyed by the dip coating equipment, and the barrel is repeatedly subjected to multiple positive and negative rotations and centrifugal operations at various angles to remove the excess paint on the surface of the metal parts, and then through the foregoing The feeding table moves the material bucket out of the aforementioned dip coating device 6, and then the material conveying barrel 4 moves the material tank 3 to the drying device, and uses the pouring device 7 to open the bottom wall of the material tank 3, so that the metal parts can be completely fallen. Enter the drying equipment 8 to complete all types Automatic metal parts object of the dip coating of rejection, and may be repeated for each of the operation.

2 and 3, the vibration feeding device 1 of the present invention is provided with a first storage table 10, so that various metal parts can be first placed in the first storage table 10, and the vibration element is used (generally, Therefore, the first storage tray 10 is appropriately shocked to separate the various metal parts, such as screws, nuts, etc., and the metal parts can be smoothly dropped into the second storage table 11 The second storage tray 11 has a smaller volume than the first storage platform 10, so as to accommodate a relatively large amount of metal parts, so that the second storage stage 11 generates appropriate vibration feeding force by the vibration element, and Since the metal parts stored in the second storage table 11 are smaller than the first storage stage, it is more convenient to be separated by the vibration and advance, and smoothly moves to reach the hopper 12, and the hopper 12 is supported by the fulcrum 120. The shaft is disposed at one end of the second storage tray 11 and is fixed to one end of the input hopper 12 and the end of the telescopic shaft 130 of the power component 13 , and can be opened by the power component 13 to operate the hopper 12 to be deflected up and down. Angle ∮, the aforementioned opening angle is about 60-120 The interval is optimally to close the outlet of the second storage tray 11 by the hopper 12, to prevent the metal parts from falling out, and to allow the metal parts to enter the weighing equipment 2 located below via the aforementioned hopper 12. In the bucket.

3 to 6, the weighing apparatus 2 of the present invention is provided with a weighing platform 20, and the weighing platform 20 is provided with a plurality of positioning seats 21, each of which is provided with a tapered groove 210, when the positioning rod of the barrel 3 is When the tapered grooves 210 of the positioning seat 21 are combined, the positioning by the weight of the drum 3 is automatically lowered. The purpose of the positioning seat 21 is to allow the drum 3 to be pre-positioned to accurately correspond to the positioning seat of the feeding table 5, and when the drum 3 is moved to the feeding table 5, the feeding table can be used. The positioning seat of 5 is accurately combined to facilitate the accurate extraction of the barrel 3 by the first barrel-receiving element and the second barrel-receiving element of the barrel conveying device 4. A weighing scale 22 is disposed under the weighing platform 20 to monitor the feeding amount in the drum 3 at any time, and a sprocket 23 is disposed under the weighing platform 20 to drive the transmission chain 230 around the sprocket 240 of the power component 24. By the power component 24, the weighing platform 20 is rotated, and the drum 3 can be rotated at the same time, so that the metal parts from the vibrating feeding device 1 can be evenly dropped into the drum 3, and the scale 22 can be accurately determined. The number of metal parts in the barrel 3 allows the barrels of each operation to maintain the set weight and quantity, so that the subsequent dyeing of the paint is more precise, and the quality of the finished product is maintained, and when the barrel 3 is received When the metal parts reach the set quantity and weight, the automatic control system will suspend the aforementioned vibration feeding device 1 and close the hopper 12 to prevent the metal parts from falling out of the drum 3.

As shown in FIGS. 7-9, the drum 3 of the present invention is provided with a trough 30 for accommodating metal parts. A first ring circumference 31 and a second circumference 32 are disposed around the trough 30, and the first ring circumference 31 is A space 33 is formed between the second circumferences 32, which facilitates the first barrel element of the barrel conveying device and the first barrel element to clamp the first circumference 31, and extracts the movement; and is located below the trough 30. The bottom wall 34 is disposed at one end of the bottom wall 34 and is axially disposed at one end of the barrel ring wall 35. The bottom wall 34 has a function of opening or closing the trough 30 downward, and the bottom wall 34 is provided with a buckle. The engaging member 340, the front end of the engaging member 340 can protrude from the outer side of the ring of the bottom wall, and the engaging member 340 is provided with the compressive elastic member 341, so that the engaging member 340 can be appropriately stretched; The other end of the barrel ring wall 35 is provided with a fastening hole 36, so that the fastening member 340 can be extended in the fastening hole 36 (as shown in FIG. 8), and an opening member 37 is disposed outside the fastening hole 36. Element 37 One end is pivoted to the shaft seat 350 of the barrel ring wall 35 by a support shaft 370. The opening member 37 passes through a limiting member 371 to limit the movable range of the opening member 37, ensuring accurate operation, and opening the member 37. A pushing block 372 is disposed on the inner side of the lower end, and the pushing block 372 is located on the outer side of the engaging hole 36, and is normally in contact with the engaging member 340, and the opening member 37 is pressed by an external force in time, thereby pushing the block. The 372 pushes the engaging member 340 to separate from the engaging hole 36, and the bottom wall 34 is opened to drop the finished metal part into the drying device for drying.

10 to 16, the bucket conveying device 4 of the present invention is provided with a frame 40, which is disposed on the ground by the frame 40, and two symmetric tracks 410 and 411 are disposed above the frame 40, and the two tracks 410 are disposed. A moving space 41 is provided between 411 as a moving range of the first barrel-receiving element 43 and the second barrel-receiving element 44, so that the barrel 3 is smoothly moved. The bucket conveying device 4 is provided with a moving platform 42. The moving platform 42 is provided with a plurality of moving wheels 420 disposed above the two rails 410 and 411, and each of the auxiliary wheels 421 is disposed on the two rails 410 and 411. On the side, the moving platform 42 can be stably disposed above the two rails 410 and 411, and one of the plurality of moving wheels 420 is connected with the power element 422 by the sprocket 423 (as shown in FIG. 11). The component 422 drives the mobile platform 42 to move left and right. Of course, the mobile platform may be composed of a single piece or a plurality of pieces connected to each other (as shown in FIG. 10). The foregoing barrel conveying device 4 is provided with a first barrel taking unit 43 and a second barrel unit 44. The first barrel unit 43 and the second barrel unit 44 are disposed above the moving platform 42 and are separated from the moving platform. The first and second barrel-receiving elements 43 and 44 are moved to the left and right by the moving platform 42 (see FIGS. 30-34). The first barrel-receiving element 43 and the second barrel-receiving element 44 are respectively Each of the upright rods 430, 440 is provided with racks 431, 441, and the upright rods 430, 440 are respectively set by the multiple array of clamping wheels 432, 442 clamps (as shown in the figure) 12~16), ensuring that the upright rods 430, 440 move up and down smoothly, and the racks 431, 441 on the side of the upright rods 430, 440 are respectively in harmony with the gears 434, 444 of the power elements 433, 443 (such as 12), the upright rods 430, 440 can be driven up and down by the power elements 433, 443, respectively (as shown in FIG. 11), and the bucket 3 can be smoothly extracted. The first barrel taking unit 43 and the second barrel unit 44 are 44. A cross seat 435, 445 is disposed under the vertical poles 430, 440, and the cross seat 435, 445 is provided with a plurality of gripping members 436, 446, each of the grasping members 436, 446 are extended outside the circumference of the cross seat 435, 445, and each is provided with a retractable power element 437, 447 (as shown in Figures 10 and 14), when the first barrel is to be taken When the element 43 or the second barrel-receiving element 44 extracts the barrel 3, the upright rods 430, 440 can be driven to move downward by the power elements 433, 443, when the first barrel-receiving element 43 or the second barrel-receiving element 44 After the cross seat 435, 445 is in contact with the opening of the barrel, the plurality of gripping members 436, 446 can be used to fasten the first ring 31 of the barrel 3 (see Figures 12-12B). Then, the upright rods 430, 440 can be driven to move upward by the power elements 433, 443, and the barrel 3 can be smoothly extracted; thus, the barrel 3 can be extracted from the weighing apparatus by using the first barrel-receiving element 43 (as shown in the figure). 13), and moving the aforementioned moving platform 42 to one side (as shown in FIG. 14), so that the bucket 3 containing the metal component to be processed reaches above the feeding table 5 (as shown in FIG. 14), and the bucket 3 is placed on Above the feeding table 5, and the aforementioned upright rod 430 is slightly lowered to place the barrel 3 on the feeding table 5 (Fig. 15), after which the drum 3 can be released and the straight line is straightened. The upright 430 rises slightly (as in Figure 16) and the next step of the dip dyeing operation can be performed.

10 to 16, the present invention is provided with a pouring device 7, the pouring device 7 is disposed under the moving platform 42 of the bucket conveying device 4, and the pouring device 7 is provided with two fixing seats 70, 71, and the two fixing seats 70 are provided. And 71 are fixed under the moving platform 42 of the bucket conveying device 4, and extend downward from the moving platform 42. The shafts at the ends of the two fixing seats 70 and 71 are provided with starting levers 72 and 73, and the starting lever. The shafts 720 and 730 of 72 and 73 are provided with sprocket wheels 721 and 731, and each of the chains 722 and 732 is wound around the sprocket wheels 740 and 750 of the power components 74 and 75 (see FIG. 11). The support shafts 720, 730 of the actuating levers 72, 73 are respectively rotated by the aforementioned power elements 74, 75 by a certain angle to open or close the bottom wall 34 of the tub 3. When the metal parts in the drum 3 are to be placed on the conveyor belt of the drying device 8, the power shaft 74 of the fixing base 70 is required to drive the rotation shaft 720 of the starting rod 72 to rotate, and the starting rod 72 is allowed to touch the aforementioned material. The opening member 37 of the tub 3 is pushed by the pushing block 372 of the opening member 37 (see FIGS. 33 and 34) to separate the engaging member 340 from the engaging hole 36. The bottom wall 34 of the trough is opened to drop the finished metal parts into the drying equipment for drying; when the metal parts are all dropped into the conveyor belt of the drying equipment, the bottom wall 34 of the drum 3 is closed. The shaft 730 of the actuating lever 73 is driven by the power element 75 of the aforementioned fixed seat 71. Rotating, and letting the starting rod 73 move the bottom wall 34 of the barrel 3, so that the fastening member 340 can be combined with the fastening hole 36, the bottom wall 34 of the barrel can be closed (see Figures 35 and 36). ).

17 to 24, the feeding platform 5 of the present invention is provided with two rails 500, 501, the two rails 500, 501 are disposed at appropriate positions of the gantry 50, and the gantry 50 is disposed in the bucket conveying device. In the rack 40 of the 4, in order to cooperate with the operation of the bucket conveying device 4, the feeding platform 5 is provided with a moving seat 51, and the movable seat 51 is provided with pulleys 510 on both sides thereof, so that the pulley 510 is disposed on the two rails 500. In 501 (as shown in FIGS. 21, 23 and 24), the movement trajectory of the movable seat 51 can be restricted, and one end of the movable seat 51 is fixed to the connecting member 520a of the chain 520 of the power component 52 (see FIGS. 23 and 24). The connecting member 520a is fixed to the chain 520, and the chain 520 is wound around the two sprockets 521, 521a. Thus, the sprocket 521 can be driven by the power component 52 and driven by the chain 520. The sprocket 521a rotates the chain 520 and changes the displacement of the connecting member 520a to drive the moving seat 51 to move toward the dip coating device or to return from the outer side of the dip coating device; A bucket base 53 is disposed above the seat 51, and a plurality of pillars 530 are disposed below the bucket base 53 The lower portion of the column 530 passes through the moving base 51, and an elastic member 531 is disposed under the moving base 51 so that the upper end of the elastic member 531 is abutted against the moving seat 51. A plurality of positioning seats 532 are further disposed on the top, and the positioning seats 532 are respectively provided with a tapered groove 533 (see FIG. 24), and the effect and purpose thereof are the same as the positioning seat 21 of the weighing device, and the purpose is that the positioning rod of the barrel 3 is When combined with the tapered groove 533 of the positioning seat 532, the positioning is automatically moved down by the weight of the drum 3. The purpose of the positioning seat 532 is to make the barrel 3 be properly positioned to accurately correspond to the positioning seat of the weighing device 2, which is advantageous for the first barrel taking unit and the second barrel unit of the barrel conveying device 4 to be accurate. The charging bucket 3 is further disposed; and between the moving base 51 and the bucket base 53, an inflatable component 54 is disposed, and when the first bucket forming component 43 of the bucket conveying device 4 feeds the bucket 3 and is placed on the feeding platform 5 When the bucket seat 53 is above, the inflatable element 54 is flat (as shown in FIGS. 18-20), so that the power component 52 can feed the moving base 51 together with the bucket 3 into the dip coating device. The aerating element 54 is inflated and enlarged, enough to support the barrel base 53 and the barrel 3 up to a small height (as shown in FIG. 21), so that the rotating centrifugal element of the dip coating device 6 can grasp the barrel, and wait After the rotating centrifugal element of the dip coating device 6 grips the barrel 3, the inflatable element 54 can be The air is deflated to lower the bucket base 53 by a slight height, so that the moving base 51 and the bucket base 53 are removed from the dip coating apparatus 6.

17 to 24, the dip coating apparatus 6 of the present invention is provided with a fuselage 60, one side of the fuselage 60 is provided with a side gate 600, and the side gate 600 is located between the fuselage 60 and the feeding table 5, when When the moving seat 51 of the feeding table 5 moves into and out of the dip coating device 6, the side of the body can be opened or closed by the expansion and contraction of the power element 601 (see Figures 22-24), so as to avoid centrifugal dripping, The dipping material is scattered on the outer side of the fuselage; the dip coating device 6 is provided with a lifting platform 61, and the lifting platform 61 is fixed to the end of the telescopic rod 611 of the plurality of power components 610, so that the lifting platform 61 is driven by the power component 610. In order to determine the lifting of the dip tank 62, the dip dyeing action of the metal parts in the material tank 3 (see Figures 23-28); the dip coating apparatus 6 is provided with a dip tank 62, and the dip tank 62 is required according to the requirements. For the purpose of setting up dip dyes; or anti-corrosive paints; or coloring paints; or other types of raw materials that must be attached to metal components, are not indispensable, depending on actual needs.

17 to 24, the dip coating apparatus 6 is provided with a rotating centrifugal element 63. The rotating centrifugal element 63 is provided with a power element 630. The spindle of the power element 630 is provided with a pulley 631 and is wound around a large pulley 633 by a belt 632. The large pulley 633 is disposed at one end of the rotating shaft 634. The rotating shaft 634 is disposed in the shaft seat 635 and supported by the plurality of ball bearings 636, and the shaft seat 635 is fixed to the motion platform 64. The rotating shaft 634 is provided with a rotating base 637 (see FIGS. 18 and 19). The rotating base 637 is provided with a plurality of engaging members 638. The engaging members 638 are respectively provided with a rod portion 638a and a fastening portion 638b. The fastening member 638 is provided. The rod portion 638a is disposed for a shaft 638c, and the support shaft 638c is threaded through the shaft seat 638d to allow the fastening member 638 to function similar to the jaws to allow the fastening portion 638 to be engaged. The 638b is fastened to the first circumference 31 of the barrel 3 (see FIG. 21), and a compression elastic member 638e is disposed below the corresponding position of the rod portion 638a of the fastening member, and the two ends of the compression elastic member 638e are respectively placed The elastic member seat 638f of the rod portion 638a of the fastening member is located at the rotating seat The elastic member seat 638g of the 637 is located on the elastic member seat 638f of the rod portion 638a, and is disposed on the shaft 638h and disposed on the long slot 638i of the rod portion 638a. When the fastening member 638 is yawed, The elastic member seat 638f can be kept in a vertical shape to facilitate the positioning and positioning of the compression elastic member 638e; and the telescopic power member 639 is disposed above the corresponding position of the compression elastic member 638e (eg, 20 and 21), one end of the telescopic power element 639 is disposed on the moving platform 64, and the rod portion 639a of the telescopic power element 639 is extended to press the rod portion 638a of the fastening member to one side. Tilting, and the rod portion 638a of the fastening member 638 will simultaneously press the compression elastic member 638e, and the fastening portion 638b of the fastening member 638 can be separated from the first circumference 31 of the barrel 3 (Fig. 20). In order to allow the drum 3 to be removed from the dip coating apparatus 6, or to be retracted by the rod portion 639a of the telescopic power element 639, the rod portion 638a of the fastening member can be separated. The element 638e is restored to the original shape, so that the fastening portion 638b of the fastening member 638 can be fastened to the first circumference 31 of the barrel 3 (see FIG. 21), and the opening of the barrel 3 is closed by the rotating seat 637. In order to prevent the metal parts from falling out when the barrel is rotated and centrifuged, the rotating centrifugal element 63 is disposed above or below the moving platform 64, and the moving platform 64 is stretched with the plurality of power elements 640. One end of the shaft 641 is fixed, and the power element 640 is fixed to the fuselage 60. When the position is changed by the elongation or condensation of the telescopic shaft 641 of the power element 640 to change the setting angle of the moving platform 64, the setting angle of the rotating centrifugal element 63 can be changed, and the angle of the barrel 3 can be changed to change the different centrifugation. The lacquering action completely removes the excess paint on the surface of the metal part and improves the quality of the metal part; one end of the moving platform 64 can be fastened by the fastener 65 (see Figures 25~30), and the fastener 65 is One end is axially disposed on the fuselage 60, and the fastener 65 is driven by the telescopic shaft 651 of the power component 650 to have a proper angle yaw (see FIGS. 27 and 28). The fastener is provided with a snap opening 652. Using the aforementioned fastening opening 652 to be fastened to the motion platform 64, the motion platform 64 is horizontally disposed, or the motion platform 64 is released, and the fastener 65 is biased at an appropriate angle (see FIGS. 27 and 28) to allow the motion. The platform 64 has to be varied for various angle settings.

25 to 30, for the operation of the foregoing dip coating apparatus 6, after the tank 3 is fed to the dip coating apparatus 6 for the feed tray 5, the dip coating apparatus 6 can start the rotary centrifugation. The rotating seat 637 of the component 63 is coupled to the bucket, and is fastened to the first ring 31 of the bucket 3 by the fastening member 638 of the rotating seat 637. At this time, the lifting platform 61 starts to rise to allow the dip. The barrel 62 rises and rises, and the barrel 3 and the metal parts therein are simultaneously immersed in the paint of the dip barrel 62 to perform the dip-dyeing action of the metal parts (Fig. 25). When the dip dyeing is completed, the lifting platform is 61 and the dip tank 62 will synchronously lower the height of the portion, so that the barrel 3 and the inside thereof The metal part leaves the paint of the dip tank 62. At this time, the power element 630 of the rotating centrifugal element 63 drives the rotating shaft 634, the rotating seat 637 of the lower end thereof and the drum 3 to perform the high-speed rotation centrifugal lacquering action (such as Figure 26), the above-mentioned high-speed centrifugal lacquer action is repeated multiple times of forward or reverse, so that the metal parts can be reliably separated, and the benefits of enamel paint can be achieved, and most of the paint can be smoothly dropped into the smear. In the barrel, the purpose of simultaneously recovering the paint is achieved; after the completion of the high-speed centrifugal paint, in order to change the paint angle of the drum 3 and simultaneously change the state of the metal parts in the drum, the lifting platform 61 and The dip tank 62 is synchronously lowered to the lowest position (as shown in Fig. 27). At this time, the fastener 65 will release the moving platform 64, and the movement of the telescopic shaft 641 of the power component 640 of the motion platform 64 can be used to change the movement. The angle of the platform 64, the rotating centrifugal element 63 and the drum 3 (as shown in Fig. 28) starts the multi-angle slow-speed centrifugal lacquering operation, flipping the position of the metal parts in the barrel 3, and completely removing the paint on the surface of the metal part. Removed, The quality of the metal parts can be greatly improved; when the lacquering action of various angles is performed, the telescopic shaft 641 of the power component 640 of the motion platform 64 can be retracted to make the motion platform 64 horizontal, and the fastener 65 will be The moving platform 64 is fastened, and the rotating centrifugal element 63 and the bucket 3 are kept in an upright state (as shown in FIG. 29). At this time, the lifting platform 61 and the dip tank 62 are simultaneously raised to an appropriate height, so that the bucket 3 is The metal parts therein are located in the dip tank 62, but are not in contact with the paint in the dip tank 62. At this time, the power element 630 of the rotating centrifugal element 63 will drive the rotating shaft 634 and the rotating base of the lower end thereof. 637 and the barrel 3 perform the action of rotating the lacquer at a low speed (Fig. 30), and the low-speed centrifugal lacquer is operated in a plurality of forward or reverse rotations, so that a small amount of paint remaining in each metal part is removed. And let the residual paint fall into the dip tank 62 smoothly, and all the lacquering action can be completed.

As shown in FIGS. 31-43, after the metal parts in the barrel are finished squeezing, the side gate 600 of the fuselage 60 of the dip coating apparatus 6 is driven to be driven by the power element 601 (Fig. 23). It is considered that the moving seat 51 of the aforementioned feeding table 5 is moved into the dip coating device 6, and the barrel holder 53 provided above the moving seat 51 is placed under the barrel 3, and the movement is given. The inflatable member 54 disposed between the seat 51 and the bucket base 53 is inflated and enlarged to support the bucket base 53 up to a small height (as shown in FIG. 31), and the bucket 3 is combined with the bucket base 53. (refer to the foregoing), at this time, the rotary centrifugal element of the aforementioned dip coating device 6 can be placed The charging barrel 3 can be deflated, and the barrel holder 53 can be lowered by a certain height to facilitate the removal of the moving seat 51 and the barrel holder 53 from the dip coating device 6 (see Fig. 20), and another material. The tub 3a is completed from the aforementioned vibrating feeding device 1 to receive an appropriate amount of metal parts. At the same time, the second barrel-receiving element 44 of the aforementioned barrel conveying device 4 will grip the barrel 3, and the first barrel-receiving element 43 can simultaneously grab the barrel 3a (as shown in Fig. 32) and rise after a certain height. The moving platform 42 of the bucket conveying device 4 is driven by the power component 422 to move to one side (as shown in FIG. 33), and the bucket 3 grasped by the second bucket taking unit 44 reaches the conveyor belt 80 of the drying device 8. Above, and the bucket 3a grabbed by the first bucket member 43 is located above the moving base 51 of the feeding table 5 (as shown in FIG. 33); afterwards, the bucket captured by the second bucket member 44 3 will drop to the conveyor belt 80 close to the aforementioned drying device 8, and the pouring device 7 disposed below the moving platform 42 of the aforementioned barrel conveying device 4 will be activated to open the bottom wall 34 of the drum 3 (as mentioned above) ) (Fig. 34), in order to make the metal parts in the barrel close to the conveyor belt of the drying equipment, to prevent the metal parts from touching each other, to avoid the problem of infiltrating stains and unevenness, and the aforementioned first barrel-receiving element The bucket 3a grabbed by 43 is placed above the bucket base 53 of the moving seat 51 of the aforementioned feeding table 5. (FIG. 34); afterwards, the bucket 3 grasped by the second barrel-receiving element 44 will slowly rise, so that all the metal parts in the barrel 3 fall into the conveyor belt of the drying equipment, and the first The taking barrel element 43 releases the barrel 3a, and conveys the barrel 3a into the dip coating device 6 by the barrel holder 53 of the moving base 51 of the feeding table 5, and performs the action of dip dyeing (Fig. 35). And 36); afterwards, the moving platform 42 of the bucket conveying device 4 is driven by the power component 422 to move in the opposite direction, so that the bucket 3 grasped by the second bucket taking unit 44 reaches the moving seat of the feeding platform 5 51, and descending to place the bucket 3 above the bucket base 53 of the feeding table 5 (as shown in Figs. 37 and 38); after being placed properly, the moving platform 42 of the bucket conveying device 4 is driven by the power component 422 again. Reverse movement causes the aforementioned first barrel-receiving element 43 to be moved above the drum 3 and grabs the drum 3 (Fig. 39); thereafter, the moving platform 42 of the aforementioned barrel conveying device 4 is driven by the power element 422 Further moving in the opposite direction, and letting the bucket 3 grabbed by the aforementioned first barrel-receiving element 43 reach above the weighing apparatus 2 (as shown in FIG. 40) At the same time, the moving seat 51 of the feeding table 5 enters the dip coating device 6, and the material barrel 3a and the interior thereof are dip-dyed to remove the metal parts from the dip coating device 6 (Fig. 41). At the same time, the first barrel removing element 43 is to lower the barrel 3 Down to the top of the weighing device 2 (as shown in Fig. 41), the first barrel removing element 43 releases the barrel 3, and the metal parts to be processed are filled into the barrel 3 by the vibrating feeding device 1 (Fig. 42). After the filling of the tub 3 is completed, the first bucket taking unit 43 will grab the bucket 3 again (as shown in FIG. 43), and at the same time, the second bucket member 44 will grab the bucket 3a again (as shown in FIG. 43). And the moving platform 42 of the aforementioned bucket conveying device 4 is driven by the power element 422 and moved in the reverse direction to perform the next uninterrupted action (refer to FIG. 33).

In summary, the automatic dip coating machine of the present invention, from the feeding to the dipping to the lacquering to the drying, is provided by the vibrating feeding device 1 to provide the processing of the metal parts, when the barrel 3 is After being disposed on the weighing device 2, the metal parts can be automatically metered into the barrel, and the first barrel-receiving element 43 and the second barrel-receiving element 44 of the barrel conveying device 4 are operated in time sharing, and two are provided. The alternate operation of the barrels 3, 3a is uninterrupted, and the dip coating device 6 provides the centrifugal lacquering action of dip dyeing to various angles, and the excess paint on the surface of the metal parts can be removed, and the material is poured by the pouring device 7. The bottom wall of the barrel is opened, so that the metal parts can be safely dropped into the drying equipment, and the metal parts fall into the height of the drying equipment, thereby reducing the chance of the metal parts touching each other and ensuring the average and appropriate amount of the surface paint of the metal parts. The invention has indeed been progressive and novel, and it is the composition of this case.

1‧‧‧Vibration feeding equipment

10‧‧‧First storage platform

11‧‧‧Second storage bin

12‧‧‧Into the hopper

2‧‧‧Weighing equipment

20‧‧‧Weighing platform

24‧‧‧Power components

3‧‧‧ bucket

4‧‧‧Bucket conveying equipment

40‧‧‧Rack

410, 411‧‧ Track

42‧‧‧Mobile platform

422‧‧‧Power components

43‧‧‧First barrel taking

44‧‧‧Second barreling components

430, 440‧‧‧ vertical pole

5‧‧‧ Feeding table

50‧‧‧ gantry

52‧‧‧Power components

6‧‧‧Dip coating equipment

60‧‧‧ body

63‧‧‧Rotating centrifugal element

630‧‧‧Power components

632‧‧‧Land

633‧‧‧Large pulley

64‧‧‧ sports platform

7‧‧‧Dumping equipment

8‧‧‧Drying equipment

Claims (30)

The utility model relates to a full-automatic dip coating machine, which comprises at least: a vibration feeding device, which can separate the vibration of the metal parts, and let the metal parts fall into the barrel above the weighing equipment, and measure the inside of the barrel by the weighing equipment The quantity can be used to suspend the vibrating feeding device. After that, the barrel is taken out by the barrel conveying device and reaches the feeding table of the dip coating device, and the barrel is sent to the dip coating by the feeding table. In the covering equipment, the metal parts are dipped and dyed by the dip coating equipment, and the barrel is repeatedly subjected to multiple positive and negative rotations and centrifugal operations at various angles to remove the excess paint on the surface of the metal parts. The barrel is removed from the aforementioned dip coating device through the feeding platform, and then the barrel is lifted by the barrel conveying device and the bottom wall of the barrel is opened by the pouring device to place the metal parts in the barrel in the drying device. The conveyor belt can complete the automatic dip coating of all kinds of metal parts. The automatic dip coating machine according to claim 1, wherein the vibrating feeding device is provided with a first storage table, so that various metal parts can be first placed on the first storage table, and the first storage material is used by the vibration component. The table generates vibration to smoothly drop all kinds of metal parts into the second storage stage, and the second storage stage is set in the hopper, and the feeding hopper is arranged on the second storage platform with the fulcrum shaft, and enters The hopper side is fixed to the end of the telescopic shaft of the power component, and the hopper can be deflected up and down by a certain opening angle ∮ by the power component to allow the metal parts to enter the barrel of the weighing equipment below via the hopper. The automatic dip coating machine according to claim 1, wherein the weighing device is provided with a weighing platform, and the weighing platform is provided with a plurality of positioning seats, wherein the positioning seats are provided with a tapered groove, which facilitates the positioning rod and positioning of the barrel When the tapered groove of the seat is combined, it can be automatically moved down by the weight of the bucket; a scale is arranged under the weighing platform to monitor the feeding amount of the bucket at any time, and a sprocket is arranged under the weighing platform to be driven. The chain is wound around the sprocket of the power component, and the power component drives the weighing platform to rotate, and the drum can be rotated at the same time, so that the metal parts from the vibrating feeding device can be evenly dropped into the bucket. The automatic dip coating machine according to claim 1, wherein the material tank is provided with a trough for accommodating metal parts, and the trough is provided with a first ring circumference and a second circumference, in the first ring circumference and the second circumference. Forming a space between the circumferences, which facilitates the first barrel surrounding of the barrel conveying device and the second barrel unit to take the first circumference and extract the movement; the bottom wall of the tank is provided with a bottom wall, the bottom One end of the wall is shaft The utility model is disposed on the wall of the material tank, so that the bottom wall has the function of opening or closing the trough downwardly, and the fastening member is arranged on the bottom wall, and the fastening component is provided with a compression elastic element, so that the fastening component can be appropriately produced. a telescopic effect; a fastening hole is disposed at the other end of the ring wall of the barrel, so that the fastening component is extended in the fastening hole, and an opening element is disposed outside the fastening hole, and one end of the opening component is supported by the shaft The shaft is disposed on the shaft seat of the barrel wall, and the opening element passes through a limiting member to limit the movable range of the opening element. The pushing block is disposed inside the lower end of the opening element, and the opening element is pressed by an external force at a proper time, that is, The fastening member can be separated from the fastening hole to open the bottom wall. A fully automatic dip coating machine according to claim 1, wherein the barrel conveying device is provided with a frame, the frame is provided with two symmetrical tracks, and a moving space is arranged between the two tracks to serve as a first barrel-removing element and 2. The moving range of the barrel taking component allows the bucket to be smoothly moved; the bucket conveying device is provided with a moving platform, and a plurality of moving wheels are arranged under the moving platform to be disposed on the two rails of the rack, and each auxiliary wheel is clamped The one of the plurality of moving wheels is connected to the power element by a sprocket on the side of the two tracks, and the moving platform can be driven to move left and right by the power element. The automatic dip coating machine according to claim 5, wherein the barrel conveying device is provided with a first barrel taking unit and a second barrel taking unit, and the first barrel taking unit and the second barrel unit are disposed on the movement Above the platform, and separated from the two sides of the mobile platform, the first bucket member and the second bucket member are moved to the left and right by the moving platform; the first bucket member and the second bucket member are respectively provided with upright rods a rack is disposed on one side of the upright rod, the upright rod is respectively set in a plurality of sets of wheel clamps, and the racks on the side of the upright rod are respectively matched with the gears of a power component, by The power component drives the upright rod to move up and down, and the first bucket taking component and the second bucket picking component are disposed under the vertical pole, and the cross seat is provided with a plurality of gripping members, and the grabbing members are respectively provided with a telescopic power. When the material is to be extracted by the first bucket taking element or the second barrel picking element, the cross section of the first barrel picking element or the second barrel picking element may be attached to the opening of the barrel to utilize the aforementioned grasping Picking up the first in the bucket Surrounded by. The fully automatic dip coating machine according to claim 1, wherein the pouring device is provided with two fixing seats, and the two fixing seats are fixed under the moving platform of the barrel conveying device, and the shafts of the two fixing ends are provided with starting. a rod, a support shaft of the starter rod and a sprocket, each of which is wound around the power by a chain The sprocket of the component can drive the pivot shaft of the starting lever to rotate a certain angle by the foregoing power component to open or close the bottom wall of the bucket. The automatic dip coating machine according to claim 1, wherein the feeding platform is provided with two rails, the two rails are disposed on the gantry, and the gantry is disposed in the rack of the drum conveying device. In order to cooperate with the operation of the barrel conveying device; the feeding platform is provided with a moving seat, and the movable seat is provided with pulleys on both sides thereof, so that the pulley is disposed on the two tracks. A fully automatic dip coating machine according to claim 8, wherein one end of the movable seat is fixed to the connecting member of the chain of the power component, and the connecting member is fixed on the chain, and the chain is wound around The two sprocket wheel can drive the sprocket by the aforementioned power component, and then drive the other side sprocket by the chain to make the chain rotate, so as to change the displacement of the connecting piece, the driving seat can be driven to the dip coating device. Move in the direction or return from the outside of the dip coating equipment. A fully automatic dip coating machine according to claim 8, wherein a bucket base is arranged above the moving seat, and a plurality of pillars are arranged below the bucket base, and each pillar passes through the movable seat below and is worn under the movable seat. An elastic member is disposed to allow the upper end of the elastic member to abut against the moving seat. The fully automatic dip coating machine according to claim 10, wherein a plurality of positioning seats are arranged above the barrel holder, and the positioning seat is provided with a tapered groove, so that the positioning rod of the barrel and the tapered groove of the positioning seat can be smoothly combined and positioned. . The fully automatic dip coating machine according to claim 10, wherein an inflatable component is disposed between the movable seat and the barrel holder, and the first barrel receiving element of the barrel conveying device feeds the barrel and is placed on the feeding table. When the top of the bucket seat is above, the aforementioned inflatable component is flat, so that the movable seat can feed the bucket into the dip coating device. After the positioning is reached, the inflatable component is inflated and enlarged, which is enough to feed the bucket seat and the material. After the bucket is lifted up to a small height, the rotating centrifugal element of the dip coating device can be grasped by the barrel, the aforementioned inflatable element can be deflated, and the barrel seat can be lowered to a certain height, so that the moving seat and the barrel holder can be removed from the dip. Coating equipment. A fully automatic dip coating machine according to claim 1, wherein the dip coating device is provided with a body, The side of the fuselage is provided with a side gate, and the side gate is located between the fuselage and the feeding platform, and the side of the fuselage is opened or closed by the expansion and contraction of the power component; the dip coating device is provided with a lifting platform, the aforementioned The lifting platform is fixed to the end of the telescopic rod of the plurality of power components, and the lifting unit is driven by the power component to determine the lifting and lowering of the dip tank, and the dip-dyeing action of the metal parts in the barrel; the dip coating device is provided Rotating the centrifugal element, the rotating centrifugal element is provided with a power element, the mandrel of the power element is provided with a pulley, and the belt is wound around the large pulley, the large pulley is disposed at one end of the rotating shaft, and the rotating shaft is disposed on the shaft seat And supporting the plurality of ball bearings, and fixing the shaft seat to the moving platform, wherein the rotating shaft has a rotating seat at a lower end thereof, and the rotating seat is provided with a plurality of fastening members, and the fastening member with the power driving is buckled The first circumference of the barrel. The fully automatic dip coating machine according to claim 13, wherein the fastening component of the dip coating device is provided with a rod portion and a fastening portion, and the rod portion of the fastening member is a shaft, the support shaft The utility model is disposed on the support shaft seat; a compression elastic element is disposed below the corresponding position of the rod portion of the fastening component, and the two ends of the compression elastic element are respectively disposed on the elastic component seat of the rod portion of the fastening component The elastic component seat of the rotating seat is located in the elastic component seat of the rod portion, and is disposed on the long slot of the rod portion after being disposed on one shaft; and the telescopic power component is disposed above the corresponding position of the compression elastic component, and the telescopic power component is One end is disposed on the motion platform, and the protrusion portion of the fastening component is separated or fastened by the protrusion of the telescopic power component to be engaged or fastened to the first circumference of the bucket. The automatic dip coating machine according to claim 13, wherein the rotary centrifugal element is disposed above or below the motion platform, and the moving platform is fixed to one end of the telescopic shaft of the plurality of power components, and the power component is The elongation or condensation of the telescopic shaft changes the setting angle of the moving platform, and simultaneously changes the angle of the rotating centrifugal element and the barrel to change the centrifugal lacquer movement. The fully automatic dip coating machine according to claim 13, wherein one end of the movement platform is fastened by a fastener, and one end of the fastener is axially disposed on the body, so that the fastener is driven by the telescopic shaft of the power component. The angled yaw, the buckle is provided with a snap-fit opening, and the snap-fit opening is fastened to the motion platform, so that the motion platform is horizontally disposed, or the motion platform is released, so that the motion platform can be changed in angle. A fully automatic dip coating machine comprising at least: vibration feeding equipment, weighing equipment, materials a barrel conveying device, a feeding table and a dip coating device, wherein the barrel conveying device is provided with a first barrel taking unit and a second barrel taking unit, and the first barrel taking unit and the second barrel unit are disposed on Above the mobile platform, and separated from the two sides of the mobile platform, the first bucket element and the second barrel element are moved to the left and right by the moving platform. The automatic dip coating machine according to claim 17, wherein the barrel conveying device is provided with a frame, the frame is provided with two symmetrical tracks, and a moving space is arranged between the two tracks to serve as a first barrel-removing element and The movement range of the two barrel components is allowed to move smoothly. The automatic dip coating machine according to claim 17, wherein a plurality of moving wheels are disposed under the moving platform to be disposed on the two rails of the rack, and each of the auxiliary wheels is disposed on a side of the two rails. One of the plurality of moving wheels is connected to the power element by a sprocket, and the moving platform can be driven to move left and right by the power element. A fully automatic dip coating machine according to claim 17, wherein the first barrel-carrying element and the second barrel-carrying element are respectively provided with upright rods, and one side of the upright rods is provided with a rack, and the upright rods are respectively a complex array. The wheel clamp setting position and the rack on one side of the upright rod are respectively engaged with the gears of a power component to drive the upright rod to move up and down by the power component, and the first bucket barrel element and the first barrel The two taking barrel components are disposed under the vertical poles, and the cross seat is provided with a plurality of gripping members, and the grabbing members are respectively provided with retractable power components, which are to be extracted by the first bucket taking component or the second bucket picking component. The bucket can be fastened to the first opening of the bucket by the aforementioned grasping member by contacting the cross opening of the first bucket taking element or the second bucket taking component. A fully automatic dip coating machine comprising at least: a vibrating feeding device, a weighing device, a barrel conveying device, a feeding table and a dip coating device, characterized in that between the moving seat of the feeding table and the barrel holder The inflatable element is arranged. When the first barrel-receiving element of the barrel conveying device feeds the barrel and is placed above the barrel of the feeding table, the inflating element is flat, so that the moving seat can feed the barrel into the dip.甩 coating equipment, after the positioning is reached, the aforementioned inflatable element is inflated and enlarged, enough to prop up the barrel base and the bucket up to a small height, so that the rotating centrifugal element of the dip coating device can grasp the barrel, The aerating element can be deflated, and the barrel holder can be lowered to a certain height, so that the moving seat and the barrel holder can be removed from the dip coating device. The automatic dip coating machine according to claim 21, wherein the feeding platform is provided with two rails, the two rails are disposed on the gantry, and the gantry is disposed in the rack of the drum conveying device. In order to cooperate with the operation of the barrel conveying device; the feeding platform is provided with a moving seat, and the movable seat is provided with pulleys on both sides thereof, so that the pulley is disposed on the two tracks. A fully automatic dip coating machine according to claim 21, wherein one end of the movable seat is fixed to the connecting member of the chain of the power component, and the connecting member is fixed on the chain, and the chain is wound around The two sprocket wheel can drive the sprocket by the aforementioned power component, and then drive the other side sprocket by the chain to make the chain rotate, so as to change the displacement of the connecting piece, the driving seat can be driven to the dip coating device. Move in the direction or return from the outside of the dip coating equipment. The automatic dip coating machine according to claim 21, wherein a plurality of pillars are disposed under the barrel base, and each of the pillars passes under the movable seat, and an elastic member is disposed under the movable seat to allow the upper end of the elastic member Can be reached below the aforementioned moving seat. The automatic dip coating machine according to claim 21, wherein a plurality of positioning seats are arranged above the material barrel seat, and the positioning seat is provided with a tapered groove, so that the positioning rod of the material barrel and the tapered groove of the positioning seat can be smoothly combined and positioned. . A fully automatic dip coating machine comprising at least: a vibrating feeding device, a weighing device, a barrel conveying device, a feeding table and a dip coating device, wherein the dip coating device is provided with a rotating centrifugal element, the aforementioned rotation The centrifugal element is disposed on the moving platform, and the rotating centrifugal element is provided with a power element for driving the rotating shaft to rotate. The lower end of the rotating shaft is provided with a rotating seat, the rotating seat is provided with a plurality of fastening members, and the fastening member is provided with a fastening portion and a fastening portion. The rod portion of the fastening member is a shaft, and the support shaft is threaded through the support shaft seat; the compression elastic member is disposed below the corresponding position of the rod portion of the fastening member, and the two compression elastic members are The elastic component seat respectively sleeved on the rod portion of the fastening component and the elastic component seat located in the rotating seat are located in the elastic component seat of the rod portion, and are disposed on a shaft and then disposed in the long slot of the rod portion a telescopic power element is disposed above the corresponding position of the compression elastic element, and one end of the telescopic power element is disposed on the motion platform, and the rod portion of the telescopic power element is extended or retracted. Engaging portion of the engaging member to the engaging or have to leave the drum circumference of the first ring. The automatic dip coating machine according to claim 26, wherein the spindle of the rotating power element of the centrifugal element is provided with a pulley and is wound around the large pulley, and the large pulley is disposed at one end of the rotating shaft, the rotation The shaft is disposed in the shaft seat and supported by a plurality of ball bearings, and the shaft seat is fixed to the motion platform. A fully automatic dip coating machine according to claim 26, wherein the rotary centrifugal element is disposed above or below the moving platform, and the moving platform is fixed to one end of the telescopic shaft of the plurality of power components by the power component The elongation or condensation of the telescopic shaft changes the setting angle of the moving platform, and simultaneously changes the angle of the rotating centrifugal element and the barrel to change the centrifugal lacquer movement. The fully automatic dip coating machine according to claim 26, wherein one end of the movement platform is fastened by a fastener, and one end of the fastener is axially disposed on the body, so that the fastener is driven by the telescopic shaft of the power component. The angled yaw, the buckle is provided with a snap-fit opening, and the snap-fit opening is fastened to the motion platform, so that the motion platform is horizontally disposed, or the motion platform is released, so that the motion platform can be changed in angle. A fully automatic dip coating machine according to claim 26, wherein the dip coating device is provided with a fuselage, and a side gate is arranged on one side of the fuselage, and the side gate is located between the fuselage and the feeding table. Opening and closing the side of the fuselage by the expansion and contraction of the power component; the dip coating device is provided with a lifting platform, and the lifting platform is fixed to the end of the telescopic rod of the plurality of power components, so that the lifting device is driven by the power component Decide the lifting of the dip tank and match the dip-dyeing action of the metal parts in the barrel.