JPS6342400A - Barrel for surface treatment and method for putting object to be treated into and out of said barrel - Google Patents

Abstract

PURPOSE:To enable continuous and automatic surface treatment by providing a pair of cap plates which open outward and locking-unlocking mechanism to the aperture in the peripheral cylindrical part of a rotary perforated vessel and discharging and charging the objects to be treated automatically from and into the vessel according to the rotation thereof. CONSTITUTION:This barrel for surface treatment is provided with the aperture 6A in the peripheral cylindrical part of the perforated vessel 1A and the neck edges of a pair of the cover plates 7A, 7B are respectively pivotally fitted to both edges thereof. The cap plate locking-unlocking mechanism is mounted between the cap plates 7A and 7B. The mechanism is formed of a detaining hook part 13A, detaining piece 8A and detaining hook part actuating mechanism. The barrel is rotated in the unlocking state of said unlocking mechanism while the objects to be treated are held contained in the barrel. The objects to be treated are thus discharged from the aperture 6A. The aperture 6A is put into the half open state as the aperture moves upward. The objects to be treated are charged into the barrel from the aperture in said position. The cover plates 7A, 7B are closed and locked when the barrel further rotates.

Description

[Detailed Description of the Invention] [Field of Industrial Application] The present invention relates to a barrel ζ/VX for surface treatment used for surface treatment such as coating and phosphate treatment.

[Background of the invention] Continuous surface treatment such as plating and phosphate treatment
', 'f, a surface treatment barrel is used. The surface treatment barrel is generally a porous container with a polygonal cross section (usually hexagonal), and is rotatably supported by a frame. 1-1 The barrel is immersed in the processing liquid in the processing tank, and the IV liquid flows through the holes through the porous container. It flows into the container, and in this state, the barrel A, - is rotated L < Fi
When it is rocked, the object to be processed in the porous container is stirred and comes into uniform contact with the processing liquid, and in the case of plating, when the object to be processed in the barrel is energized to the east with the cathode and l-, the surface of the object to be processed is stirred. Plating or other surface treatment is applied to the surface. After processing, the barrel is taken out from the processing tank by means of a conveying means via the frame 1-, and further transferred to the next predetermined processing tank 1 for the next processing.

The surface treatment barrel is thus extremely useful for automatically carrying out surface treatment sequentially in a series of treatment tanks. For example, in the case of galvanizing, a pre-cleaning tank - a degreasing tank - a washing tank - a drying tank -> a washing tank are arranged, and the barrels are sequentially conveyed and soaked in each of the above tanks, and a series of treatments is automatically carried out. It is.

[Conventional technology]

The structure of a conventional barrel is shown in FIG. In the figure, (
1) is a container with a polygonal cross section, and a large number of holes (3) are formed in the container (1), and lead wire insertion holes (5), (5) are formed on both sides (41, (4)). ) is provided.An opening (6) is provided on the - side of the peripheral body (2),
A lid (7) is removably attached to the opening (6), and locking pieces (8) are attached to the upper surface of the opening (91, (91) and 1). - The locking pieces (81, (8) have openings (6) at both ends.
) The locking hole α■ provided on the front and rear edges (10, 01)
, (121, (1:'v) is designed to fit into the α moat.The mounting (7) is attached and detached from the opening (6) when loading and unloading the workpiece into the barrel I having the above configuration. 0
[Problems to be Solved by the Invention] In the above conventional configuration, when the opening (6) is closed by force, the lid (7) is fitted into the opening (6) and the locking piece (8) is closed.
).

(8) to open the front and rear edges α1 of the opening (6). The locking piece (8
), (8) (solid line position in Figure 14), and lock the locking pieces (8) and (81 by tightening the bolt α9.a9 screwed onto the shaft (91, (9)). piece t8)
+ t8) and when removing the lid (7) from the opening (6), loosen the bolt (1,51g (
8), (Place both ends of 81 in the locking hole α force, α2° (13,
(l: Separate from i (dotted line position in Figure 14).

This process of attaching and detaching the twisted M (7) must be done manually by the worker, and therefore requires the loading and unloading of the processed material from the barrel side, which is extremely time-consuming and requires a lot of work on the surface. lL
There was a major need for continuous and complete automation of surface treatment for clothes, combs, and combs. For example, in the case of plating, the workpiece is removed from the barrel at the end of the process and undergoes 1-post treatment and drying. !lsu [, Riu・
The extraction of h must be done by inputting 'j',
”: Instead, the present invention solves the above-mentioned drawbacks of the conventional method. As a means for improving the circumferential body (2) of the porous container (1) A that is rotatably supported by the frame,
1AK opening (6)A is provided, and a pair of cover plates (force A, (
The root edges of force B are pivotally connected to each other 2, and the pair of lid plates (force A
.

(7) Barrel for surface treatment (14) characterized by having a lid plate (7) A and a (force B lock-release mechanism) installed between the three.
A.

[Effect]

The effects of the present invention are as follows.

When the lid plate lock-release mechanism releases the lock between the pair of lid plates and rotates the porous container, the pair of lids will open naturally under their own weight as the opening moves downward.
As the opening moves upward in the open state, the lid plate on the side in the direction of rotation first closes half of the opening by itself, and then as the barrel rotates, the other lid plate collapses due to its own weight and closes the other half of the opening. Close half of. Then, the opening moves upward, and just before the other lid closes the other half of the opening, the rotation of the barrel is temporarily stopped, and the material to be processed is introduced into the barrel from the other material in the opening, and then the other half of the opening is closed. When the barrel starts to rotate and the other lid closes the other half of the opening, the pair of lid plates are locked together by the lid plate locking mechanism. When the barrel is immersed in the processing liquid in this state, the processing liquid flows into the container through the hole and comes into contact with the object to be processed. When the barrel is rotated or rocked, the object to be treated is agitated within the barrel, uniformly comes into contact with the treatment liquid, and is subjected to surface treatment such as plating or plating by phosphate treatment or energization. After processing, the barrel is removed from the processing liquid, the lock-release mechanism is used to unlock the lid plate, and the barrel is rotated.As the opening moves downward, the pair of lids naturally open due to their own weight and move inside the barrel. The objects to be processed fall to the outside from the opening due to their own weight and are received in a predetermined receiving means.

〔Effect of the invention〕

Therefore, in the present invention, the objects to be treated can be automatically taken in and out of the barrel, and complete continuous automation of surface treatment using the barrel can be realized. When taking out the workpiece from the barrel, since the opening is wide, there is little chance that the workpiece remains inside the barrel, and the same operation can be performed regardless of the direction of rotation.

〔Example〕

1 to 13 show an embodiment of the present invention,
? , (1) A is a container with a polygonal cross section, and the container (1) A has a large number of holes (3) A formed therein, and both sides (
=1)A, (41A has lead wire insertion hole (5)A,
(5) A is provided, and detection pieces -A, ■B, and FflC of a beam mitswitch are attached to one side (4) A.

An opening (
6) A is provided, the opening (6) AKVi pair of lids (
7)A, f7)B is attached so that it can be opened and closed, and the attachment (
The root edges of forces A and (7)B are the edges of opening (6)A (1
)) A, (1)) B K hinge gloss A.

α] It is pivotally connected via B. 1) 17i edge (1)
)A, old)B further has a receiving piece (2+)A, t2+
)B is installed upright, and when the lid (71A, (7)B) is fully opened, (7)A, (7)B is placed on the receiving piece 121.
) A, i2υB opens the opening (6) as shown in Figure 2.
It is received at a predetermined angle θ with A. In this example, θ
is set slightly larger than 90°. From the top surface of the lid (7)B, locking pieces (8)A, (81A) bent in a dogleg shape along the lid (71B, (7)A) are extended, while on the top surface of the lid (7)A are Bracket Q9A, α9
A rod α5A is attached to the rod Q6) so that it can slide from side to side via α9A', and a locking hook α3A is attached to the rod Q6)A.
α3A is installed. And the rod (IE9A
Bent parts (1&A, 0M) are formed at both ends of the bending parts 0&A, (1 to A). The abutting plate 61 formed at the end of the iron θ mark is brought into contact with the rod (lfH3) by sliding the rod (lfH3 left and right) using the air cylinder 081 to release the locking piece (8).
1A, 1s) A locking hook (1(8)A, which engages and disengages α3A from A. As shown in Fig. 6, the bracket) QIA' has a locking hook built into the cap (A) in the center. The ball is urged downward by a spring race.
is attached, and a convex part is formed on the rod 0■AK in the vicinity of the core ball F4, and in the locked state shown in FIG.
The sliding of the rod (left side of 161A) is prevented, and the air cylinder (4&
When aωAk is pushed to the left, the ball (b) overcomes the elasticity of the spring (to) and hits the convex part of the rod αeA □□
□ is overcome and the unlock state IK shown in FIG. 4 is obtained.

The above barrel 04)A is a support rod (c) as shown in Figure 7.
A, □□□ A is held out head @ A and leg 5 (2) A
A T-shaped support frame (legs (24) of 221A) consisting of
Axis Ofi at the bottom! It is rotatably suspended via A.

A gear (nA) is attached to one side of the barrel (14) A, and the gear @A meshes with a gear A attached to one inner side of A of the support frame. A further meshes with a gear (291A) attached to one inner surface of the support frame t2''2)A, and a gear (29)A is attached to one outer surface of the core support frame C,!JA. Gear C' (OA is attached) coaxial with

Barrel O Toga u'r:, is fully filled with the material to be processed (7)A
(7) Close B and attach the support frame (221A) as described above.
and transported to a pre-cleaning tank, degreasing tank, washing tank, plating tank, phosphoric acid treatment tank, chromate treatment tank, etc. by appropriate transportation means.
, is immersed in. FIG. 8 shows the state in which the bar (31)A is immersed in the plating tank (31)A. In other words, in the plating tank (31)A, the arms (31)B,
Gl)B is held out, the receiving piece GυC2C31)C is attached to the upper end of the arm (υB, C3υB), and the barrel (
14) Support frame of A ■ Support rod of A c5JA, iA, C31) B, C3υBO receiving piece OυC, C
31) By being received by C, the barrel α4A is suspended in the plating tank GυA via the support frame (c)A, and both sides of the barrel Q41A (41A, (4)A lead wire) Insertion hole (5) A, (Lead wire from 51A (
c) A, (to) A is inserted.

In this case, generally the receiving piece G of arm C31)B, C3υB
A cathode busbar (not shown) is connected to υC2C31)C, and the lead wires (3aA, C33A) are connected to support rods EA, (2)A of the support frame (2)A of the barrel (14)A. And Nokurel Q4) Support frame of A @ Gear GIA of A
is the sprocket C33A attached to one outside surface of the plating tank C31)A.

(It meshes with the chain (to) A suspended from 341A.

A coaxial sprocket ■A is attached to the sprocket (b) AK, and the sprocket (to) A is connected to the motor (to) through the chain rod I. When the barrel (14)A is immersed in the plating tank C31)AK in this way, the plating liquid C3G in the plating tank GυA flows into the barrel Q4)A from the hole (3)A of the barrel 04)A, and the motor (to) Rotate sprocket (support) A via chain C37), and then rotate sprocket) C331A, C3
4) Rotate the chain (351A) via A. If a series of surface treatment steps are to be performed sequentially, the chain C35
A is stretched over a plurality of processing tanks used in the process, and in this case, sprockets α9A and (to) A are attached to the front and rear ends of the processing line. Chain C
When 351A rotates, the support frame (221A) that meshes with the chain (G) A rotates, and therefore the gear A coaxial with the gear A also rotates, and the gear C29
1A rotation is gear C28)A.

It is transmitted to the barrel (IaA) through the gear @A, and the barrel (
I-A rotates in the direction of the arrow in Figure 3. Barrel (14)A
As the material rotates, the object to be processed is mixed in the barrel (14) A and comes into uniform contact with the plating liquid 01.
-4C1))B, CIIIB receiving piece c (IIC+
C31) C1 barrel Q4) A's support frame (company) A's support rod (c) A, (c) Lead wire C33A through A, (
When 32A is energized, the surface of the object to be treated is plated. After finishing the plating etc., attach the barrel 04)A to the support frame (
c) Take out the plating tank (31) from A through A, transport it, wash it with water, and then as shown in Figures 9 and 10,
4GK! put on a shelf In other words, there is a catch piece K on the upper edge of the loading/unloading frame GIG.
l), (41) is attached, and the head of support frame qA ■
A's support rods CaA and iA are inserted into and out of frame 0 [upper edge receiving piece (
41), C41) is accepted. In this state, the gear ■A of the support frame 021A is the sprocket (42
It meshes with the chain (44) suspended at 1°03. And sprocket 7M43 has a coaxial sprocket (4
51, and connect the sprockets (4 are chains (4)
4- (4 connected to 4η, barrel 04) A offers the object to be processed. 1-6 7
Bu7kenoto (Rotate 4 and then Sprokuno) (4
Z, rotates the chain <44 through 43.

When the chain 04) rotates, the support frame (msa A of 221A) that meshes with the chain (44) rotates, and therefore the gear A coaxial with the gear (291A) also rotates (~, the tooth A of the gear (291A)). ) A's rotation is transmitted to the barrel (14) A via the gear C.
1A rotates in the direction of the arrow in FIG. 10, and when the barrel α4)A is turned upside down, the object to be processed falls from inside the p barrel Q4)A due to its own weight.

The operation procedure of the barrel (141A) is shown in the first diagram when the object to be processed is taken in and out of the barrel (14)A suspended on the loading/unloading frame G41. That is, when the barrel α4)A is rotated to the state A, the barrel (14)A stops and the air cylinder (48) is activated and the barrel Q4)A is activated as described above.
(Unlock the force A, and in this state, rotate the barrel ← 4 in the direction of the arrow) to open the barrel (14) A.
As the lid (7) rotates, the lid (7) A begins to open under its own weight and reaches the state shown at the opening. Further, when barrel 04) A is rotated in the direction of the arrow, the lid (force B opens by its own weight) becomes the state shown in .

/%, the object to be treated in barrel (14) A is 6υ
will fall automatically. After taking out the object to be processed 61), the barrel <14)A is further rotated in the direction of the arrow to go through the second state.
) Close half of A by its own weight. From the state shown in E, the lid is rotated in the direction of the arrow so that the force B is approximately vertical. In this state, the barrel α4) A is stopped and the object to be processed Qυ is introduced. When the barrel (14)A further rotates slightly in the direction of the arrow from the position shown in , the lid (7)A falls onto the opening (6)A under its own weight, closing the other half of the opening (6)A and closing the lid (7)A. In this state, the air cylinder decoy of the loading/unloading frame (40) is activated, and the operation procedure for loading/unloading the processed object is completed with the M (sword A) in the locked state as shown in Fig. 3. The barrel α41A with the lid (force A in the locked state) is taken out from the loading/unloading frame (4G) and transported to a predetermined processing tank.The barrel (14)A may be rotated in the complete opposite of the above operating procedure, stomach.

You can rotate the eyelids in the direction of the arrow until the mouth and C, and then rotate them in the opposite direction, or conversely, rotate them in the opposite direction from A to get the state of C, and then rotate them in the direction of the arrow to make the lids ( 7)A
, (force B is received by the receiving pieces (21)A and 12υB so as to form an angle θ with the opening (6)A as shown in Fig. 2 when fully opened. Therefore, the lid (7)B is vertically In this state, the opening (6)A is tilted by θ-90° from the horizontal.The angle of the opening (6)A, where it is easy to charge the workpiece 6υ into the barrel Q (IA), is approximately 125°. Since it is an obtuse angle, it is desirable to set θ to 35°.

In order to automate the procedure of loading and unloading the workpiece into and out of the barrel Q4)A, as shown in Figure 1, the barrel Q4)
4) Side of A (4) Detection piece NA at the bottom of A, on) B, N
C, and as shown in Figure 12, insert the access frame (4(
] is in contact with the detection pieces F4A, ff1B, and 68C, and the mount on which the motor 0η and the air cylinder (481, (481) are connected to the limit switches @A, a7) B, and C is mounted is moved in the direction of the arrow. In other words, when the barrel (14) A is mounted on the loading/unloading frame 00 and rotated, the frame η moves forward and the limit switches 6ηA, 1!5 are mounted.
7)B.

F17) C is the detection piece ff1A, mB of barrel α41A,
(To) It is now possible to draw and touch C, respectively. In this state, the lid (7) A is located upward (Fig. 1)
Barrel 1) (a) A detection piece fijA and the ejection frame (4)
When the 0 glue mint switch @A comes into contact, the limit switch 6ηA is activated to stop the operation of the motorized 7), temporarily stopping the rotation of the barrel Q4)A, and air cylinder 〇g.

(4e is activated, barrel 04) A lid (force A, (7) 8
Automatically unlock between. When the barrel α4A starts rotating again and operates according to the state shown in Fig. 1), the detection piece fi8B of the barrel α4)A and the insertion/extraction frame (4G glue mint switch @B come into contact with each other again) The rotation of the barrel (14)A stops, a loading machine (not shown) operates to input the material to be processed into the barrel Q41A, and the barrel Q4)A starts rotating again and when the lid (7)A is in the state shown in FIG.
) B automatically collapses and closes the opening (6) A, and the detection piece C of the barrel α4) A comes into contact with the limit switch 6ηC surrounding the loading/unloading frame, stopping the rotation of the barrel α41A and releasing the air. Activate the cylinder (481, C48,
Automatically locks the lid (7) A of the barrel Q4) A. In this way, the loading/unloading operation procedure is automated.

As mentioned above, the barrel Q4)A can open and close the lids (7)A and (7)B and charge the material to be processed regardless of the rotation direction.For example, as shown in Fig. At the front stage of the transfer (left side of the drawing), load the workpiece 63J with the lid (7) A open, and close and lock the lid (7) A by rotating the barrel (14) A in the direction of arrow A. Immerse the barrel α4) A in the galvanized hinoki ring and move it in the direction of the arrow while performing galvanizing, and wash with water after the galvanizing invitation! ! (No. 13, same right), release the lock at the entrance/exit frame, rotate the barrel (14)A in the direction of the arrow, and direct the opening (6)A of the barrel (14)A downward to load the object 61J. When the object to be processed is discharged, the baking furnace 61)
After hydrogen embrittlement removal treatment, the barrel Q41A
is moved to the front stage of the chromate tank movement (on the right side of the drawing) together with the inlet/outlet frame, rotated in the direction of the arrow, and the workpiece 61) that has undergone hydrogen embrittlement removal treatment is introduced with the opening (6) A facing upward. Furthermore, by rotating the barrel (14) A in the direction of the arrow, the lid (force B) is closed and locked, and the barrel (14) is immersed in the chromate tank (Tax) and moved in the direction of the arrow to perform the chromate treatment. Mount the chromate tank on the rear stage (left side of the drawing) on the access frame, release the lock, and turn the barrel (141A) in the direction of arrow A to cover it with the opening (6) A of the barrel (14) A facing downward. When the process of discharging the treated product 09 and returning the barrel (141Al-j to the stage before the galvanizing tank) is performed, 7 is obtained.

[Brief explanation of the drawing]

1 to 13 show an embodiment of the present invention, in which FIG. 1 is a perspective view, FIG. 2 is a partial sectional view of the lid, and FIG. 3 is a partial plan view of the lock-release mechanism in the locked state. , Fig. 4 is a partial plan view of the lock-release mechanism in the released state, and Fig. 5 is the lock-release mechanism.
Figure 6 is a front cross-sectional view of the bracket, Figure 7 is a side view of the state in which the support frame is installed, Figure 8 is a partially cutaway view of the release mechanism.
The figure is a front view of the processing tank immersed, FIG. 9 is a front view of the loading/unloading frame suspended, and FIG. 1O is a side view thereof. 2, E, H, and G are explanatory diagrams of barrel insertion and removal operations, Fig. 12 is a perspective view of the barrel detection piece and limit switch portion, and Fig. 1
FIG. 3 is a process diagram of zinc plating-baking-chromate treatment, and FIG. 14 is a perspective view of a conventional example.

Claims (3)

[Claims] (1) An opening is provided in the peripheral body of the porous container rotatably supported by the frame, and the root edges of a pair of lid plates that open outward are pivotally attached to both edges of the opening, respectively; A barrel for surface treatment, further comprising a lid plate lock-release mechanism installed between the pair of lid plates. (2) The cover plate lock-release mechanism includes a locking hook provided on one cover plate, a locking piece provided on the other cover plate to be fitted into the locking hook, and the locking hook. The surface treatment barrel according to Claim (1), comprising a locking hook actuating mechanism that engages and disengages the locking piece with the locking piece. (3) An opening is provided in the peripheral body of the porous container rotatably supported by the frame, and the root edges of a pair of lid plates that open outward are pivotally attached to both edges of the opening, respectively; Furthermore, when loading and unloading the workpiece into and out of the surface treatment barrel, which is equipped with a cover plate lock-release mechanism between the pair of cover plates, the cover plate lock-release mechanism is installed while the workpiece is in the barrel. is released, the barrel is rotated, and as the opening moves downward, the pair of lid plates is opened by its own weight, allowing the object to be processed to fall and be discharged from the opening by its own weight, and as the barrel rotates further, the opening moves upward. As it moves, the lid plate on the side in the direction of rotation first closes half of the opening due to its own weight, and the other half of the opening remains open, thus allowing the object to be processed to enter the barrel from the other half of the opening. The object to be processed is placed in the barrel, and the barrel is further rotated to collapse the other lid plate by its own weight to close the other half of the opening and to lock the lid plate lock-release mechanism. How to put in and take out