KR810000354Y1 - Automatic machine making brick - Google Patents

Abstract

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Description

Automatic brick forming machine

1 is a left side view of the present invention.

2 is a right side view of a portion of the present invention.

3 is a state diagram of the operation of the press hoisting device addressed to the Vidatle.

4 is a cross-sectional view of FIG.

5 is a longitudinal sectional view of a power transmission device that is a main part of the present invention.

6 is a longitudinal sectional view of a power shear device which is a main part of the present invention, and an operating state of a variable value and an operating state of a vibration pulley.

7 is a cross-sectional view of the binding state of the pulley, the vibration pulley and the side bar linked to the motor.

8 is an enlarged cross-sectional view of the state of operation of the variable value in FIG.

FIG. 9 is an explanatory view of the speed reduction device as a helical sectional view of FIG.

10A, B, C, D, E, and F are explanatory views of the operation state of the movable gear box movable gear and the robot movable gear which are the principal parts of the present invention.

The present invention relates to an improvement of a brick molding machine for producing cement bricks or blocks.

The conventional automatic brick molding machine is a manual operation of the reciprocating motion of the mortar box and the lifting and lowering operation of the press and the vial bottle, and each molding machine has a defect that requires an operator. That is, in the related art, a device such as a lever is moved to move the mortar box over the molding frame, and a separate operating device is operated to vibrate the molding frame so that the mortar is filled into the molding frame. By operating the device to compress the mortar with the press, at the same time vibrating the mortar box, and again with a separate movable device to raise the press, and lower the vault to take out the molded bricks, and when the brick is taken, Such various processes would have to be operated manually. Therefore, the conventional brick molding machine has a defect that requires a skilled driver because the operation operation is complicated.

The present invention has been devised so that the above-described processes can be automatically made by improving the power transmission device, which will be described in detail by the accompanying drawings.

On the concave indentation portion 2 'formed by contacting the pulley 2, which is driven by the motor 1, with the spring 4 to the armature 5 fixed to the side rod 3, and formed on one side of the pulley 2; The pulley 2 and the side bar 3 are joined or detached by advancing the pulley 2 by the depressed L-shaped lever 6 and the spring 4.

In addition, the lever (8) is inserted into the concave portion (7 ') formed on one side of the vibrating pulley (7) by inserting a vibration pulley (7) that is communicated with the vibrator to the tip of the side bar (3). As the vibration pulley 7 is advanced by the spring 9 and the vibration pulley 7 and the side rods 3 are joined or detached. The side rod 3 engages and engages the movable gear 11 by an appropriate number of reduction gears 10, 10a, 10b, 10c, 10d, 10e, and 10f, while the movable gear 11 has a mortar box. The movable gear 11 and the box movable gear 13 and the slider are interlocked with the box movable gear 13 for reciprocating the 12 and the slider movable gear 15 for elevating and operating the slider 14. The movable gear 15 has the following configuration.

The auxiliary tooth 11 'is fixed to the rear surface of the movable gear 11 and a variable value 11 ″ is installed, but the variable value 11 ″ is formed by a distance equal to or greater than the thickness of the auxiliary tooth 11'. It is spaced apart from the side, and the base of the variable value 11 "is built up, it is coalesced with the spring 16, and the auxiliary tooth 11 '″ is also fixed to the front of the movable gear 11. And the upper and lower edges of the box movable gear 13, which is interlocked with the movable gear 11, removes the teeth at the opposing position to form the empty portions 13a, 13b, and the front of the empty portion 13a at the front thereof. The action 13 'is fixed, and the auxiliary value 13 ″ is fixed to the back of the center portion of the bowed portion 13b. Then, a part of the outer circumference of the slider moving gear 15 is cut to form the emptying portion 15a, and the auxiliary teeth 15 'are also fixed to the central rear surface of the emptying portion 15a. The thickness of the auxiliary tooth 11 'is fixed so that it is not engaged with the auxiliary tooth 11' but only with the variable value 11 '. On the inner wall of the gear box 27, an adjustment section 17 is laid down and coalesced with a spring 18, but the upper end of the adjustment section 17 is in contact with the auxiliary teeth 13 ″ by sliding on the outer circumferential surface of the box movable gear 13. . The lower end of the adjustment section 17 is made to correspond to the variable value 11 ″ provided on the back circumference of the movable gear 11. And the shaft rod fixed to the box movable gear 13 is fixed to a known crank 19 which can reciprocate the mortar box 19 back and forth, and the cam 20 and the shaft are fixed to the shaft rod fixed to the throttle moving gear 15. The viscous movable crank 21 of. The cam 20 is abutted with a pull bar 22 for pulling the L-shaped lever 6 attached to the recess 2 'of the pulley 2.

The center of the lever 23, the center portion of the lever 23 is laid out, and one end of the lever 23 is installed with the connecting rod 25 staked out with the press 24, and the other end of the lever 23 is connected to the engaging roller 26. The hanging bar 26 is moved to the left and right by a cam (not shown) and a spring (not shown) and fixed to the shaft of the box movable gear 13 to one end of the lever 23. Let it hang free. Then, a separate tooth 28 is fixed to the side rod of the movable tooth 11 and a cam 29 having two cam jaws 29 'and 29 ″ is connected thereto. The cam 29 has a vibration pulley 7. The other end of the depressed lever 8 is attached.

In the drawing, reference numeral 30 denotes a mortar barrel.

In the present invention configured as described above, the traction rod 22 is pulled downward by the cam 20 fixed to the side bar of the voile movable gear 15 after the voile 14 on which the molded brick is placed is completed. As the a-shaped lever 6 separates the pulley 2 from the rotor 5 of the shaft 3, the operation of all the machines is stopped, that is, the work starts from the state of FIG. 10F of the accompanying drawings. That is, when the new loader is placed on the lowered vault 14 and the power is supplied to the motor 1, the pulley 2 is idling. At this time, the pulley 22 is provided as a separate device (not shown). Is removed from the cam 20 fixed to the shaft of the slider movable gear 15, the pulley 2 is connected to the armature 5 of the shaft 3, and the shaft 3 is rotated. Bar (in this case, the movable gear 11 is in contact with the joint 13b of the box movable gear 13, and the box movable gear 13 is not interlocked and the barred movable gear 15 rotates and pushes the barittle 14 upwards, and thus the press 24 pushed to the baritler 14 by the lever 23 is hung on the roller 26 by one end of the lever 23. It is raised together with the vowel 14. In this way, the movable gear 11 is moved while the vowel 14 and the press 24 are raised. When the movable gear 11 is brought into contact with the joint part 15a of the slider movable gear 15 as shown in FIG. 10a by the continuous interlocking of the movable gear 11 and the vibrating movable gear 15. The mold 14 and the press 24 are raised to the highest position and stopped at the raised position. Thus, the movable gear 11 while the slider 14 and the press 24 are raised (or stopped). ) The auxiliary tooth 11 'protruded on the back of the box) comes into contact with the auxiliary tooth 13' protruded into the co-operation portion 13b of the box movable gear 13 and thus the auxiliary tooth 11 'of the movable gear 11. Pushes the auxiliary value 13 ″ of the box movable gear 13 to allow the box movable gear 13 to interlock with the movable gear 11. Then, the mortar box located under the mortar cage 30 is interlocked. (12) begins to move with the mortar and is positioned on the bartle frame (14) at this time, as shown in 10b of the box movable gear (13) Since the emptying part 13a is brought into contact with the movable gear 11 and the rotation of the box movable gear 13 is stopped, the mortar box 12 stops on the frame 14. In this case, the box movable gear 13 Since the auxiliary value 13 ″ protruding from the center of the empty portion 13b of the pusher pushes the adjustment section 17, the other end of the adjustment section 17 presses the variable value 11 ″ of the movable gear 11 that is rotated. Therefore, since the variable value 11 "is pulled out between the slider movable gear 15 and the auxiliary tooth 15 ', the slider movable gear 15 does not rotate. In this way, the throttle 14 and the press 24 are lifted and stopped, and interlocked by the movable gear 11 and the gear 28 which rotate while the mortar box 12 is stopped on the throttle 14. The first cam jaw 29 'of the cam 29 pushes up the lever 8 to bond the vibrating pulley 7 to the armature 5 of the shaft 3 for a while. By virtue of the primary vibration and the end of the primary vibration, as shown in FIG. 10C, the auxiliary value 11 '″ (produced in front of the movable gear 11) (10c) It is hard to see in the figure) pushes the auxiliary tooth 13 'protruded in the center front of the empty portion 13a of the box movable gear 13 so that the box movable gear 13 is rotated.

Thus, when the box movable gear 13 is engaged with the movable gear 11 again and rotated, the mortar box 12 is retracted again and moved to the lower portion of the mortar barrel 30. Thus, the mortar box 12 is a bartle ( 14) When moved from above, a mole bump (not shown) mounted separately on the rotating cam 29 is pulled out to release the lever 23. As a result, the press 24 falls by the wind, and the mortar compresses the mortar. As the mortar is compressed, the second cam jaw 29 ″ of the cam 29 again pushes the lever 8 to shaft the vibrating pulley 7. (3) is bonded to the motor 5 for a while to cause secondary vibration. As described above, while the brick is formed by compressing and vibrating the mortar, the box movable gear immediately after the auxiliary tooth 11 'protruded from the back of the auxiliary tooth 11' protruded from the back of the movable gear 11 as shown in FIG. The emptying part 13b of 13) comes into contact with the movable gear 11, and thus the mortar box 12, which has been moved by the box movable gear 13, is stopped at the lower part of the mortar barrel 30 and continues to rotate. The variable value 11 ″ of the movable gear 11 eventually comes into contact with the auxiliary value 15 'of the slider movable gear 15 as shown in FIG. 10E (in this case, the upper end of the adjustment section 17). Since the spring 18 is in contact with the box movable gear 13 and is not pushed by the protruding auxiliary teeth 13 ″, the adjustment section 17 does not push the variable value 11 ″. The gear 15 rotates slightly and engages with the movable gear 11 to rotate. Thus, when the rudder movable gear 15 is rotated to lower the rudder mold 14 and the rudder 14 completes the lowering, the cam 20 fixed to the shaft of the rudder movable gear 15 is towed. (22) is pulled downward, the L-shaped lever (6) is to separate the pulley (2) from the rotor (5) of the shaft (3) to stop all the operation of the machine to be in the same state as the 10f degree, and then again again It will be returned to the state that can start working.

As such, the present invention requires a separate driver because the brick is automatically formed by taking the molded brick on the voile 14 and then placing the new voile and detaching the traction rod 22 from the cam 20. Not only that, but the machine operation is extremely simple and does not require skill, so that anyone can easily operate it.

Claims (1)

The pulley (2) actuated by the motor (1) is in contact with the armature (5) fixed to the shaft bar (3) by the spring (4), but with the L-shaped lever (6) and the spring (4) to be detached In addition, the armature 5 is provided with a vibrating pulley 7 attached to and detached from the lever 8 and the spring 9, and the movable gear 11 moderately decelerated on the shaft 3 is interlocked with the movable gear 11 The mortar box 12 is retracted by the rotation of the movable gear 11 by interlocking the box movable gear 13 and the bias gear movable gear 15, and the brick mold 1 and the press 24 are lifted to form bricks. Automatic brick forming machine.