CN220372209U - Semi-automatic placing device for ceramic interlayer column - Google Patents

Abstract

The utility model relates to the technical field of tools, in particular to a semi-automatic placing device for ceramic interlayer columns, which comprises an upper cover plate and a lower cover plate which are mutually combined, wherein a push plate capable of translating back and forth is arranged between the upper cover plate and the lower cover plate; the device is simple and easy to learn, reasonable in structural design and low in failure rate, avoids manual placement of the ceramic interlayer columns one by one completely by hands, saves time and labor, and ensures accurate placement positions of the ceramic interlayer columns.

Description

Semi-automatic placing device for ceramic interlayer column

Technical Field

The utility model relates to the technical field of tools, in particular to a semi-automatic placing device for ceramic interlayer columns.

Background

In the sintering process of the MIM technology, ceramic interlayer columns are needed to be used as partitions between sintering plates, wherein one common placement mode is as follows: each of the four corners of each ceramic plate is respectively provided with 1 ceramic interlayer column, 1 ceramic interlayer column is arranged in the center, 5 ceramic interlayer columns are arranged between every two ceramic plates, and the ceramic plates are stacked and sintered in a furnace.

Therefore, the semi-automatic placement device for the ceramic interlayer column can remarkably reduce the time consumed by the work.

Disclosure of Invention

The utility model aims to overcome the defects in the prior art, and provides a semi-automatic placement device for ceramic interlayer columns, so that the placement work of the ceramic interlayer columns is time-saving and labor-saving.

In order to achieve the above purpose, the utility model adopts the following scheme:

the semi-automatic device of putting of ceramic interlayer post, including upper cover plate and the lower apron that closes, be provided with the push pedal of translation from beginning to end between the two, be connected with upright tubular storehouse on the upper cover plate, it has the play post hole of lining up from top to bottom to open on the lower apron, it communicates with each other with tubular storehouse inside to go out the post hole, the push pedal is used for removing the ceramic interlayer post that falls in the tubular storehouse to go out post hole top, the push pedal is promoted and is connected with reset spring by trigger link gear.

Further, one end of the upper cover plate is provided with a handle, the trigger linkage mechanism is arranged in the handle and comprises a trigger and a deflector rod which are movably connected with the handle through a rotating shaft, the butt joint of the cambered surfaces of the trigger and the deflector rod is provided with intermeshing teeth, the lower end of the deflector rod can swing back and forth and is in contact with the push plate, the rear end of the trigger can swing up and down and is provided with a reset spring between the trigger and the handle above, and when the rear end of the trigger swings up, the lower end of the deflector rod swings forward synchronously and pushes the push plate to move forward.

Further, a horizontal pushing column is arranged on the pushing plate, a vertical tubular bin corresponds to a column outlet hole and is arranged in an up-down staggered mode, the horizontal position of each tubular bin is located behind the corresponding column outlet hole, the ceramic interlayer column can fall onto the lower cover plate in front of the pushing column from the inside of the tubular bin, and when the pushing column moves forwards, the ceramic interlayer column can be pushed to the position above the column outlet hole.

Further, the tubular bin is communicated up and down, and the inner diameter of the tubular bin and the column outlet hole is larger than the outer diameter of the ceramic interlayer column.

Further, the number of the tubular bins is 5, the upper end and the lower end of the tubular bins are respectively provided with an elastic limiting mechanism, and when the ceramic interlayer columns pass through the elastic limiting mechanisms, external force is needed, and each tubular bin can accommodate at least 5 layers of stacked ceramic interlayer columns.

Further, the bottom of the lower cover plate is provided with a vertically downward stay, and the height of the stay is larger than that of the ceramic interlayer column.

Further, the position of the column outlet hole is distributed in a manner that: of which 4 are arranged in four corners of a rectangle, and the rest is arranged in the center of the rectangle.

Further, the elastic limiting mechanism comprises movable clamping beads which are embedded into holes formed in the wall of the tubular bin, and an elastic piece is arranged on the outer wall of the tubular bin and presses the movable clamping beads towards the tubular bin.

Further, the elastic piece is made of metal wires or metal sheets.

Compared with the prior art, the utility model has the beneficial effects that:

the semi-automatic ceramic interlayer column placing device is simple and easy to learn in operation, reasonable in structural design and low in failure rate, and after the semi-automatic ceramic interlayer column placing device is applied, the ceramic interlayer columns are prevented from being placed one by one manually, time and labor are saved, and the placing position of the ceramic interlayer columns is accurate.

Drawings

Figure 1 is a schematic perspective view of the present utility model,

figure 2 is a schematic side view of the present utility model,

figure 3 is an enlarged schematic view of figure 1 at a,

figure 4 is a schematic view of the cross-section B-B of figure 1,

FIG. 5 is a schematic view of the push plate and trigger linkage of the present utility model.

In the figure: 1. the device comprises an upper cover plate, a lower cover plate, a 2a, a column outlet hole, a 2b, a strut, a 3, a push plate, a 3a, a push column, a 4, a tubular bin, a 4a, an elastic limiting mechanism, a 4a-1, movable clamping beads, a 4a-2, an elastic piece, a 5, a trigger linkage mechanism, a 5a, a trigger, a 5b and a deflector rod.

Detailed Description

The technical solutions in the embodiments of the present utility model will be clearly and completely described below with reference to the accompanying drawings in the embodiments of the present utility model.

As shown in fig. 1 to 5, the semi-automatic placement device for ceramic interlayer columns comprises an upper cover plate 1 and a lower cover plate 2 which are mutually combined, wherein a push plate 3 capable of translating back and forth is arranged between the upper cover plate 1, tubular bins 4 which are vertically and vertically communicated are connected to the upper cover plate 1, at least 5 ceramic interlayer columns stacked in one layer can be contained in each tubular bin 4, column outlet holes 2a which are vertically communicated are formed in the lower cover plate 2, and the positions of the column outlet holes 2a are distributed in a manner that: the other 4 are arranged at four corners of the rectangle, the rest one is arranged at the center of the rectangle, the column outlet hole 2a is communicated with the inside of the tubular bin 4, the inner diameters of the column outlet hole 2a and the tubular bin 4 are both larger than the outer diameter of the ceramic interlayer column, so that the ceramic interlayer column can move downwards in the column outlet hole 2a, the push plate 3 is used for moving the ceramic interlayer column falling in the tubular bin 4 to the position above the column outlet hole 2a, a chamfer is arranged at the upper opening of the column outlet hole 2a, the falling of the ceramic interlayer column is facilitated, the push plate 3 is pushed by the trigger linkage mechanism 5 and is connected with a reset spring, and the trigger linkage mechanism 5 is driven by the holding power of a hand.

The one end of upper cover plate 1 is provided with the handle, trigger link gear 5 sets up in the handle, it includes respectively through a pivot and handle swing joint's trigger 5a and driving lever 5b, the cambered surface butt joint department of both is provided with the tooth of intermeshing, the lower extreme of driving lever 5b can the back and forth swing and with push pedal 3 contact, the rear end of trigger 5a can the swing and with the handle of top between be provided with reset spring, when the rear end of trigger 5a goes up the pendulum, utilize gear engagement transmission, the synchronous forward pendulum of lower extreme of driving lever 5b promotes push pedal 3 and moves forward, when not exerting ascending power to the rear end of trigger 5a, trigger 5a and push pedal 3 are synchronous reset under the effect of spring.

The push plate 3 is provided with a horizontally arranged push column 3a, one vertical tubular bin 4 corresponds to one column outlet hole 2a and is arranged in a vertically staggered mode, the horizontal position of each tubular bin 4 is located behind the corresponding column outlet hole 2a, the ceramic interlayer column can fall onto the lower cover plate 2 in front of the push column 3a from the inside of the tubular bin 4, and when the push column 3a moves forwards, the ceramic interlayer column can be pushed to the position above the column outlet hole 2 a.

The number of the tubular bins 4 is 5, the upper end and the lower end of the tubular bins 4 are respectively provided with an elastic limiting mechanism 4a, external force is needed when the ceramic interlayer columns pass through the elastic limiting mechanisms 4a, the ceramic interlayer columns can be limited inside the tubular bins 4 without falling out after being arranged in the tubular bins 4, the whole device can be freely taken and moved, and similarly, if the ceramic interlayer columns are required to fall onto the lower cover plate 2 in front of the push columns 3a from the lower ends of the tubular bins 4, the ceramic interlayer columns are required to be pressed downwards from the upper ends of the tubular bins 4; the elastic limiting mechanism 4a comprises a movable clamping bead 4a-1 embedded into a hole formed in the pipe wall of the tubular bin 4, an elastic piece 4a-2 is arranged on the outer wall of the pipe of the tubular bin 4 and presses the movable clamping bead 4a-1 towards the tubular bin 4, the elastic piece 4a-2 is made of metal wires or metal sheets, when the ceramic interlayer column enters the tubular bin 4 through the elastic limiting mechanism 4a or comes out of the tubular bin 4, the clamping bead 4a-1 moves outwards, the ceramic interlayer column is convenient to pass through, after the ceramic interlayer column passes through, the clamping bead 4a-1 moves inwards under the action of the elastic piece 4a-2, the inner diameter of the tubular bin 4 at the position is reduced, and the ceramic interlayer column is limited to pass through.

The bottom of lower apron 2 is provided with the downward vaulting post 2b of perpendicular, and the height of vaulting post 2b is greater than ceramic interlayer post, and its setting purpose is: when the device is placed on the sintering plate, the stay posts 2b enable the bottom surface of the lower cover plate 2 to be located on the upper surface of the sintering plate to be at a fixed height, so that the ceramic interlayer post can fall onto the sintering plate from the post outlet holes 2a conveniently, and an operator can observe the placement condition of the ceramic interlayer post conveniently.

The semi-automatic ceramic interlayer column placing device comprises the following use procedures: stage one: placing the ceramic interlayer columns layer by layer into the tubular bin 4; stage two: the hand-held handle is used for aligning the device to the sintering plate; stage three: after the ceramic interlayer column falls onto the lower cover plate 2 in front of the pushing column 3a from the tubular bin 4, the trigger 5a is pressed, a rotating force is generated, the lower end of the transmission deflector rod 5b is synchronously swung forward and pushes the pushing plate 3 to move forward through the gear engagement mechanism, the pushing column 3a is pushed against the ceramic interlayer column to move forward to the position above the column outlet hole 2a, and under the action of gravity, the ceramic interlayer column falls onto the lower sintered plate, and the position layout of the ceramic interlayer column is identical with that of the column outlet hole 2 a; stage four: the trigger 5a is loosened, the push plate 3 and the trigger linkage mechanism 5 return under the action of the spring, one-time operation is completed, and the process is repeated again.

While the utility model has been described with respect to the preferred embodiments, it will be understood by those skilled in the art that variations, modifications and additions may be made without departing from the spirit of the utility model.

Claims (9)

1. Semi-automatic device of putting of pottery interlayer post, its characterized in that: including upper cover plate (1) and lower apron (2) that close, be provided with push pedal (3) that can translate from beginning to end between the two, be connected with upright tubular storehouse (4) on upper cover plate (1), it has out post hole (2 a) that link up from top to bottom to open on lower apron (2), it communicates with each other with tubular storehouse (4) inside to go out post hole (2 a), push pedal (3) are used for removing the ceramic interlayer post that falls in tubular storehouse (4) to go out post hole (2 a) top, push pedal (3) are promoted and are connected with reset spring by trigger link gear (5).

2. The semi-automatic ceramic column placement device according to claim 1, wherein: the one end of upper cover plate (1) is provided with the handle, trigger link gear (5) sets up in the handle, and it includes respectively through a pivot and handle swing joint's trigger (5 a) and driving lever (5 b), and the cambered surface butt joint department of both is provided with intermeshing's tooth, the lower extreme of driving lever (5 b) can swing back and forth and contact with push pedal (3), but be provided with reset spring between the handle of back end oscilaltion and top of trigger (5 a), when the back end of trigger (5 a) is swung, the lower extreme synchronous forward pendulum of driving lever (5 b) and promotion push pedal (3) forward movement.

3. The semi-automatic ceramic column placement device according to claim 2, wherein: be provided with horizontal pushing post (3 a) on push pedal (3), a tubular storehouse of erectting (4) corresponds a play post hole (2 a) and dislocation set from top to bottom, and the horizontal position of every tubular storehouse (4) all is located behind corresponding play post hole (2 a), and ceramic interlayer post can fall from tubular storehouse (4) on pushing post (3 a) the place ahead lower apron (2), when pushing post (3 a) forward movement, can promote ceramic interlayer post to go out post hole (2 a) top.

4. A semi-automatic ceramic column placement device according to claim 3, wherein: the tubular bin (4) is communicated up and down, and the inner diameter of the tubular bin and the column outlet hole (2 a) is larger than the outer diameter of the ceramic interlayer column.

5. The semi-automatic ceramic column placement device according to claim 4, wherein: the number of the tubular bins (4) is 5, the upper end and the lower end of the tubular bins are respectively provided with an elastic limiting mechanism (4 a), and when the ceramic interlayer columns pass through the elastic limiting mechanisms (4 a), external force is needed, and at least 5 stacked ceramic interlayer columns layer by layer can be contained in each tubular bin (4).

6. The semi-automatic ceramic column placement device according to claim 1, wherein: the bottom of the lower cover plate (2) is provided with a vertically downward stay (2 b), and the height of the stay (2 b) is larger than that of the ceramic interlayer column.

7. The semi-automatic ceramic column placement device according to claim 5, wherein: the position of the column outlet hole (2 a) is distributed in the following way: of which 4 are arranged in four corners of a rectangle, and the rest is arranged in the center of the rectangle.

8. The semi-automatic ceramic column placement device according to claim 5, wherein: the elastic limiting mechanism (4 a) comprises a movable clamping bead (4 a-1) which is embedded into a hole formed in the pipe wall of the tubular bin (4), and an elastic piece (4 a-2) is arranged on the outer wall of the pipe of the tubular bin (4) to press the movable clamping bead (4 a-1) towards the tubular bin (4).

9. The semi-automatic ceramic column placement device of claim 8, wherein: the elastic piece (4 a-2) is made of metal wires or metal sheets.