CN111319074B - Batch type slicing device for soft ceramic material rods - Google Patents

Abstract

The invention discloses a batch type slicing device for soft ceramic material rods, relates to the technical field of slicing device structures, and solves the problem that the working efficiency is influenced when a single ceramic strip is sliced manually in the prior art. A batch type slicing device for soft ceramic material rods comprises a table plate; the table plate and the supporting legs at the bottom form a table body structure, and a row of material rod cavity seats are arranged on the top surface of the table plate; a transmission mechanism is arranged on the rear side of the top surface of the table plate, and a power motor in the transmission mechanism is in sliding fit with a cutting frame on the top surface of the table plate in a screw type transmission rod and bearing seat mode; the material collecting device has the advantages that the material collecting device is used for collecting materials, and the material rack mechanism is obliquely supported by the spring, so that thin ceramic sheet products which are discharged one by one and fall into the material rack mechanism are fed into the cabin bottom of the cabin of the material rack mechanism in a left-down sliding mode, matched collecting frames which can be manufactured are placed on the material rack mechanism one by one, and the received ceramic sheets can be arranged and collected according to the mode.

Description

Batch type slicing device for soft ceramic material rods

Technical Field

The invention relates to the technical field of soft ceramic material rod piece cutting, in particular to a batch type slicing device for soft ceramic material rods.

Background

As in application No.: 201910089544.2, the invention discloses a slicer, which comprises a slicer frame, a feeding mechanism, a cutting mechanism and a discharging mechanism, wherein the feeding mechanism and the cutting mechanism are respectively arranged on the slicer frame, the feeding mechanism and the cutting mechanism are arranged adjacent to each other, and one end of the discharging mechanism is positioned below the cutting mechanism; the feeding mechanism comprises a material conveying device, a material pressing device and an angle adjusting device, the material conveying device and the material pressing device are oppositely arranged and movably connected through a rotating connecting mechanism, and the angle adjusting device is rotatably connected with the material conveying device; the angle adjusting device comprises an angle adjusting hand wheel, a reduction gearbox, a driving gear, a driven gear and a swing arm connecting rod mechanism. Compared with the prior art, the invention has the advantage of conveniently adjusting the feeding angle.

At present, most of soft ceramic ornaments generally need to be cut into a plurality of thin slices in the manufacturing process, soft ceramic is called plasticine, the soft ceramic is not argil, is a PVC artificial low-temperature polymerization material, looks like plasticine in appearance, but is similar to plastic after being shaped, has more vivid shaping capability and is one of professional sculpture materials; the existing slicing mode for the cylindrical soft ceramic strips has the advantages that a worker can easily see that the worker is manually cutting soft ceramic into a plurality of thin slices at uniform intervals by using a knife, but the soft ceramic thin slices cut by the worker using the knife have uneven thickness, and meanwhile, the efficiency of cutting the soft ceramic thin slices by using the knife is low, the prepared cylindrical soft ceramic strips are required to be flatly placed on an operation table, so that the labor force is wasted, and the working efficiency is also influenced.

Disclosure of Invention

The invention aims to provide a batch type slicing device for soft ceramic material rods, which aims to solve the problems that in the existing slicing mode for cylindrical soft ceramic strips in the background technology, a worker is not difficult to see that the worker manually cuts soft ceramic into a plurality of slices at uniform intervals by using a knife, but the soft ceramic slices cut by the worker using the knife are uneven in thickness, the efficiency of cutting the soft ceramic slices by using the knife is low, and the prepared cylindrical soft ceramic strips need to be flatly placed on an operation table, so that the labor is wasted, and the working efficiency is influenced.

In order to achieve the purpose, the invention provides the following technical scheme: a batch type slicing device for soft ceramic material rods comprises a table plate; the table plate and the supporting legs at the bottom form a table body structure, and a row of material rod cavity seats are arranged on the top surface of the table plate; a transmission mechanism is arranged on the rear side of the top surface of the table plate, and a power motor in the transmission mechanism is in sliding fit with a cutting frame on the top surface of the table plate in a screw type transmission rod and bearing seat mode; the cutting frame is guided to the inner sides of the guide plates at the left side and the right side, and a blocking mechanism is arranged at the right side of the top surface of the cutting frame; a vertical plate is welded on the right side of the top surface of the table plate in a vertical mode, and the vertical plate is positioned on the right side of the material rod cavity seat; a U-shaped groove is formed in the left side of the table plate, and a material rack mechanism is arranged in the area of the U-shaped groove in an inward and downward inclined mode.

Further: the cutting frame comprises a cutting blade, a pushing outlet and a position switch, wherein the cutting blade is arranged in a row, the cutting blade is uniformly arranged on the bottom surface of the top welding plate, the pushing outlet is also arranged in a row, the cutting blade is arranged on the row of the cutting blade in the left-right direction, the position switch is welded on the right end surface of the front side of the cutting blade on the rightmost side, and the position switch is electrically controlled and connected with a power motor in a transmission mechanism.

Further: the material rack mechanism is composed of a material cabin body, side arm rods and first bending springs, wherein the material cabin body is matched on the side arm rods on two sides of the material cabin body in a rotating mode through a rotating shaft, and the two side arm rods are connected with the bottom surface of the material cabin body in a supporting mode through the two first bending springs.

Further: the material rod material cavity seat is composed of a row of U-shaped cavities, notches are formed in the U-shaped cavities, and four nylon separation blades are glued to the left end faces of the U-shaped cavities.

Further: the cutting frame is inserted in a sliding way to move on the notch of the material rod cavity seat through the cutting blade on the bottom surface.

Further: the guide plate is welded on the left rear side face of the table plate, a circular through hole is formed in the guide plate, the limiting rod assembly is in sliding fit in the through hole of the guide plate through the sliding rod, and a return spring is welded between the rear end of the rod piece and the outer end face of the guide plate.

Further: the material returning frame mechanism comprises material returning rods, channel steel, springs, clamping plates and a piston cylinder, wherein the material returning frame mechanism is inserted into the guide holes of the vertical plates in a sliding mode through one row of material returning rods welded on the inner frame, and a hole used for guiding a rod piece of the limiting rod assembly into the hole is formed in the last material returning rod.

Further: the channel steel is two places that the front and back symmetry set up, and they weld in the bottom surface right side position department of table to material returned frame mechanism still forms the pressure with the spring of spacing inserting in the channel steel and moves the welding through two cardboard sliding fit that the right side bottom surface welded in the channel steel.

Further: the two piston cylinders are in sliding fit with the two material returning rods and are welded on the outer end face of the vertical plate.

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

a table frame mechanism is designed, a row of material rod material cavity seats with a cutting groove cavity structure are installed on one side of the top surface of the table frame, a cutting frame corresponding to the material rod material cavity seats is installed on the table top on the other side of the material rod material cavity seats in a screw transmission mode, when the cutting frame slowly moves from one side to enter the material rod material cavity seats, cylindrical soft ceramic sections stored in the material rod material cavity seats in advance can be cut in batches, after the cutting, a sheet blade at the bottom of the cutting frame and the cutting groove of the material rod material cavity seats are overlapped, a discharging rod mechanism corresponding to the rear side of the material rod material cavity seats is touched through linkage action, the discharging rod mechanism loses the locking position and moves inwards, soft ceramic sheets cut into pieces in the material rod material cavity seats are outwards pushed out to the material frame mechanism of the material cavity structure on one side, material collection is formed, and the material frame mechanism is obliquely supported by a spring, therefore, the discharging of one piece of the sheet ceramic piece falls into the bin bottom of the bin of the feeding frame mechanism in an advanced mode of sliding left and down, then the second piece, the third piece and the fourth piece fall into the feeding frame mechanism in an arrangement mode in the discharging mode, and the feeding frame mechanism is enabled to be flattened slowly and downwards rightwards, so that the matched collecting frames which can be manufactured are placed on the feeding frame mechanism one by one, and the received ceramic pieces can be arranged and collected in the arrangement mode.

Drawings

Fig. 1 is a schematic structural diagram of the whole of the present invention (T0 in fig. 1 is a soft ceramic material);

FIG. 2 is an enlarged view of part A of the present invention;

FIG. 3 is an enlarged view of the part B of the present invention;

FIG. 4 and FIG. 6 are bottom view, partially schematic views of the present invention;

FIG. 5 is an enlarged view of section C of the present invention;

FIG. 7 is a schematic view of another rotational perspective structure of the present invention from FIG. 1.

Fig. 8 is a schematic view of the end face structure of the channel steel and the structure of the spring limited and stored therein according to the present invention.

Fig. 9 is a schematic view of the front plane structure of the present invention.

Fig. 10 is a schematic view of the top plan and applied principle structure of the present invention (in the figure, a, b, d are schematic operation).

In the figure: 1. a table plate; 2. a guide plate; 3. cutting a frame; 301. cutting a blade; 302. a push-out port; 303. a position switch; 4. a vertical plate; 5. a transmission mechanism; 6. a transmission rod; 7. a material rack mechanism; 701. a side arm lever; 702. a first bent spring; 8. a material rod material cavity seat; 801. a nylon catch; 9. a guide plate; 901. a limit rod assembly; 10. a material returning frame mechanism; 1001. a material returning rod; 1002. channel steel; 1003. a spring; 1004. clamping a plate; 1005. a piston cylinder; 11. and a blocking mechanism.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments.

Example 1

Referring to fig. 1 to 10, an embodiment of the present invention includes: a batch type slicing device for soft ceramic material rods comprises a table plate 1; the table plate 1 and the supporting legs at the bottom form a table body structure, and a row of material rod cavity seats 8 are arranged at the top of the table plate 1; a transmission mechanism 5 is installed on the left portion of the rear side of the top of the table plate 1, a power motor in the transmission mechanism 5 is provided with a transmission rod 6 through a screw rod, the transmission rod 6 is installed on the top of the table plate 1 through a bearing seat, and a cutting frame 3 is matched with the top surface of the table plate 1 in a sliding mode; the cutting frame 3 is guided to the inner sides of the left and right side guide plates 2, a blocking mechanism 11 is further installed on the right side of the top surface of the cutting frame 3, the cutting frame 3 comprises a row of cutting blades 301, pushing-out openings 302 and position switches 303, wherein the cutting blades 301 are arranged in a row and are uniformly distributed on the bottom surface of the top welding plate, the pushing-out openings 302 for discharging are also arranged in a row and are arranged on the row of cutting blades 301 in the left-right direction, the position switches 303 are welded on the right end surface of the front side of the rightmost cutting blade 301, and the position switches 303 are electrically connected with a power motor in a transmission mechanism 5 in a control mode, so that when the cutting frame 3 slides to and is tangential to the material rod cavity base 8 and is overlapped with the material rod cavity base to form a cutting action, the position switches 303 touch the end portions of the vertical plates 4, and stop; a vertical plate 4 is welded on the right side of the top surface of the table plate 1 in a vertical mode, and the vertical plate 4 is positioned on the right side of the material rod cavity seat 8; a U-shaped notch is formed in the left side of the table plate 1, and a material rack mechanism 7 is arranged in the area of the U-shaped notch in an inward and downward inclined mode; wherein: the material rack mechanism 7 is composed of a material cabin body, side arm rods 701 and first bent springs 702, wherein the material cabin body is rotatably matched on the side arm rods 701 at two sides of the material cabin body through a rotating shaft, and the two side arm rods 701 and the bottom surface of the material cabin body are in supporting connection through the two first bent springs 702, so that the structure of the collecting cavity for receiving and taking the blanking can be seen; wherein: the material rod material cavity seats 8 are all composed of a row of U-shaped cavities, the U-shaped cavities are provided with notches, and the left end faces of the U-shaped cavities are glued with four nylon retaining sheets 801, so that the cut side surface soft ceramic slices are prevented from naturally falling when the soft ceramic slices are not guided to discharge materials, and the materials can be discharged only when the right mechanism is pushed; wherein: the cutting frame 3 is inserted and moved to the notch of the material rod cavity seat 8 in a sliding manner through the cutting blade 301 on the bottom surface, so that when the cutting frame 3 on one side slides under power and is tangential to the material rod cavity seat 8, the cutting blades 301 on the cutting frame 3 and the cutting groove of the material rod cavity seat 8 can slowly move to slice the cylindrical soft ceramic materials stored in the material rod cavity seat 8 in batches, after the slicing processing, the pushing outlets 302 on the cutting frame 3 and the storage cavities of the material rod cavity seat 8 form one-to-one correspondence, and at the moment, the material returning frame mechanism 10 on the right side can push out and discharge the slices to the material frame mechanism 7 in an outward arrangement manner.

As shown in fig. 1, a cylindrical batch of soft ceramic material T0 (an example soft ceramic material T0 is used for convenience in reading) is placed in the material rod material cavity seats 8 one by one, the cutting frame 3 slowly slides into the material rod material cavity seat 8, the cutting blade 301 enters the cutting groove in the material rod material cavity seat 8 and the cutting frame 3 loses the moving effect under the action of the position switch 303 and forms a coincidence with the cutting groove in the material rod material cavity seat 8.

Example 2

On the basis of embodiment 1, as shown in fig. 4, 5 and 7, a guide plate 9 is welded on the left rear side surface of the table plate 1, and a circular through hole is opened on this guide plate 9, a limit rod assembly 901 is slidably fitted in the through hole of the guide plate 9 through a slide rod, and a return spring is welded between the rear end of the rod and the outer end surface of the guide plate 9, the material returning frame mechanism 10 comprises a material returning rod 1001, a channel steel 1002, a spring 1003, a catch plate 1004 and a piston cylinder 1005, wherein the material returning frame mechanism 10 is slidably inserted in the guide hole of the vertical plate 4 through a row of material returning rods 1001 welded on the inner frame, wherein a hole for guiding in the rod of the limit rod assembly 901 is opened on the last material returning rod 1001, that is, this device structure of the limit rod assembly 901 is used for limiting the pulled-out position of the material returning frame mechanism 10, and after the cutting frame 3 is tangentially overlapped in the material rod cavity seat 8, the blocking mechanism 11 on the cutting frame 3 can impact the end of the limiting rod assembly 901 to pull out the limiting rod assembly 901 in an outward linkage manner, and as the ceramic strip materials placed in the material rod cavity seat 8 are sliced at the moment, the material returning frame mechanism 10 is unlocked after the limiting rod assembly 901 is impacted and pulled out in an outward linkage manner, so that the material returning frame mechanism 10 which loses the locking position can move leftwards under the action of the spring 1003 to eject the cut sheet ceramic sheets in the material rod cavity seat 8 outwards for discharging;

wherein: the channel steel 1002 is arranged symmetrically in front and back and used for guiding, the channel steel 1002 is welded at the right side of the bottom surface of the table board 1, the material returning frame mechanism 10 is in sliding fit in the channel steel 1002 through two clamping boards 1004 welded on the bottom surface of the right side, and is in pressing welding with a spring 1003 limited and inserted in the channel steel 1002, so that the material returning frame mechanism 10 in a moving state is elastically tensioned, and when the material returning frame mechanism 10 loses the limiting state, the material returning frame mechanism elastically lifts leftwards to perform material discharging; wherein: as shown in fig. 4, two piston cylinders 1005 are provided, which are slidably fitted on two material returning rods 1001, and the two piston cylinders 1005 are further welded on the outer end surface of the vertical plate 4, the piston cylinders 1005 are arranged so that the whole material returning frame mechanism 10 carries the material returning rods 1001 to eject the piece-shaped ceramic pieces inscribed in the material rod cavity seat 8 outwards to form a slow discharging action, and the ejected piece-shaped ceramic pieces fall into the bottom rack mechanism 7 or a matching collecting frame placed in the rack mechanism 7 from the side of the material rod cavity seat 8.

The cavity of the material rod cavity seat 8 coincides with the pushing-out port 302 formed on the cutting blade 301 on the bottom surface of the cutting frame 3 as shown in fig. 9, meanwhile, the blocking mechanism 11 on the cutting frame 3 is impacted on the end of the b-position limiting rod assembly 901 from the position a in fig. 10, so that the limiting rod assembly 901 is pulled out in an outward linkage manner, the ceramic strip material placed in the material rod cavity seat 8 is sliced at the moment, after the impacting limiting rod assembly 901 is pulled out in an outward linkage manner, the material returning frame mechanism 10 is unlocked, so that the material returning frame mechanism 10 without the locking position moves leftwards from the position d under the action of the spring 1003, the material returning rod 1001 is used for slowly pushing and discharging the sliced ceramic sheets cut in the material rod cavity seat 8 outwards in an arrayed manner, so that one slowly-pushed-out sliced ceramic sheet falls into the material rack mechanism 7 at the bottom from one side of the material rod cavity seat 8 or a matched collecting frame placed in the material rack mechanism 7, and because there are two piston cylinders 1005 setting, make the speed when the material pole 1001 ejects the material form slowly, therefore the sliced sheet material of ejection of compact state is one by one slowly falls into the bin bottom of bin mechanism 7, and bin mechanism 7 because the spring is supported obliquely, therefore the ejection of compact of a slice and a slice pottery piece fall into the bin bottom of bin mechanism because of the mode of left side down sliding first, then the second, third, fourth are in the form of arranging and falling into bin mechanism 7 with this ejection of compact mode, and make bin mechanism 7 slowly flatten downwards to the right, therefore will be made supporting collection frame one by one put on bin mechanism, can be according to this mode with the pottery piece that takes the form of arranging and collecting.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (8)

1. A batch-type slicing device for soft ceramic material rods, comprising a table plate (1); the table board (1) and the supporting legs at the bottom form a table body structure, and is characterized in that: a row of material rod cavity seats (8) are arranged on the top surface of the table plate (1); a transmission mechanism (5) is installed on the rear side of the top surface of the table plate (1), and a power motor in the transmission mechanism (5) is in sliding fit with the cutting frame (3) on the top surface of the table plate (1) in a screw type transmission rod (6) and bearing seat mode; the cutting frame (3) is guided to move towards the inner sides of the guide plates (2) at the left side and the right side, and a blocking mechanism (11) is further arranged at the right side of the top surface of the cutting frame (3); a vertical plate (4) is welded on the right side of the top surface of the table plate (1) in a vertical mode, and the vertical plate (4) is located on the right side of the material rod cavity seat (8); a U-shaped notch is formed in the left side of the table plate (1), and a material rack mechanism (7) is arranged in the area of the U-shaped notch in an inward and downward inclined mode; the cutting frame (3) comprises a cutting blade (301), a pushing outlet (302) and a position switch (303), wherein the cutting blade (301) is arranged in a row and uniformly distributed on the bottom surface of the top welding plate, the pushing outlet (302) is also arranged in a row and is arranged on the cutting blade (301) in the left-right direction, the position switch (303) is welded on the right end surface of the front side of the cutting blade (301) on the rightmost side, and the position switch (303) is electrically connected with a power motor in the transmission mechanism (5) in a control mode.

2. A batch slicing apparatus for soft ceramic material poles as claimed in claim 1, wherein: the material rack mechanism (7) is composed of a material cabin body, side arm rods (701) and first bent springs (702), wherein the material cabin body is matched with the side arm rods (701) on two sides of the material cabin body in a rotating mode through a rotating shaft, and the two side arm rods (701) are in supporting connection with the bottom surface of the material cabin body through the two first bent springs (702).

3. A batch slicing apparatus for soft ceramic material poles as claimed in claim 1, wherein: the material rod material cavity seat (8) is composed of a row of U-shaped cavities, notches are formed in the U-shaped cavities, and four nylon retaining pieces (801) are glued to the left end faces of the U-shaped cavities.

4. A batch slicing apparatus for soft ceramic material poles as claimed in claim 1, wherein: the cutting frame (3) is inserted in a sliding way through a cutting blade (301) on the bottom surface and moves to the notch of the material rod cavity seat (8).

5. A batch slicing apparatus for soft ceramic material poles as claimed in claim 1, wherein: the guide plate (9) is welded on the left rear side face of the table plate (1), a circular through hole is formed in the guide plate (9), the limiting rod assembly (901) is in sliding fit in the through hole of the guide plate (9) through a sliding rod, and a return spring is welded between the rear end of the rod and the outer end face of the guide plate (9).

6. A batch slicing apparatus for soft ceramic material poles as claimed in claim 5, wherein: the material returning frame mechanism (10) comprises material returning rods (1001), channel steel (1002), springs (1003), clamping plates (1004) and a piston cylinder (1005), wherein the material returning frame mechanism (10) is slidably inserted into a guide hole of a vertical plate (4) through a row of material returning rods (1001) welded on an inner frame, and a hole for guiding a rod piece of a limiting rod assembly (901) into the hole is formed in the last material returning rod (1001).

7. A batch slicing apparatus for soft ceramic material poles as claimed in claim 6, wherein: the channel steel (1002) is arranged at two positions which are symmetrically arranged in the front and back direction and welded at the right side position of the bottom surface of the table plate (1), the material returning frame mechanism (10) is in sliding fit with the channel steel (1002) through two clamping plates (1004) welded at the right side bottom surface, and the two clamping plates and the spring (1003) are in pressing welding with the channel steel (1002) in a limiting and inserting mode.

8. A batch slicing apparatus for soft ceramic material poles as claimed in claim 7, wherein: the number of the piston cylinders (1005) is two, the piston cylinders (1005) are in sliding fit with the two material returning rods (1001) in the piston cylinders, and the two piston cylinders (1005) are also welded on the outer end face of the vertical plate (4).

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