CN111361032B - Placement type processing frame equipment for reprocessing high-strength structural ceramics - Google Patents

Abstract

The invention provides a placement type processing frame device for reprocessing high-strength structural ceramics, relates to the field of ceramic processing, and solves the problem that the rapid fixation of a plurality of ceramic floors is difficult to realize; the angle adjustment and the quick locking of the fixed frame cannot be realized; the existing adjusting structure has the problem of low cutting quality. A placement type processing frame device for reprocessing high-strength structural ceramics comprises a main body seat; sliding connection has regulation structure A on the main part seat, and the welding has the seat structure of placing on the regulation structure A. Through the arrangement of the locking structure, after the angle adjustment is finished, the two locking pieces are connected to the rotating rod in a sliding manner and are respectively contacted with the two threaded pipes; the two locking pieces are in threaded connection with a threaded rod C, and the thread directions of two ends of the threaded rod C are opposite; the two locking pieces of the threaded rod C are respectively contacted and abutted with the two threaded pipes, so that the elimination of backlash between the threaded pipes and the gear is realized, and the accuracy in cutting is improved.

Description

Placement type processing frame equipment for reprocessing high-strength structural ceramics

Technical Field

The invention belongs to the technical field of ceramic processing, and particularly relates to a placement type processing frame device for reprocessing high-strength structural ceramics.

Background

Ceramics are a generic term for ceramics and porcelain. The pottery was invented in the neolithic age about 8000 years ago. Common ceramic materials are clay, alumina, kaolin, and the like. Ceramic materials generally have a high hardness but a poor plasticity. Besides being used for tableware and decoration, ceramics also play an important role in the development of science and technology, and ceramic floor is one of ceramic products.

Based on the above, when the ceramic floor is cut at present, firstly, the ceramic floor is often cut by a single piece, and the multiple pieces are difficult to be quickly fixed; secondly, the angle adjustment and the quick locking of the fixed frame cannot be realized; third, the prior adjusting structure has lower quality of the lost circulation cutting.

One is that the adjustability is poor, currently in batch cutting

In view of the above, research and improvement are made on the existing structure and defects, and a placement type processing frame device for reprocessing high-strength structural ceramics is provided, so as to achieve the purpose of higher practical value.

Disclosure of Invention

In order to solve the technical problems, the invention provides a placement type processing frame device for reprocessing high-strength structural ceramics, which aims to solve the problems that the existing frame device is firstly used for cutting single pieces and is difficult to realize quick fixation of multiple pieces; secondly, the angle adjustment and the quick locking of the fixed frame cannot be realized; thirdly, the existing adjusting structure has the problem of low quality of the backlash cutting.

The invention is used for the purpose and the effect of the placement type processing frame equipment for reprocessing the high-strength structural ceramics, and is achieved by the following specific technical means:

a placement type processing frame device for reprocessing high-strength structural ceramics comprises a main body seat; the main body seat is connected with an adjusting structure A in a sliding mode, a placing seat structure is welded on the adjusting structure A, and an adjusting structure B is welded on the adjusting structure A; the adjusting structure B is connected with a locking structure in a sliding manner; the locking structure comprises two locking pieces and a threaded rod C, the two locking pieces are connected to the rotating rod in a sliding mode, and the two locking pieces are respectively in contact with the two threaded pipes; the two locking pieces are in threaded connection with one threaded rod C, and the thread directions of two ends of the threaded rod C are opposite; and two locking pieces of the threaded rod C are respectively contacted and abutted with the two threaded pipes, so that the clearance between the threaded pipes and the gear is eliminated.

Further, the main body seat comprises a sliding groove A, a cutter mounting seat and a baffle, the sliding groove A of a T-shaped structure is formed in the top end face of the main body seat, the cutter mounting seat is welded to the top end face of the main body seat, and the baffle is fixedly connected to the front end face of the main body seat through bolts.

Furthermore, the adjusting structure A comprises a sliding block A, a cylindrical rod and a threaded rod A, the sliding block A is connected in the sliding groove A in a sliding mode, and the cylindrical rod is welded on the top end face of the sliding block A; threaded rod A rotates to be connected on the baffle, and threaded rod A and cylindricality pole threaded connection to threaded rod A and baffle have constituteed the screw thread regulation structure of cylindricality pole jointly.

Furthermore, the placing seat structure comprises a gear, a sliding groove B, a connecting seat, a sliding block B, a clamp seat and a threaded rod B, wherein the connecting seat is welded on the bottom end face of the gear, and the connecting seat is rotatably connected to the cylindrical rod; the top end face of the gear is provided with a sliding groove B, the sliding groove B is connected with two sliding blocks B in a sliding mode, and the top end face of each sliding block B is welded with one clamp seat; the threaded rod B is in threaded connection with the two clamp seats, and the thread directions of two ends of the threaded rod B are opposite; the threaded rod B and the sliding groove B are matched to form a quick adjusting structure of the clamp seat.

Furthermore, the gear still includes the blowoff hole, the central point of sliding tray B inner wall bottom end face puts and has seted up a plurality of blowoff hole for rectangular array form, just the blowoff hole is the toper porous structure.

Further, sliding block B is including the clearance groove, sliding block B head end and tail end have all been seted up one the clearance groove, and the clearance groove is the V-arrangement structure.

Furthermore, the adjusting structure B comprises a rotating connecting seat, a rotating rod, a clamping groove, a threaded pipe and a rubber sleeve; the rotary connecting seat is welded on the cylindrical rod, and the rotary connecting seat is rotatably connected with the rotary rod; the outer wall of the rotating rod is symmetrically provided with two clamping grooves, and the two threaded pipes are connected to the rotating rod in a limiting and sliding manner through the clamping grooves; the dwang outer wall is located two it has cup jointed one to cup joint between the screwed pipe the rubber sleeve, and two the screwed pipe all with gear engagement to the screwed pipe constitutes the turbine worm structure with the gear jointly.

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

improved fixed knot and constructed, this device can realize that the quick clamp of polylith ceramic plate material is fixed and conveniently carries out angle modulation, specifically as follows: firstly, the threaded rod B is in threaded connection with the two clamp seats, and the thread directions of two ends of the threaded rod B are opposite; the threaded rod B and the sliding groove B are matched to form a quick adjusting structure of the clamp seats, and when the threaded rod B is rotated, the two clamp seats simultaneously move in opposite directions to finish quick clamping and releasing; second, the threaded rod A can be rotated and the fore-and-aft movement of adjusting structure A can be realized, when needs carry out angular adjustment, constitute the turbine worm structure jointly because of screwed pipe and gear to can realize placing a structure and place the angular adjustment of the structural ceramic plate of seat when the dwang.

Through the arrangement of the locking structure, after the angle adjustment is finished, the two locking pieces are connected to the rotating rod in a sliding manner and are respectively contacted with the two threaded pipes; the two locking pieces are in threaded connection with a threaded rod C, and the thread directions of two ends of the threaded rod C are opposite; the two locking pieces of the threaded rod C are respectively contacted and abutted with the two threaded pipes, so that the elimination of backlash between the threaded pipes and the gear is realized, and the accuracy in cutting is improved.

The device has an automatic cleaning function, and firstly, as the central position of the bottom end surface of the inner wall of the sliding groove B is provided with a plurality of sewage discharging holes in a rectangular array shape, and the sewage discharging holes are in a conical hole-shaped structure, the anti-blocking capacity of the sewage discharging holes is improved while the strength of the gear is ensured; the second, because of sliding block B head end and tail end have all seted up a clearance groove, and the clearance groove is the V-arrangement structure to the clearance groove of V-arrangement structure can assemble the residue in the sliding tray B to blowhole department and get rid of when sliding block B slides around in the sliding tray B.

Drawings

Fig. 1 is a schematic axial view of the present invention.

Fig. 2 is a schematic axial view of the present invention in another direction of fig. 1.

FIG. 3 is a schematic cross-sectional enlarged view of the present invention with the main body seat removed.

Fig. 4 is an enlarged schematic view of fig. 3 a according to the present invention.

Fig. 5 is an enlarged view of the structure of fig. 3B according to the present invention.

Fig. 6 is an enlarged axial view of the adjustment mechanism B and the locking mechanism of the present invention.

Fig. 7 is a partial cross-sectional structural schematic of fig. 6 of the present invention.

Fig. 8 is an enlarged view of the structure of fig. 7 at C according to the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. a main body seat; 101. a sliding groove A; 102. a cutter mounting seat; 103. a baffle plate; 2. an adjustment structure A; 201. a sliding block A; 202. a cylindrical rod; 203. a threaded rod A; 3. a placement seat structure; 301. a gear; 30101. a sliding groove B; 30102. a sewage draining hole; 302. a connecting seat; 303. a sliding block B; 30301. cleaning the tank; 304. a clamp seat; 305. a threaded rod B; 4. an adjustment structure B; 401. rotating the connecting seat; 402. rotating the rod; 40201. a card slot; 403. a threaded pipe; 404. a rubber sleeve; 5. a latching structure; 501. a locking piece; 502. a threaded rod C.

Detailed Description

The embodiments of the present invention will be described in further detail with reference to the drawings and examples. The following examples are intended to illustrate the invention but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like, indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, are only for convenience in describing and simplifying the description, and do not indicate or imply that the device or element referred to must have a particular orientation, be constructed in a particular orientation, and be operated, and thus, should not be construed as limiting the invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, e.g., as being fixed or detachable or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 8:

the invention provides a placement type processing frame device for reprocessing high-strength structural ceramics, which comprises a main body seat 1; an adjusting structure A2 is connected on the main body seat 1 in a sliding manner, a placing seat structure 3 is welded on the adjusting structure A2, and an adjusting structure B4 is welded on the adjusting structure A2; the adjusting structure B4 is connected with a locking structure 5 in a sliding way; referring to fig. 7 and 8, the locking structure 5 includes two locking pieces 501 and a threaded rod C502, the two locking pieces 501 are provided, both the two locking pieces 501 are slidably connected to the rotating rod 402, and the two locking pieces 501 are respectively in contact with the two threaded pipes 403; a threaded rod C502 is connected to the two locking pieces 501 in a threaded manner, and the thread directions of two ends of the threaded rod C502 are opposite; the two locking pieces 501 of the rotary threaded rod C502 are respectively contacted and abutted with the two threaded pipes 403, so that the backlash between the threaded pipes 403 and the gear 301 is eliminated.

Referring to fig. 2, the main body base 1 includes a sliding groove a101, a cutter mounting base 102 and a baffle plate 103, the top end face of the main body base 1 is provided with a sliding groove a101 with a T-shaped structure, the cutter mounting base 102 is welded on the top end face of the main body base 1, and the front end face of the main body base 1 is fixedly connected with the baffle plate 103 through a bolt.

Referring to fig. 2 and 3, the adjusting structure A2 includes a sliding block a201, a cylindrical rod 202 and a threaded rod a203, the sliding block a201 is slidably connected in the sliding groove a101, and the cylindrical rod 202 is welded on the top end surface of the sliding block a 201; the threaded rod A203 is rotatably connected to the baffle plate 103, the threaded rod A203 is in threaded connection with the cylindrical rod 202, and the threaded rod A203 and the baffle plate 103 jointly form a thread adjusting structure of the cylindrical rod 202.

Referring to fig. 3, the placing seat structure 3 includes a gear 301, a sliding groove B30101, a connecting seat 302, a sliding block B303, a clamp seat 304 and a threaded rod B305, the connecting seat 302 is welded to the bottom end face of the gear 301, and the connecting seat 302 is rotatably connected to the cylindrical rod 202; a sliding groove B30101 is formed in the top end face of the gear 301, the sliding groove B30101 is connected with two sliding blocks B303 in a sliding mode, and a clamp seat 304 is welded on the top end face of each sliding block B303; the threaded rod B305 is in threaded connection with the two clamp seats 304, and the thread directions of the two ends of the threaded rod B305 are opposite; the threaded rod B305 and the sliding groove B30101 are matched to form a quick adjusting structure of the clamp seats 304, and when the threaded rod B305 is rotated, the two clamp seats 304 simultaneously move in opposite directions to finish quick clamping and releasing.

Referring to fig. 4, the gear 301 further includes a blow-off hole 30102, a plurality of blow-off holes 30102 are formed in the central position of the bottom end face of the inner wall of the sliding groove B30101 in a rectangular array, and the blow-off holes 30102 are in a tapered hole structure, so that the strength of the gear 301 is ensured, and the anti-blocking capability of the blow-off holes 30102 is improved.

Referring to fig. 4, the sliding block B303 includes a cleaning groove 30301, the head end and the tail end of the sliding block B303 are both provided with one cleaning groove 30301, and the cleaning groove 30301 is in a V-shaped structure, so that when the sliding block B303 slides back and forth in the sliding groove B30101, the cleaning groove 30301 in the V-shaped structure can collect the residues in the sliding groove B30101 to the sewage discharge hole 30102 for removal.

Referring to fig. 6, the adjusting structure B4 comprises a rotary connecting seat 401, a rotary rod 402, a clamping groove 40201, a threaded pipe 403 and a rubber sleeve 404; the rotary connecting seat 401 is welded on the cylindrical rod 202, and a rotary rod 402 is rotatably connected on the rotary connecting seat 401; two clamping grooves 40201 are symmetrically formed in the outer wall of the rotating rod 402, and the two threaded pipes 403 are both connected to the rotating rod 402 in a limiting and sliding mode through the clamping grooves 40201; a rubber sleeve 404 is sleeved on the outer wall of the rotating rod 402 between the two threaded pipes 403, the two threaded pipes 403 are both meshed with the gear 301, and the threaded pipes 403 and the gear 301 jointly form a worm gear structure, so that the seat placing structure 3 and the angle adjustment of the ceramic plate on the seat placing structure 3 can be realized when the rotating rod 402 is rotated.

The specific use mode and function of the embodiment are as follows:

when the ceramic plate placing device is used, firstly, a ceramic plate is placed on the placing seat structure 3, at the moment, the threaded rod B305 is in threaded connection with the two clamp seats 304, and the thread directions of two ends of the threaded rod B305 are opposite; the threaded rod B305 and the sliding groove B30101 are matched to form a quick adjusting structure of the clamp seats 304, when the threaded rod B305 is rotated, the two clamp seats 304 move towards opposite directions simultaneously, and quick clamping and releasing are completed;

after the fixing, the threaded rod a203 is rotated to realize the back-and-forth movement of the adjusting structure A2, when the angle adjustment is needed, the threaded pipe 403 and the gear 301 jointly form a worm gear structure, so that the angle adjustment of the placing seat structure 3 and the ceramic plate on the placing seat structure 3 can be realized when the rod 402 is rotated;

after the angle adjustment is finished, the two locking pieces 501 are connected to the rotating rod 402 in a sliding manner, and the two locking pieces 501 are respectively contacted with the two threaded pipes 403; a threaded rod C502 is connected to the two locking pieces 501 in a threaded manner, and the thread directions of two ends of the threaded rod C502 are opposite; two locking pieces 501 of the threaded rod C502 are respectively contacted and abutted with the two threaded pipes 403, so that the clearance between the threaded pipes 403 and the gear 301 is eliminated;

because the central position of the bottom end face of the inner wall of the sliding groove B30101 is provided with a plurality of blow-off holes 30102 in a rectangular array shape, and the blow-off holes 30102 are in a conical hole structure, the strength of the gear 301 is ensured, and the anti-blocking capacity of the blow-off holes 30102 is improved;

because the head end and the tail end of the sliding block B303 are both provided with the cleaning groove 30301, and the cleaning groove 30301 is of a V-shaped structure, when the sliding block B303 slides forwards and backwards in the sliding groove B30101, the cleaning groove 30301 of the V-shaped structure can collect residues in the sliding groove B30101 to the sewage discharge hole 30102 for discharge.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (3)

1. A place type processing frame equipment for high strength structural ceramics reprocessing, its characterized in that: comprises a main body seat (1); the main body seat (1) is connected with an adjusting structure A (2) in a sliding mode, a placing seat structure (3) is welded on the adjusting structure A (2), and an adjusting structure B (4) is welded on the adjusting structure A (2); the adjusting structure B (4) is connected with a locking structure (5) in a sliding way; the locking structure (5) comprises two locking pieces (501) and a threaded rod C (502), the two locking pieces (501) are arranged, the two locking pieces (501) are connected to the rotating rod (402) in a sliding mode, and the two locking pieces (501) are respectively contacted with the two threaded pipes (403); the two locking pieces (501) are in threaded connection with one threaded rod C (502), and the thread directions of two ends of the threaded rod C (502) are opposite; two locking pieces (501) of the threaded rod C (502) are respectively contacted and abutted with the two threaded pipes (403), so that the clearance between the threaded pipes (403) and the gear (301) is eliminated; the placing seat structure (3) comprises a gear (301), a sliding groove B (30101), a connecting seat (302), a sliding block B (303), a clamp seat (304) and a threaded rod B (305), wherein the connecting seat (302) is welded to the bottom end face of the gear (301), and the connecting seat (302) is rotatably connected to the cylindrical rod (202); a sliding groove B (30101) is formed in the top end face of the gear (301), the sliding groove B (30101) is connected with two sliding blocks B (303) in a sliding mode, and the top end face of each sliding block B (303) is welded with one clamp seat (304); the threaded rod B (305) is in threaded connection with the two clamp seats (304), and the thread directions of two ends of the threaded rod B (305) are opposite; the threaded rod B (305) and the sliding groove B (30101) are matched to form a quick adjusting structure of the clamp seat (304); the gear (301) further comprises a sewage discharge hole (30102), a plurality of sewage discharge holes (30102) are formed in the center of the bottom end face of the inner wall of the sliding groove B (30101) in a rectangular array mode, and the sewage discharge holes (30102) are of a conical hole structure; the sliding block B (303) comprises a cleaning groove (30301), the head end and the tail end of the sliding block B (303) are both provided with the cleaning groove (30301), and the cleaning groove (30301) is of a V-shaped structure; the adjusting structure B (4) comprises a rotary connecting seat (401), a rotary rod (402), a clamping groove (40201), a threaded pipe (403) and a rubber sleeve (404); the rotary connecting seat (401) is welded on the cylindrical rod (202), and the rotary connecting seat (401) is rotatably connected with the rotary rod (402); the outer wall of the rotating rod (402) is symmetrically provided with two clamping grooves (40201), and the two threaded pipes (403) are connected to the rotating rod (402) in a limiting sliding mode through the clamping grooves (40201); the outer wall of the rotating rod (402) is located at two the rubber sleeve (404) is sleeved between the threaded pipes (403), the threaded pipes (403) are meshed with the gear (301), and the threaded pipes (403) and the gear (301) jointly form a worm gear structure.

2. The placement type process frame apparatus for rework of high strength structural ceramics of claim 1, wherein: the main body seat (1) comprises a sliding groove A (101), a cutter mounting seat (102) and a baffle (103), the sliding groove A (101) of a T-shaped structure is formed in the top end face of the main body seat (1), the cutter mounting seat (102) is welded to the top end face of the main body seat (1), and the baffle (103) is fixedly connected to the front end face of the main body seat (1) through bolts.

3. The placement type process frame apparatus for rework of high strength structural ceramics of claim 1, wherein: the adjusting structure A (2) comprises a sliding block A (201), a cylindrical rod (202) and a threaded rod A (203), the sliding block A (201) is connected in the sliding groove A (101) in a sliding mode, and the cylindrical rod (202) is welded to the top end face of the sliding block A (201); the threaded rod A (203) is rotatably connected to the baffle (103), the threaded rod A (203) is in threaded connection with the cylindrical rod (202), and the threaded rod A (203) and the baffle (103) jointly form a thread adjusting structure of the cylindrical rod (202).

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