CN217290582U - Symmetrical synchronous chamfering and edge milling machining mechanism for rectangular copper alloy floor drain body blank - Google Patents

Abstract

The utility model belongs to the technical field of copper alloy floor drain body chamfer mills limit processing equipment, a synchronous chamfer of rectangle copper alloy floor drain body blank symmetry mills limit processing agency is related to. The utility model discloses, include: chamfering the machine body; the bottom of the chamfering machine body is horizontally and fixedly connected with a supporting base, the supporting base is a heavy metal block, and meanwhile, a mounting hole is formed in the supporting base; a mechanism for preventing metal broken pieces from flying out is arranged above the chamfering machine body; prevent that metal fragment flies out mechanism includes: protection casing, electric telescopic handle, support frame, embedded cover, support step and viscose mechanism. The utility model adheres the flying metal fragments by the mucilage glue coated on the inner wall; when the metal fragments of departure hit the protruding spherical shell of rubber of the corresponding position of inner box body inner wall simultaneously, the protruding spherical shell of rubber just warp because of the striking power is used and is sunken in the embedded groove to originally being in the anti-skidding convex body on the protruding spherical shell outer wall of rubber when sunken just with the metalwork parcel clip.

Description

Symmetrical synchronous chamfering and edge milling machining mechanism for rectangular copper alloy floor drain body blank

Technical Field

The utility model belongs to the technical field of copper alloy floor drain body chamfer mills limit processing equipment, a synchronous chamfer of rectangle copper alloy floor drain body blank symmetry mills limit processing agency is related to.

Background

In the process of processing a blank of the floor drain body made of copper alloy, chamfer edge milling equipment is needed for processing, and once the acting force of the machine body is too large, broken metal pieces are easy to fly out when acting on the corresponding position of the floor drain body due to the metal pieces. Flying metal fragments are easy to hurt personnel in the surrounding environment, so that shielding objects can be covered on equipment during processing generally, but the shielding objects which are covered generally can only shield the flying metal fragments, but the shielded metal fragments can directly fall into a machine body, so that parts which run in the machine body are easy to be damaged, and meanwhile, the later cleaning treatment is not convenient.

Disclosure of Invention

The utility model aims at the above-mentioned problem, a synchronous chamfer of rectangle copper alloy floor drain body blank mills limit processing agency is provided.

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

the utility model provides a synchronous chamfer of rectangle copper alloy floor drain body blank symmetry mills limit processing agency, includes: chamfering the machine body; the bottom of the chamfering machine body is horizontally and fixedly connected with a supporting base, the supporting base is a heavy metal block, and meanwhile, a mounting hole is formed in the supporting base; a mechanism for preventing metal broken pieces from flying out is arranged above the chamfering machine body; prevent that metal fragment flies out mechanism includes: the protective cover, the electric telescopic rod, the supporting frame, the embedded cover, the supporting step and the gluing mechanism are arranged on the inner side of the protective cover; the supporting frame is vertically and fixedly connected to the edge of the supporting base, the electric telescopic rod is vertically and fixedly connected to the upper end of the supporting frame, and the lower end of the electric telescopic rod is a telescopic end; the protective cover is fixedly connected to the telescopic end of the electric telescopic rod and is positioned right above the chamfering machine body, and the upper end and the lower end of the protective cover are both provided with openings; the embedded cover is embedded in the protective cover, the supporting step is arranged at the edge of the inner bottom of the protective cover, and the embedded cover is lapped on the supporting step; the adhesive mechanism is arranged on the inner wall of the embedded cover.

In the symmetrical synchronous chamfering and edge milling processing mechanism for the rectangular copper alloy floor drain body blank, a lifting handle is fixedly connected to the outer wall of the upper end of the embedded cover.

In the symmetrical and synchronous chamfering and edge milling processing mechanism for the rectangular copper alloy floor drain body blank, the outer wall of the lifting handle is provided with anti-skidding grains.

In the symmetrical synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank, the support frame is an anti-bending steel frame.

In the symmetrical synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank, two ends of the support frame are fixedly connected with the electric telescopic rod and the support base through screws respectively.

In the synchronous chamfer of foretell rectangle copper alloy floor drain body blank symmetry mills limit processing agency, viscose mechanism includes: the inner box body, the fixed connecting mechanism and the embedded mechanism; the inner box body is embedded in the inner side of the embedded cover, and the inner wall of the inner box body is coated with viscose glue; the fixed connecting mechanism is connected between the inner box body and the embedded cover; the embedded mechanisms are uniformly distributed on the inner wall of the inner box body.

In the synchronous chamfer of foretell rectangle copper alloy floor drain body blank symmetry mills limit processing agency, fixed connection mechanism includes: the bar-shaped sliding groove, the sliding inserted bar and the inserting convex bar; the bar-shaped sliding groove is horizontally formed in the outer wall of the upper end of the embedded cover, the sliding insertion rod is horizontally connected to the bar-shaped sliding groove in a sliding mode, the inserting convex rod is vertically and fixedly connected to the upper end of the inner box body, the inserting convex rod penetrates through the embedded cover and penetrates to the position of the bar-shaped sliding groove, and a through hole is formed in the upper end of the inserting convex rod; the sliding insertion rod is inserted in the through hole at the upper end of the insertion convex rod.

In the symmetrical synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank, the sliding inserted rod is a rubber rod.

In foretell rectangle copper alloy floor drain body blank symmetry is in step chamfer and is milled limit processing agency, embedded mechanism includes: the anti-skid device comprises a rubber convex spherical shell, an anti-skid convex body, an iron box body, a magnet block and an embedded groove; the embedded groove is evenly seted up on the inner wall of interior box body, the protruding spherical shell of rubber is connected the port department of interior embedded groove, antiskid convex body evenly distributed is in on the protruding cotton of the protruding spherical shell of rubber, magnet piece fixed connection is in the concave surface intermediate position of the protruding spherical shell of rubber, the gomphosis of iron box body is installed the inboard intermediate position of interior embedded groove.

In the symmetrical and synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank, the inner box body and the anti-skid convex body are made of heat conducting metal, heating wires are embedded in the inner box body and the anti-skid convex body, an electric connection jack is installed at the bottom of the inner box body, and the electric connection jack is electrically connected with the heating wires.

Compared with the prior art, the utility model has the advantages of:

1. when the chamfering machine body cuts metal pieces to be machined, the electric telescopic rod is controlled to extend downwards, so that the protective cover is covered on the chamfering machine body, and the metal pieces are prevented from flying out in the machining process to cause danger; and is stuck by the viscose coated on the inner wall; meanwhile, when the metal fragments flying out collide with the rubber convex spherical shell at the corresponding position of the inner wall of the inner box body, the rubber convex spherical shell deforms and is recessed into the inner embedded groove due to the action of the impact force, and the metal parts are wrapped and clamped by the anti-skidding convex bodies originally positioned on the outer wall of the rubber convex spherical shell during the recessing, so that the metal parts are prevented from being separated from the convex spherical shell.

2. When the inner box body of the utility model is embedded in the inner embedded cover, the inserting convex rod penetrates out from the upper side of the inner embedded cover, and the sliding inserted rod slides transversely along the strip-shaped chute at the moment, so that the sliding inserted rod transversely penetrates into the through hole at the upper end of the inserting convex rod, the fixed connection of the inner box body and the inner embedded cover is realized, and when the inner box body is dismounted, the sliding inserted rod only needs to transversely slide to separate from the inserting convex rod; then, the electric jacks are externally connected with a power supply, so that the electric heating wires in the inner box body and the anti-skidding convex bodies at all positions are all electrified to generate heat, the glue on the inner wall of the inner box body is convenient to heat, the flowability of the glue is enhanced, the glue and adhered metal pieces are convenient to remove, and the glue is convenient to brush again for use.

Additional advantages, objects, and features of the invention will be set forth in part in the description which follows and in part will become apparent to those having ordinary skill in the art upon examination of the following or may be learned from practice of the invention.

Drawings

Fig. 1 is a schematic view of the overall structure of the present invention.

Fig. 2 is a schematic sectional structure diagram of the protective cover of the present invention.

Fig. 3 is an enlarged structural view at a in fig. 2.

Fig. 4 is a schematic structural view of the inner box body of the present invention, which is connected to the heating wire and the power connection jack in a matching manner.

In the figure: chamfer processing organism 1, electric telescopic handle 2, support frame 3, protection casing 4, embedded cover 5, carry handle 6, slip inserted bar 7, bar spout 8 and alternate protruding pole 9, support step 10, interior box body 11, the protruding spherical shell of rubber 12, anti-skidding convex body 13, magnet piece 14, embedded groove 15, iron box body 16, heating wire 17, connect electric jack 18, support base 19.

Detailed Description

The present invention will be further explained with reference to the accompanying drawings.

As shown in fig. 1-4, a symmetrical synchronous chamfering and edge milling mechanism for a rectangular copper alloy floor drain body blank comprises: chamfering the machine body 1; the bottom of the chamfering machine body 1 is horizontally and fixedly connected with a supporting base 19, the supporting base 19 is a heavy metal block, so that the upper machine body is conveniently and stably supported, the position deviation in the running process of the machine body is avoided, and meanwhile, the supporting base 19 is provided with a mounting hole;

a mechanism for preventing metal fragments from flying out is arranged above the chamfering machine body 1; prevent that metal fragment flies out mechanism includes: the device comprises a protective cover 4, an electric telescopic rod 2, a support frame 3, an embedded cover 5, a support step 10 and an adhesive mechanism;

the supporting frame 3 is vertically and fixedly connected to the edge of the supporting base 19, the electric telescopic rod 2 is vertically and fixedly connected to the upper end of the supporting frame 3, the lower end of the electric telescopic rod 2 is a telescopic end, and the electric telescopic rod 2 can perform telescopic motion in the vertical direction;

the protective cover 4 is fixedly connected to the telescopic end of the electric telescopic rod 2, the protective cover 4 is positioned right above the chamfering machine body 1, and the upper end and the lower end of the protective cover 4 are both provided with openings;

when the chamfering machine body 1 is used for cutting metal parts to be machined, the electric telescopic rod 2 is controlled to extend downwards, so that the protective cover 4 covers the chamfering machine body 1, and the metal parts are prevented from flying out in the machining process to cause danger;

the inner embedded cover 5 is embedded in the protective cover 4, the supporting step 10 is arranged at the edge of the inner bottom of the protective cover 4, and the inner embedded cover 5 is lapped on the supporting step 10; the adhesive mechanism is arranged on the inner wall of the embedded cover 5 and can be detached;

viscose mechanism makes to distribute on the inner wall of embedded cover 5 and has viscous glue, conveniently glues the garrulous little metalwork that bursts out in 1 course of working of chamfer processing organism, avoids the metalwork to launch in protection casing 4 is inside, damages the organism, so also convenient cleaning process metalwork simultaneously.

The outer wall of the upper end of the inner embedded cover 5 is fixedly connected with a lifting handle 6, and the lifting handle 6 facilitates a user to pull the inner embedded cover 5 out of the protective cover 4.

The outer wall of the lifting handle 6 is provided with anti-skid grains.

The support frame 3 is an anti-bending steel frame.

And the two ends of the support frame 3 are respectively fixedly connected with the electric telescopic rod 2 and the support base 19 through screws.

Viscose mechanism includes: the inner box body 11, the fixed connecting mechanism and the embedded mechanism; the inner box body 11 is embedded in the inner side of the embedded cover 5, and the inner wall of the inner box body 11 is coated with viscose; the fixed connecting mechanism is connected between the inner box body 11 and the inner embedded cover 5; the embedded mechanisms are uniformly distributed on the inner wall of the inner box body 11;

when the metal piece flies out of the inner wall of the inner box body 11, the metal piece is stuck by the mucilage glue coated on the inner wall, and meanwhile, the embedded mechanism at the corresponding position is embedded into the inner wall of the inner box body 11 under the action of impact force to clamp the metal piece, so that the metal piece is prevented from falling off due to insufficient mucilage glue;

meanwhile, when the inner box body 11 needs to be taken out for processing, the fixed connecting mechanism is directly detached, so that the inner box body 11 and the inner embedded cover 5 can be separated.

The fixed connection mechanism comprises: a strip-shaped sliding groove 8, a sliding inserted rod 7 and an inserting convex rod 9;

the bar-shaped sliding groove 8 is horizontally formed in the outer wall of the upper end of the embedded cover 5, the sliding insertion rod 7 is horizontally connected to the bar-shaped sliding groove 8 in a sliding mode, the insertion convex rod 9 is vertically and fixedly connected to the upper end of the inner box body 11, the insertion convex rod 9 penetrates through the embedded cover 5 and penetrates to the position of the bar-shaped sliding groove 8, and a through hole is formed in the upper end of the insertion convex rod 9; the sliding insertion rod 7 is inserted into the through hole at the upper end of the insertion convex rod 9;

when interior box body 11 gomphosis is in embedded cover 5, alternate protruding pole 9 just wears out from embedded cover 5 upside, along 8 lateral sliding slip inserted bar 7 of bar spout this moment for in the through-hole of alternate protruding pole 9 upper end was transversely alternated to slip inserted bar 7, box body 11 and embedded cover 5 fixed connection in the realization, when box body 11 in needs dismantlement, only need with slip inserted bar 7 lateral sliding break away from alternate protruding pole 9 can.

The sliding inserted bar 7 is a rubber bar.

The embedded mechanism includes: the anti-skid rubber ball comprises a rubber convex spherical shell 12, an anti-skid convex body 13, an iron box body 16, a magnet block 14 and an embedded groove 15;

the inner caulking grooves 15 are uniformly formed in the inner wall of the inner box body 11, the rubber convex spherical shell 12 is connected to the port of the inner caulking grooves 15, the anti-skid convex bodies 13 are uniformly distributed on the convex cotton of the rubber convex spherical shell 12, the magnet blocks 14 are fixedly connected to the middle position of the concave surface of the rubber convex spherical shell 12, and the iron box body 16 is embedded and installed in the middle position of the inner side of the inner caulking grooves 15;

when metal fragments flying out in the processing process impact the rubber convex spherical shell 12 at the corresponding position of the inner wall of the inner box body 11, the rubber convex spherical shell 12 deforms and is recessed into the inner embedded groove 15 under the action of impact force, and when the metal fragments are recessed, the metal fragments are wrapped and clamped by the anti-skidding convex bodies 13 originally positioned on the outer wall of the rubber convex spherical shell 12, so that the metal fragments are prevented from falling off;

meanwhile, when the rubber convex spherical shell 12 deforms and is recessed into the embedded groove 15 due to the action of impact force, the magnet block 14 on the rubber convex spherical shell 12 is embedded and adsorbed in the iron box 16, and the rubber convex spherical shell 12 is kept in an embedded state.

The inner diameter of the inner embedded groove 15 is larger than the diameter of the rubber convex spherical shell 12, so that the rubber convex spherical shell 12 can be conveniently bent and embedded into the inner embedded groove 15.

The inner box body 11 and the anti-skid convex body 13 are both made of heat conducting metal, heating wires 17 are embedded in the inner box body 11 and the anti-skid convex body 13, an electric connection jack 18 is installed at the bottom of the inner box body 11, and the electric connection jack 18 is electrically connected with the heating wires 17;

when the metal piece adhered to the inner part of the inner box body 11 needs to be removed, the external power supply is connected with the electric jack 18, so that the electric heating wires 17 in the anti-skidding convex bodies 13 at the inner box body 11 and all positions are electrified to generate heat, thereby facilitating heating of glue on the inner wall of the inner box body 11, enhancing the flowability of the glue, conveniently removing the glue and the adhered metal piece, and facilitating glue brushing for use again.

The utility model discloses a theory of operation is:

when the chamfering machine body 1 is used for cutting metal parts to be machined, the electric telescopic rod 2 is controlled to extend downwards, so that the protective cover 4 covers the chamfering machine body 1, and the metal parts are prevented from flying out in the machining process to cause danger;

when the metal piece flies out to the inner wall of the inner box body 11, the metal piece is stuck by the viscose coated on the inner wall;

meanwhile, when the flying metal fragments impact the rubber convex spherical shell 12 at the corresponding position of the inner wall of the inner box body 11, the rubber convex spherical shell 12 deforms and is recessed into the inner embedded groove 15 under the action of impact force, and when the metal fragments are recessed, the metal fragments are wrapped and clamped by the anti-skid convex bodies 13 originally positioned on the outer wall of the rubber convex spherical shell 12, so that the metal fragments are prevented from falling off;

meanwhile, when the rubber convex spherical shell 12 deforms and is recessed into the embedded groove 15 due to the action of impact force, the magnet block 14 on the rubber convex spherical shell 12 is embedded and adsorbed in the iron box body 16, and the rubber convex spherical shell 12 is kept in an embedded state;

when the inner box body 11 is embedded in the embedded cover 5, the inserting convex rod 9 penetrates out from the upper side of the embedded cover 5, and the sliding inserted rod 7 is transversely slid along the strip-shaped sliding groove 8 at the moment, so that the sliding inserted rod 7 is transversely inserted into the through hole at the upper end of the inserting convex rod 9, the inner box body 11 is fixedly connected with the embedded cover 5, and when the inner box body 11 needs to be detached, the sliding inserted rod 7 only needs to be transversely slid to be separated from the inserting convex rod 9;

when the metal piece adhered to the inner part of the inner box body 11 needs to be removed, the external power supply is connected with the electric jack 18, so that the electric heating wires 17 in the anti-skidding convex bodies 13 at the inner box body 11 and all positions are electrified to generate heat, thereby facilitating heating of glue on the inner wall of the inner box body 11, enhancing the flowability of the glue, conveniently removing the glue and the adhered metal piece, and facilitating glue brushing for use again.

The specific embodiments described herein are merely illustrative of the spirit of the invention. Various modifications, additions and substitutions for the specific embodiments described herein will be apparent to those skilled in the art without departing from the spirit of the invention.

Although the terms of the chamfering machine body 1, the electric telescopic rod 2, the support frame 3, the protective cover 4, the inner embedded cover 5, the lifting handle 6, the sliding insertion rod 7, the strip-shaped sliding groove 8, the insertion convex rod 9, the support step 10, the inner box body 11, the rubber convex spherical shell 12, the anti-sliding convex body 13, the magnet block 14, the inner embedded groove 15, the iron box body 16, the electric heating wire 17, the electric connection jack 18, the support base 19 and the like are used more frequently, the possibility of using other terms is not excluded. These terms are used merely to more conveniently describe and explain the nature of the present invention and should not be interpreted as imposing any additional limitations that are contrary to the spirit of the present invention.

Claims (10)

1. The utility model provides a synchronous chamfer of rectangle copper alloy floor drain body blank symmetry mills limit processing agency, includes: a chamfering machine body (1); the bottom of the chamfering machine body (1) is horizontally and fixedly connected with a supporting base (19), the supporting base (19) is a heavy metal block, and meanwhile, a mounting hole is formed in the supporting base (19); the device is characterized in that a mechanism for preventing metal fragments from flying out is arranged above the chamfering machine body (1); prevent that metal garrulous piece departure mechanism includes: the protective cover (4), the electric telescopic rod (2), the support frame (3), the embedded cover (5), the support step (10) and the gluing mechanism; the supporting frame (3) is vertically and fixedly connected to the edge of the supporting base (19), the electric telescopic rod (2) is vertically and fixedly connected to the upper end of the supporting frame (3), and the lower end of the electric telescopic rod (2) is a telescopic end; the protective cover (4) is fixedly connected to the telescopic end of the electric telescopic rod (2), the protective cover (4) is located right above the chamfer machining machine body (1), and the upper end and the lower end of the protective cover (4) are both provided with openings; the inner embedded cover (5) is embedded in the protective cover (4), the supporting step (10) is arranged at the edge of the inner bottom of the protective cover (4), and the inner embedded cover (5) is lapped on the supporting step (10); the adhesive mechanism is arranged on the inner wall of the embedded cover (5).

2. The symmetrical and synchronous chamfering and edge milling mechanism for the blank of the rectangular copper alloy floor drain body according to claim 1, wherein a lifting handle (6) is fixedly connected to the outer wall of the upper end of the inner embedded cover (5).

3. The symmetrical and synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank according to claim 2, wherein the outer wall of the lifting handle (6) is provided with anti-skid lines.

4. The symmetrical and synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank according to claim 3, wherein the support frame (3) is an anti-bending steel frame.

5. The symmetrical and synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank according to claim 4, wherein two ends of the support frame (3) are fixedly connected with the electric telescopic rod (2) and the support base (19) through screws respectively.

6. The symmetrical and synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank according to claim 5, wherein the gluing mechanism comprises: the inner box body (11), the fixed connecting mechanism and the embedded mechanism; the inner box body (11) is embedded in the inner side of the embedded cover (5), and the inner wall of the inner box body (11) is coated with viscose glue; the fixed connecting mechanism is connected between the inner box body (11) and the embedded cover (5); the embedded mechanisms are uniformly distributed on the inner wall of the inner box body (11).

7. The symmetrical and synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank according to claim 6, wherein the fixed connecting mechanism comprises: a strip-shaped sliding groove (8), a sliding inserted rod (7) and an inserting convex rod (9); the strip-shaped sliding groove (8) is horizontally formed in the outer wall of the upper end of the embedded cover (5), the sliding insertion rod (7) is horizontally connected to the strip-shaped sliding groove (8) in a sliding mode, the inserting convex rod (9) is vertically and fixedly connected to the upper end of the inner box body (11), the inserting convex rod (9) penetrates through the embedded cover (5) and penetrates to the position of the strip-shaped sliding groove (8), and a through hole is formed in the upper end of the inserting convex rod (9); the sliding insertion rod (7) is inserted in the through hole at the upper end of the insertion convex rod (9).

8. The symmetrical synchronous chamfering and edge milling mechanism for the blank of the rectangular copper alloy floor drain body according to claim 7, wherein the sliding inserted rod (7) is a rubber rod.

9. The symmetrical and synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank according to claim 8, wherein the embedded mechanism comprises: the anti-skid ball comprises a rubber convex ball shell (12), an anti-skid convex body (13), an iron box body (16), a magnet block (14) and an embedded groove (15); interior caulking groove (15) are evenly seted up on the inner wall of interior box body (11), the protruding spherical shell of rubber (12) are connected the port department of interior caulking groove (15), antiskid convex body (13) evenly distributed is in on the protruding cotton of the protruding spherical shell of rubber (12), magnet piece (14) fixed connection to the concave surface intermediate position of the protruding spherical shell of rubber (12), iron box body (16) gomphosis is installed the inboard intermediate position of interior caulking groove (15).

10. The symmetrical and synchronous chamfering and edge milling mechanism for the rectangular copper alloy floor drain body blank according to claim 9, wherein the inner box body (11) and the anti-slip convex body (13) are both made of heat-conducting metal, an electric heating wire (17) is embedded in each of the inner box body (11) and the anti-slip convex body (13), an electric connection jack (18) is installed at the bottom of the inner box body (11), and the electric connection jack (18) is electrically connected with the electric heating wire (17).

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