CN110744602B - Automatic change mechanical rubber body plane and tailor equipment - Google Patents

Abstract

The invention discloses an automatic mechanical rubber body plane cutting device, which structurally comprises a connecting pipe, a hydraulic ejection column and a top fixing table, wherein the connecting pipe is connected with the hydraulic ejection column and is communicated with the hydraulic ejection column, the connecting pipe can drag the hydraulic ejection column to drive a fixed shear head to press downwards, so that an edge fixing angle on the fixed shear head and a shear port are firstly abutted against the upper surface of an object, the sticking and buffering effects can be realized when the connecting pipe contacts with a foreign object, a curved support layer is used for protecting and connecting a top convex arc and an adhesive layer of the connecting pipe, the external part is subjected to buffering sticking with certain tiny force, when the outer fixing shell is adsorbed and connected through an adhesion point at the bottom end, the outer fixing shell cannot run out, the whole outer fixing shell is abutted against the outer surface for adsorption, the shear port is continuously cut downwards, the abutting angle of the abutting angle can abut against a tightening strip for bearing force, the whole tightening strip can be extruded, the smooth downward movement of the shear port can be realized, and the rubber object can be cut in a plane, the two sides of the surface of the blade are fixed firstly, and then the blade is moved downwards and vertically.

Description

Automatic change mechanical rubber body plane and tailor equipment

Technical Field

The invention belongs to the field of hydraulic equipment, and particularly relates to automatic mechanical rubber body plane cutting equipment.

Background

The existing cutting of large objects uses equipment to perform hydraulic pressure cutting, steel, rubber, wood and the like can be cut, and the cutting blade vertically downwards performs plane cutting on the objects through hydraulic pressure.

Based on the findings of the inventor, the existing automatic mechanical cutting equipment mainly has the following defects, such as:

when the rubber body with elasticity is cut, the cutting surface is pressed downwards by the blade when the rubber body is not broken at first, the cutting surface is slightly inclined, the blade can deviate to the side edge, and after the rubber body is broken, the rubber body can be cut into a cambered surface, and even the data has errors.

Therefore, an automatic mechanical rubber body plane cutting device is needed.

Disclosure of Invention

In order to solve the problems that when the elastic rubber body is cut by the technology and is not broken at first, the cutting surface is pressed downwards by the blade to force the cutting surface to incline slightly, the blade deviates to the side edge, and after the elastic rubber body is broken, the elastic rubber body is cut into a cambered surface, and even data has errors.

The invention relates to an automatic mechanical rubber body plane cutting device, which is achieved by the following specific technical means:

the structure of the device comprises a linking pipe, a hydraulic jacking column, a jacking and fixing platform, a pressure guide box, a bottom bracket, a shear fixing head and a supporting column.

The linking pipe is connected and link up each other with the hydraulic pressure fore-set, the hydraulic pressure fore-set runs through inside the solid platform in top, the pressure is led the case and is installed in collet seat upper surface, hydraulic pressure fore-set bottom is connected with solid scissor head, the support column welds perpendicularly in the solid platform lower surface in top.

The fixed shear head comprises a shear mouth, an edge fixed angle, a tightening strip and an outer pocket shell, the upper surface of the shear mouth is welded with the lower surface of the outer pocket shell, the edge fixed angle abuts against the outer surface of the tightening strip, and the tightening strip is installed inside the outer pocket shell.

As a further improvement of the invention, the edge fixing angles comprise three inner stabilizing angles, three resisting angles, three outer fixing shells and three adhesive points, wherein the inner stabilizing angles are embedded in the outer fixing shells, the adhesive points are arranged at the bottom ends of the outer fixing shells, the resisting angles are attached to the outer surfaces of the outer fixing shells, and the adhesive points are arranged on the inner stabilizing angles.

As a further improvement of the invention, the conflict angle comprises an extension core, a top pointed end, side supporting edges and an epitaxial layer, the extension core is embedded in the epitaxial layer, the side supporting edges are attached to the outer surface of the top pointed end, the extension core is in a semicircular structure, the number of the top pointed ends is three, and the epitaxial layer is in an arc strip structure.

As a further improvement of the invention, the adhesive point comprises a top convex arc, a curved support layer, a clamping support ball, thin adhesive heads and an adhesive layer, wherein the top convex arc is abutted against the upper surface of the curved support layer, the clamping support ball is arranged at one end of the curved support layer far away from the top convex arc, the thin adhesive heads are embedded into the adhesive layer, the clamping support ball is of an oval structure, four thin adhesive heads are arranged, two thin adhesive heads are arranged in one group, and two top convex arcs are arranged.

As a further improvement of the invention, the clamping and supporting ball comprises a fairing edge, a jacking arc, a bottom pocket layer, swing strips and a suction port arc, wherein the bottom pocket layer is embedded inside the fairing edge, the jacking arc is connected with the fairing edge, the suction port arc is arranged inside the bottom pocket layer, the swing strips are abutted against the inner wall of the bottom pocket layer, the jacking arc is of an arc structure, two fairing edges are arranged, and ten suction port arcs are arranged.

As a further improvement of the invention, the inner stable angle comprises an inverted expansion block, an inner protection angle and a buffer ball, the inner protection angle is attached to the outer surface of the inverted expansion block, the inverted expansion block is connected with the buffer ball, the buffer ball is of a spherical structure, and four and two inner protection angles are arranged to form a group.

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

the joining pipe will drag the hydraulic prop to drive the fixed shear head to press downwards, so that the edge fixing angle and the shear mouth on the fixed shear head are firstly propped against the upper surface of the object, the adhesion point is stuck on the upper surface of the object, the adhering and buffering effects can be achieved when the suction port arc is contacted with the foreign object, when the suction port arc is adsorbed, the whole body can be bent, the angle protection effect is achieved by extending along the edge, the top supporting arc assists the buffer return, the curved supporting layer protects and links the top convex arc and the adhesion layer, the buffer adhesion with certain tiny force is performed to the outside, when the outer fixing shell is adsorbed and linked through the adhesion point at the bottom end, the outer fixing shell cannot be out of position, the whole outer fixing shell is propped against the outer surface to adsorb, the shear mouth is continuously sheared downwards, the conflict angle will prop against the tension bar to bear force, the whole body can extrude the tension bar, and the shear mouth can smoothly move downwards, when the rubber object is subjected to plane cutting, the two sides of the surface of the rubber object are fixed firstly, and then the blade is led to move downwards and vertically.

Drawings

Fig. 1 is a schematic structural diagram of an automatic mechanical rubber body plane cutting device.

Fig. 2 is a left-view internal structural schematic diagram of a scissors head of the present invention.

Fig. 3 is a schematic view of an elevation view of an internal structure of a corner fixing device according to the present invention.

Fig. 4 is a schematic view of an orthogonal internal structure of an interference angle according to the present invention.

FIG. 5 is a schematic front view of an internal structure of an adhesive site of the present invention.

FIG. 6 is a schematic front view of a card-holding ball according to the present invention.

Fig. 7 is a schematic view of a front view of an internal structure of an internal stabilizing angle according to the present invention.

In the figure: the device comprises a connecting pipe-11, a hydraulic top column-22, a top fixing platform-33, a pressure guide box-44, a bottom base-55, a fixed scissor head-66, a supporting column-77, a scissor opening-aa 1, an edge fixing angle-aa 2, a tightening strip-aa 3, an outer pocket shell-aa 4, an inner fixing angle-m 1m, a collision angle-m 2m, an outer fixing shell-m 3m, an adhesion point-m 4m, a extending core-tt 01, a top tip-tt 02, a side support edge-tt 03, an epitaxial layer-tt 04, a top convex arc-r 1, a curved support layer-r 2, a clamping ball-r 3, a thin adhesion head-r 4, an adhesion layer-r 9, an extending edge-hh 10, a top support arc-hh 20, a bottom pocket layer-hh 30, a swinging strip-hh 40, a suction opening arc-hh 50, an inverted block-6867, an inner protection block-zz-2 and a buffer angle-zz 3.

Detailed Description

The invention is further described below with reference to the accompanying drawings:

example (b):

as shown in figures 1 to 7:

the invention provides automatic mechanical rubber body plane cutting equipment which structurally comprises a connecting pipe 11, a hydraulic ejection column 22, a top fixing table 33, a pressing guide box 44, a bottom base 55, a fixed shear head 66 and a supporting column 77.

The linking pipe 11 is connected and link up each other with the hydraulic pressure fore-set 22, the hydraulic pressure fore-set 22 runs through inside the solid platform 33 in the top, the pressure guide box 44 is installed in end bracket 55 upper surface, the hydraulic pressure fore-set 22 bottom is connected with solid scissors head 66, the support column 77 welds perpendicularly in the solid platform 33 lower surface in the top.

The fixed shear head 66 comprises a shear opening aa1, an edge fixing angle aa2, a toggling strip aa3 and an outer pocket shell aa4, the upper surface of the shear opening aa1 is welded with the lower surface of the outer pocket shell aa4, the edge fixing angle aa2 abuts against the outer surface of the toggling strip aa3, and the toggling strip aa3 is mounted inside an outer pocket shell aa 4.

The side fixing angle aa2 comprises an inner stable angle m1m, a collision angle m2m, an outer fixing shell m3m and adhesion points m4m, wherein the inner stable angle m1m is embedded into the outer fixing shell m3m, the adhesion points m4m are installed at the bottom end of the outer fixing shell m3m, the collision angles m2m are attached to the outer surface of the outer fixing shell m3m, the number of the inner stable angles m1m is three, the number of the adhesion points m4m is three, the collision angles m2m squeeze and apply force to the part with limited force when moving integrally, the inner stable angle m1m enables the whole connected body to be more stable to resist an external object, and the adhesion points m4m can play roles of adhesion and buffering when contacting the external object.

The touch screen m2m comprises an extension core tt01, three top pointed tips tt02, side support edges tt03 and an extension layer tt04, wherein the extension core tt01 is embedded in the extension layer tt04, the side support edges tt03 are attached to the outer surface of the top pointed tips tt02, the extension core tt01 is of a semicircular structure, the number of the top pointed tips tt02 is three, the extension layer tt04 is of an arc strip structure, the top pointed tips tt02 can form an open circuit from small to large when moving and extruding integrally, the top pointed tips tt02 can move better, the side support edges tt03 can protect a stressed end, and the extension core tt01 expands the stressed area of the jointed end.

The adhesive point m4m comprises a top convex arc r1, a curved support layer r2, a clamping support ball r3, a thin adhesive head r4 and an adhesive layer r5, wherein the top convex arc r1 abuts against the upper surface of the curved support layer r2, one end, far away from the top convex arc r1, of the curved support layer r2 is provided with the clamping support ball r3, the thin adhesive head r4 is embedded into the adhesive layer r5, the clamping support ball r3 is of an oval structure, the thin adhesive head r4 is provided with four parts, the two parts form a group, the top convex arc r1 is provided with two parts, the top convex arc r1 can limit the installation position and the area of the part to be abutted against, the curved support layer r2 plays a role in separating and protecting the parts on two sides, and the thin adhesive head r4 assists the adhesive layer r5 to buffer and adhere to the outside with a certain small force.

The clamping and supporting ball r3 comprises an extending straight edge hh10, a top supporting arc hh20, a bottom pocket layer hh30, a swinging strip hh40 and a suction port arc hh50, wherein the bottom pocket layer hh30 is embedded inside the extending straight edge hh10, the top supporting arc hh20 is connected with the extending straight edge hh10, the suction port arc hh50 is installed inside the bottom pocket layer hh30, the swinging strip hh40 abuts against the inner wall of the bottom pocket layer hh30, the top supporting arc hh20 is of an arc-shaped structure, two extending straight edges hh10 are arranged, ten suction port arcs hh50 are arranged, the swinging strip hh40 generates certain change according to the change of the stress of the outer layer, the bending angle of the extending straight edge hh10 is protected, the suction port hh50 can absorb objects in a large mode, and the protection effect of objects inside the pocket layer hh30 is achieved.

The internal stability angle m1m comprises a backward expansion block zz1, an internal protection angle zz2 and a buffer ball zz3, the internal protection angle zz2 is attached to the outer surface of the backward expansion block zz1, the backward expansion block zz1 is connected with the buffer ball zz3, the buffer ball zz3 is of a spherical structure, four and two internal protection angles zz2 are arranged in one group, the backward expansion block zz1 stabilizes the approximate position of the joint part, the internal protection angle zz2 protects the fine angle inside the buffer ball zz3, and the buffer ball zz3 gives a larger stress point inside the buffer ball zz 3.

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

in the invention, a rubber body to be cut is placed on the upper surface of a bottom bracket 55, a pressure guide box 44 is controlled through the outside, a jointed connection pipe 11 pulls a hydraulic top column 22 to drive a fixed scissor head 66 to press downwards, so that a side fixing angle aa2 and a shearing port aa1 on the fixed scissor head 66 are firstly abutted against the upper surface of an object, an adhesion point m4m of the jointing connection pipe is adhered on the upper surface of the object, a suction port arc hh50 is adsorbed on the surface of the object, a swinging strip hh40 changes according to the change of the outside shape, a bottom pocket layer hh 7 is used for containing the rubber body, when the suction port arc hh50 is adsorbed, the whole body is bent, the rubber body is prevented from bending by extending along the side hh10, a top supporting arc hh20 is used for assisting the buffering and returning of the rubber body, when a clamping ball r3 is integrally adsorbed, an adhesive layer r5 and a thin adhesive head r4 are abutted against a convex layer 8536 of a convex arc 1, and a protective layer 5 is also prevented from the outside by a convex layer 8236, when the outer fixed shell m3m is connected in an absorbing mode through the adhesive point m4m at the bottom end, the inner inverted expansion block zz1 can stabilize the approximate position of the whole body, the inner protection angle zz2 protects the bending angle of the outer fixed shell, the buffer ball zz3 is connected stably and cannot run out, the whole outer fixed shell m3m abuts against the outer surface to absorb, the cut aa1 is cut downwards continuously, the collision angle m2m abuts against the stretching aa3 to bear force, the extension core tt01 is connected with the sharp heads at two sides, the top tt02 is extruded at the front end to be opened, the side support edge tt03 protects the top sharp head tt02, the whole body can extrude the stretching aa3, and the cut aa1 moves downwards smoothly.

The technical solutions of the present invention or similar technical solutions designed by those skilled in the art based on the teachings of the technical solutions of the present invention are all within the scope of the present invention to achieve the above technical effects.

Claims (1)

1. The utility model provides an automatic change mechanical rubber body plane and tailor equipment, its structure includes linking pipe (11), hydraulic pressure fore-set (22), the solid platform in top (33), pressure guide box (44), end bracket (55), solid scissors head (66), support column (77), its characterized in that: the engagement tube (11) is connected with and communicated with the hydraulic top column (22), the hydraulic top column (22) penetrates through the inside of the top fixing table (33), the pressure guide box (44) is installed on the upper surface of the bottom bracket (55), the bottom end of the hydraulic top column (22) is connected with the fixed scissor head (66), the support column (77) is vertically welded on the lower surface of the top fixing table (33), the fixed scissor head (66) comprises a scissor opening (aa1), an edge fixing angle (aa2), a stretching strip (539aa 7) and an outer pocket shell (aa4), the upper surface of the scissor opening (aa1) is welded with the lower surface of the outer pocket shell (aa4), the edge fixing angle (aa2) abuts against the outer surface of the stretching strip (aa3), the stretching strip (3) is installed inside the outer pocket shell (aa4), the edge fixing angle (aa2) comprises an inner stable abutting angle (m1m), an outer stable angle (m2m), an outer stable angle (m 3), an outer stable point (36964) and an inner stable point (m) is embedded in the outer pocket shell (399638), an adhesion point (m4m) is installed at the bottom end of the outer fixed shell (m3m), a contact angle (m2m) is attached to the outer surface of the outer fixed shell (m3m), the contact angle (m2m) comprises a reinforced core (tt01), a top pointed end (tt02), a side supporting edge (tt03) and an epitaxial layer (tt04), the reinforced core (tt01) is embedded into the epitaxial layer (tt01), the side supporting edge (tt01) is attached to the outer surface of the top pointed end (tt01), the adhesion point (m4 01) comprises a top convex arc (r 01), a curved supporting layer (r 01), a saucer ball (r 01), a thin sticky head (r 01) and a sticky layer (r 01), the top convex arc (r 01) is attached to the upper surface of the curved supporting layer (r 01), the thin sticky layer (r 01) is installed at one end, far away from the top convex arc (r 01), the thin sticky layer (r 01) is embedded into the curved supporting layer (01), and the thin sticky layer (01) is embedded into the upper surface of the curved supporting layer (01 h), and the thin sticky layer (01) comprises a top concave layer (h) and a bottom concave layer (01), a concave layer (h) and a concave layer (h), The swing direction strip (hh40) and the suction mouth arc (hh50), the bottom pocket layer (hh30) is embedded inside the fairing edge (hh10), the top support arc (hh20) is connected with the fairing edge (hh10), the suction mouth arc (hh50) is installed inside the bottom pocket layer (hh30), the swing direction strip (hh40) is abutted against the inner wall of the bottom pocket layer (hh30), the internal stable angle (m1m) comprises a reverse expansion block (zz1), an internal angle (zz2) and a buffer ball (zz3), the internal angle (zz2) is attached to the outer surface of the reverse expansion block (zz1), and the reverse expansion block (zz1) is connected with the buffer ball (zz 3);

placing a rubber body to be cut on the upper surface of a bottom bracket (55), operating a pressure guide box (44) through the outside, wherein an engaging pipe (11) which is connected together can drag a hydraulic top column (22) to drive a fixed shear head (66) to press downwards, so that an edge fixing angle (aa2) and a shear port (aa1) on the fixed shear head (66) firstly abut against the upper surface of an object, an adhering point (m4m) is adhered to the upper surface of the object, a suction port arc (hh50) is adsorbed on the surface of the object, when the card support ball (r3) is adsorbed, the whole body is bent, the adhesive layer (r5) and a thin adhering head (r4) abut against the upper surface of the object to protect the object, the suction port arc (hh20) assists in buffering and returning, when the card support ball (r3) is integrally adsorbed, the adhesive layer (r5) and the thin adhering head (r4) abut against the upper surface of the convex arc (r1), the thin arc (r 637) and the protective layer (r 5392) is also adsorbed between the external convex layer (r 632), when the outer fixed shell (m3m) is connected in an adsorption mode through the adhesive point (m4m) at the bottom end, the inner inverted expansion block (zz1) can stabilize the approximate position of the whole body, the inner corner (zz2) protects the corner angle, the buffer ball (zz3) is connected stably and cannot run out, the whole outer fixed shell (m3m) is adsorbed against the outer surface, the cut opening (aa1) is cut downwards continuously, the contact angle (m2m) is stressed against the stretching (3), the force of the extending core (tt01) connecting two sides is enabled to enable the top tip (tt02) to be extruded and opened at the front end, the side supporting edge (tt03) protects the top tip (737tt 3), the whole body can extrude the stretching (aa3), and the cut opening (aa1) moves downwards smoothly.

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