CN216758300U - Move sword edge milling machine - Google Patents

Abstract

The utility model provides a movable cutter edge milling machine which comprises an edge milling frame, a movable cutter mechanism and a static cutter mechanism, wherein the movable cutter mechanism is installed on one side of the top of the edge milling frame, the movable cutter mechanism is used for feeding copper materials for cutting scraps, the static cutter mechanism is arranged on one side of the movable cutter mechanism, the static cutter mechanism is installed on the other side of the top of the edge milling frame, the static cutter mechanism is used for feeding the copper materials for edge milling, and the static cutter mechanism and the movable cutter mechanism are arranged in parallel. The movable cutter edge milling machine is simple in structure and reasonable in design, edge milling of a casting blank can be achieved continuously through the back-and-forth reciprocating motion of the static cutter mechanism, chips can be cut continuously on the casting blank through the movable cutter mechanism, chip breaking is achieved, the quality of a modified copper rod is greatly improved, the effect of guaranteeing the quality of a product is achieved, and the movable cutter edge milling machine is economical, practical and easy to popularize.

Description

Move sword edge milling machine

Technical Field

The utility model belongs to the technical field of copper material edge milling equipment, and particularly relates to a movable blade edge milling machine.

Background

In the production process, an edge milling machine is often adopted to mill two opposite long edges of the steel plate and the two long edges are required to be ensured to be parallel, but in the actual production process, some problems exist: the quality of the copper rod is greatly affected by the edge milling condition of the casting blank, and scraps after edge milling can be stuck on the copper blank to enter a rolling mill to be rolled together, so that scars can be formed on the surface of the rolled copper rod, the quality of the copper rod is affected, and the copper rod is not favorable for enterprises to sell the copper rod.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present invention is directed to a moving blade edge milling machine to solve the problems of the prior art.

In order to achieve the purpose, the technical scheme of the utility model is realized as follows:

the utility model provides a move sword edge milling machine, includes the edge milling frame, moves sword mechanism and quiet sword mechanism, edge milling frame top one side installation moves sword mechanism, moves sword mechanism and is used for giving the copper product chip breaking, moves sword mechanism one side and is equipped with quiet sword mechanism, and quiet sword mechanism installs to edge milling frame top opposite side, and quiet sword mechanism is used for giving the copper product edge milling, and quiet sword mechanism with move sword mechanism parallel arrangement, edge milling frame, move sword mechanism, quiet sword mechanism equal signal connection to controller.

Further, the edge milling frame comprises an edge milling body, a conveying belt, a transferring cylinder and a photoelectric in-place sensor, the cylinder is fixedly mounted above the edge milling body, a telescopic rod of the transferring cylinder is fixedly connected to the conveying belt, the conveying belt is used for conveying copper materials, the bottom of the conveying belt is slidably connected to the edge milling body, the two sides of the conveying belt are respectively provided with the photoelectric in-place sensor, the movable cutter mechanism and the static cutter mechanism from left to right, the photoelectric in-place sensor is used for sensing the position of the copper materials, the movable cutter mechanism and the static cutter mechanism are both mounted at the top of the edge milling body, and the photoelectric in-place sensor, the conveying belt, the driving motor and the transferring cylinder are all connected to the controller through signals.

Furthermore, move the sword mechanism and include 2 and move the sword unit, 2 move the sword unit symmetry and set up in the conveyer belt both sides, move the sword unit and include moving the cutter, move the knife rest and move the sword cylinder, move the knife rest bottom and install to milling limit body on, move knife rest one side fixed connection to and move the cutter, move knife rest opposite side fixed connection to and move the telescopic link of sword cylinder, move sword cylinder bottom and fix to milling limit body one side, move sword cylinder signal connection to controller.

Further, move the knife rest including moving knife base, mount body and moving the knife guide arm, move knife guide arm one end fixed connection to and move the knife base, the other end slides and cup joints to mount body one side bottom, mount body bottom sliding connection to move the knife base, mount body one side top fixed connection to move the telescopic link of knife cylinder, mount body opposite side fixed mounting moves the cutter.

Further, quiet sword mechanism includes 2 quiet sword units, and 2 quiet sword unit symmetries set up in the conveyer belt both sides, quiet sword unit includes quiet cutter, quiet knife rest and quiet sword cylinder, quiet knife rest bottom is installed to the edge milling body on, quiet knife rest one side fixed connection to quiet cutter, the telescopic link of quiet sword cylinder of quiet knife rest opposite side fixed connection to, quiet sword cylinder bottom is fixed to edge milling body one side, quiet sword cylinder signal connection to controller.

Furthermore, the controller is an industrial personal computer, the model of the controller is IPC-610L, the models of the moving cylinder, the moving blade cylinder and the static blade cylinder are all MOB32, and the model of the photoelectric in-place sensor is OD1-B100H50A 15.

Compared with the prior art, the movable blade edge milling machine has the following advantages:

(1) the movable cutter edge milling machine is simple in structure and reasonable in design, continuous edge milling of a casting blank can be realized through the back-and-forth reciprocating motion of the static cutter mechanism 3, continuous cutting of the casting blank can be realized through the movable cutter mechanism 2, and chip breaking is realized.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate an embodiment of the utility model and, together with the description, serve to explain the utility model and not to limit the utility model. In the drawings:

FIG. 1 is a top view of the overall structure of a movable edge milling machine according to an embodiment of the present invention;

fig. 2 is a schematic view of an edge milling frame of a movable edge milling machine according to an embodiment of the utility model.

Description of reference numerals:

1. milling an edge frame; 11. milling the edge body; 12. a conveyor belt; 13. a cylinder is adjusted; 2. a movable cutter mechanism; 21. a moving blade unit; 211. moving the cutter; 212. a movable knife rest; 2121. a moving blade base; 2122. a fixing frame body; 2123. a movable knife guide rod; 213. a moving blade cylinder; 3. a stationary knife mechanism; 31. a stationary knife unit; 311. a stationary cutter; 312. a stationary knife holder; 313. a stationary knife cylinder.

Detailed Description

It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict.

In the description of the present invention, it is to be understood that the terms "central," "longitudinal," "lateral," "upper," "lower," "front," "rear," "left," "right," "vertical," "horizontal," "top," "bottom," "inner," "outer," and the like are used in the orientations and positional relationships indicated in the drawings, which are based on the orientations and positional relationships indicated in the drawings, and are used for convenience in describing the present invention and for simplicity in description, but do not indicate or imply that the device or element so 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 present invention. Furthermore, the terms "first", "second", etc. are used for descriptive purposes only and are not to be construed as indicating or implying relative importance or implicitly indicating the number of technical features indicated. Thus, a feature defined as "first," "second," etc. may explicitly or implicitly include one or more of that feature. In the description of the present invention, "a plurality" means two or more unless otherwise specified.

In the description of the present invention, it should be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, e.g., as meaning either a fixed connection, a removable connection, or an integral connection; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meaning of the above terms in the present invention can be understood by those of ordinary skill in the art through specific situations.

The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

As shown in fig. 1-2, a move sword edge milling machine, including milling limit frame 1, moving knife mechanism 2 and quiet sword mechanism 3, 1 top one side installation of milling limit frame moves knife mechanism 2, moves knife mechanism 2 and is used for giving the copper product chip breaking, moves knife mechanism 2 one side and is equipped with quiet sword mechanism 3, and quiet sword mechanism 3 is installed to milling limit frame 1 top opposite side, and quiet sword mechanism 3 is used for giving the copper product edge milling, and quiet sword mechanism 3 and move knife mechanism 2 parallel arrangement, milling limit frame 1, moving knife mechanism 2, quiet sword mechanism 3 equal signal connection to controller. This move sword edge milling machine, simple structure, reasonable in design can realize not stopping milling the limit to the casting blank through quiet sword mechanism 3's reciprocating motion all around, can realize not stopping carrying out the smear metal to the casting blank through moving sword mechanism 2, realizes the chip breaking, reforms transform back copper pole quality like this and has very big promotion, plays the effect of guaranteeing product quality, economical and practical moreover, easily promotes.

Milling frame 1 is including milling limit body 11, conveyer belt 12, transfer cylinder 13 and photoelectricity sensor that targets in place, 11 top fixed mounting of milling limit body transfers cylinder 13, transfers the telescopic link fixed connection to conveyer belt 12 of cylinder 13, and conveyer belt 12 is used for conveying the copper product, and conveyer belt 12 bottom sliding connection is to milling limit body 11, and 1 both sides of conveyer belt are equipped with photoelectricity sensor, moving knife mechanism 2, quiet sword mechanism 3 that target in place respectively from a left side to the right side, and photoelectricity sensor that targets in place is used for responding to the position of copper product, and moving knife mechanism 2, quiet sword mechanism 3 all install to milling limit body 11 top, photoelectricity sensor, conveyer belt 12's driving motor, the equal signal connection of transfer cylinder 13 that target in place to the controller. In this embodiment, conveyer belt 12 is prior art, transfer cylinder 13 and be used for adjusting for conveyer belt 12 position, and the cross section of conveyer belt 12 can be the rectangle structure in addition, also can be the triangle-shaped structure to be convenient for be applicable to the copper product structure of different shapes.

Move knife mechanism 2 and include 2 and move knife unit 21, 2 move knife unit 21 symmetry and set up in conveyer belt 12 both sides, move knife unit 21 including move cutter 211, move knife rest 212 and move knife cylinder 213, move knife rest 212 bottom and install to milling limit body 11 on, move knife rest 212 one side fixed connection to and move knife 211, move knife rest 212 opposite side fixed connection to move the telescopic link of knife cylinder 213, move knife cylinder 213 bottom and fix to milling limit body 11 one side, move knife cylinder 213 signal connection to controller. In the time of in-service use, when the copper product conveys on conveyer belt 12, after photoelectric in-place sensor response copper product's the position and with signal transmission to the controller, controller control moves sword cylinder 213 and starts, move the flexible drive of the telescopic link of sword cylinder 213 and move sword frame 212 and slide around on milling edge body 11, move sword frame 212 and slide around on milling edge body 11 and drive driving cutter 211 to the copper product seesaw on the conveyer belt 12, thereby make the copper product that cutter 211 can convey on conveyer belt 12 on every certain distance just cut the vestige, when subsequent stationary knife mechanism 3 mills the limit to the copper product of being convenient for, the copper bits that it milled can not glue on the copper product, thereby avoid the phenomenon that the copper pole surface that follow-up rolling came out has the scar.

The movable knife holder 212 comprises a movable knife base 2121, a fixed mount body 2122 and a movable knife guide rod 2123, one end of the movable knife guide rod 2123 is fixedly connected to the movable knife base 2121, the other end of the movable knife guide rod is slidably sleeved at the bottom of one side of the fixed mount body 2122, the bottom of the fixed mount body 2122 is slidably connected to the movable knife base 2121, the top of one side of the fixed mount body 2122 is fixedly connected to the telescopic rod of the movable knife cylinder 213, and the movable knife 211 is fixedly installed at the other side of the fixed mount body 2122. In this embodiment, the movable blade holder 212 is used to support the movable blade 211, and the movable blade cylinder 213 drives the holder body 2122 to slide back and forth on the movable blade guide rod 2123, so as to realize the back and forth movement of the movable blade 211.

Quiet sword mechanism 3 includes including 2 quiet sword units 31, and 2 quiet sword unit 31 symmetries set up in conveyer belt 12 both sides, quiet sword unit 31 includes quiet cutter 311, quiet knife rest 312 and quiet sword cylinder 313, install to milling edge body 11 on quiet knife rest 312 bottom, quiet knife rest 312 one side fixed connection to quiet cutter 311, quiet knife rest 312 opposite side fixed connection to quiet sword cylinder 313's telescopic link, quiet sword cylinder 313 bottom is fixed to milling edge body 11 one side, quiet sword cylinder 313 signal connection to controller. The stationary knife rest 312 is the same as the moving knife rest 212 in structure, in this embodiment, the stationary knife mechanism 3 is used for milling edges of the copper material, when the copper material is conveyed to the position of the stationary knife mechanism 3 on the conveyor belt 12, the controller controls the start of the stationary knife cylinder 313 (the command for controlling the start of the stationary knife cylinder 313 can be set by the controller after the controller receives a feedback signal sent by a photoelectric in-place sensor to the controller, so that the subsequent start of the stationary knife cylinder 313 is facilitated), the telescopic rod of the stationary knife cylinder 313 extends the stationary knife rest 312 to move towards the copper material direction (the initial state of the telescopic rod of the stationary knife cylinder 313 is a telescopic state), so that the stationary knife 311 performs edge milling operation on the copper material, and the next rolling process is performed until the edge milling of the copper material is completed.

The controller is an industrial personal computer, the model of the controller is IPC-610L, the models of the transfer cylinder 13, the moving knife cylinder 213 and the static knife cylinder 313 are all MOB32, and the model of the photoelectric in-place sensor is OD1-B100H50A 15.

This application has increased and has moved knife mechanism 2 through the transformation to the edge milling machine, plays the purpose that cuts off the edge milling bits. The movable knife mechanism 2 comprises two sets of movable knives 211, a movable knife rest 212, a movable knife cylinder 213 and the like, and the movable knife cylinder 213 drives the knife rest 212 and the movable knife 211 to reciprocate back and forth on the edge milling body 11, so that the casting blank is continuously cut, and the chip breaking is realized. The quality of the copper rod after transformation is greatly improved, and the quality of the product is ensured to a certain extent.

A working principle of a movable blade edge milling machine is as follows:

when the position of the conveying belt 12 is adjusted, a worker manually starts the controller, the controller controls the actuating cylinder 13 to start working, and the telescopic rod of the actuating cylinder 13 stretches and stretches the belt so as to adjust the left position and the right position of the conveying belt 12;

during actual edge milling, the controller controls a driving motor and a photoelectric in-place sensor of the conveyor belt 12 to start working, the conveyor belt 12 conveys the copper material to the edge milling body 11, after the photoelectric in-place sensor senses the position of the copper material, a signal is sent to the controller, the controller controls the movable knife cylinder 213 to start, a telescopic rod of the movable knife cylinder 213 stretches and retracts to drive the movable knife rest 212 to slide back and forth on the edge milling body 11, the movable knife rest 212 slides back and forth on the edge milling body 11 to drive the movable knife 211 to move back and forth on the copper material on the conveyor belt 12, and therefore the movable knife 211 can cut traces on the copper material conveyed on the conveyor belt 12 at intervals;

when the copper material is conveyed to the position of the static knife mechanism 3 on the conveyor belt 12, the controller controls the static knife cylinder 313 to start (after a command for controlling the start of the static knife cylinder 313 can be sent to the controller by the controller after the controller receives a feedback signal sent by the photoelectric in-place sensor, a set delay instruction is convenient for the start of the subsequent static knife cylinder 313, and the subsequent static knife cylinder 313 can also be started at the same time with the photoelectric in-place sensor), the movable knife rest 312 is extended by the telescopic rod of the static knife cylinder 313 to move towards the copper material (the initial state of the telescopic rod of the static knife cylinder 313 is a telescopic state), so that the static knife 311 carries out edge milling operation on the copper material until the edge milling of the copper material is finished, and the next rolling procedure is carried out.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the utility model, and any modifications, equivalents, improvements and the like that fall within the spirit and principle of the present invention are intended to be included therein.

Claims (6)

1. The utility model provides a move sword edge milling machine which characterized in that: including milling limit frame (1), moving knife mechanism (2) and quiet sword mechanism (3), mill limit frame (1) top one side installation and move knife mechanism (2), move knife mechanism (2) and be used for the copper product chip breaking, move knife mechanism (2) one side and be equipped with quiet sword mechanism (3), quiet sword mechanism (3) are installed to milling limit frame (1) top opposite side, and quiet sword mechanism (3) are used for the copper product milling limit, and quiet sword mechanism (3) and move knife mechanism (2) parallel arrangement, mill limit frame (1), move knife mechanism (2), the equal signal connection of quiet sword mechanism (3) to the controller.

2. The moving blade edge milling machine according to claim 1, characterized in that: milling frame (1) including milling body (11), conveyer belt (12), mobilize cylinder (13) and photoelectricity sensor that targets in place, milling body (11) top fixed mounting mobilizes cylinder (13), mobilizes telescopic link fixed connection to conveyer belt (12) of cylinder (13), and conveyer belt (12) are used for conveying the copper product, and conveyer belt (12) bottom sliding connection is to milling body (11), and conveyer belt (12) both sides are equipped with photoelectricity sensor, moving knife mechanism (2), quiet sword mechanism (3) that targets in place respectively from a left side to the right side, and photoelectricity sensor that targets in place is used for responding to the position of copper product, moves knife mechanism (2), quiet sword mechanism (3) and all installs to milling body (11) top, photoelectricity sensor, conveyer belt (12) that targets in place, the driving motor of transferring cylinder (13) equal signal connection to controller.

3. The moving blade edge milling machine according to claim 2, characterized in that: move sword mechanism (2) and include 2 and move sword unit (21), 2 move sword unit (21) symmetry and set up in conveyer belt (12) both sides, move sword unit (21) including moving cutter (211), moving knife rest (212) and moving sword cylinder (213), move knife rest (212) bottom and install to milling edge body (11) on, move knife rest (212) one side fixed connection to and move cutter (211), move knife rest (212) opposite side fixed connection to move the telescopic link of sword cylinder (213), move sword cylinder (213) bottom and fix to milling edge body (11) one side, move sword cylinder (213) signal connection to controller.

4. The moving blade edge milling machine according to claim 3, characterized in that: the movable knife rest (212) comprises a movable knife base (2121), a fixed frame body (2122) and a movable knife guide rod (2123), one end of the movable knife guide rod (2123) is fixedly connected to the movable knife base (2121), the other end of the movable knife guide rod is sleeved to the bottom of one side of the fixed frame body (2122) in a sliding mode, the bottom of the fixed frame body (2122) is connected to the movable knife base (2121) in a sliding mode, the top of one side of the fixed frame body (2122) is fixedly connected to a telescopic rod of the movable knife cylinder (213), and the movable knife (211) is fixedly installed on the other side of the fixed frame body (2122).

5. The moving blade edge milling machine according to claim 3, characterized in that: quiet sword mechanism (3) include 2 quiet sword units (31), and 2 quiet sword units (31) symmetry set up in conveyer belt (12) both sides, quiet sword unit (31) are including quiet cutter (311), quiet knife rest (312) and quiet sword cylinder (313), on quiet knife rest (312) bottom was installed to edge milling body (11), quiet knife rest (312) one side fixed connection to quiet cutter (311), the telescopic link of quiet knife rest (312) opposite side fixed connection to quiet sword cylinder (313), and quiet sword cylinder (313) bottom is fixed to edge milling body (11) one side, and quiet sword cylinder (313) signal connection is to the controller.

6. The moving blade edge milling machine according to claim 5, characterized in that: the controller is an industrial personal computer, the model of the controller is IPC-610L, the models of the moving cylinder (13), the moving blade cylinder (213) and the static blade cylinder (313) are all MOB32, and the model of the photoelectric in-place sensor is OD1-B100H50A 15.

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