CN202943670U - Automatic casing cutter - Google Patents

Abstract

The utility model discloses an automatic casing cutter. The automatic casing cutter comprises a feed mechanism, a strainer, a material delivering mechanism, a cutting mechanism and a programmable controller, wherein the feed mechanism comprises a feed disc for arranging a flexible pipe and a motor for driving the feed disc to rotate; the strainer is used for straining the flexible pipe and comprises a first removable stretching pulley and a sensor, the sensor can induct the moved position of the first stretching pulley, and the information is fed back to the programmable controller; and the programmable controller can control the rotation rate of the motor, and the material delivering mechanism is arranged between the strainer and the cutting mechanism. The automatic casing cutter provided by the utility model has the advantages of improving the cutting precision and effectively improving the production efficiency.

Description

Automatic casing cutter

Technical field

The utility model relates to a kind of automatic casing cutter for medical industry cutting woven hose.

Background technology

In the production process of medical transfusion pipe, the woven hose that is used for transfusion is into the flexible pipe of dish, these flexible pipes need to be cut into certain length, the woven hose that just can be made into all size for.

Existing pipe cutting machine comprises roller bearing and cutting part.First the flexible pipe with the one-tenth dish is arranged on roller bearing, constantly rotates into the flexible pipe of dish by artificial swing roller, hose material is supplied with cutting part, thereby complete cutting.But owing to being artificial feed, can't judge accurately the feed demand of cutting part, thereby may produce the inhomogeneous situation of blank.Sometimes again due to the uncertain factor in some production processes, machine breaks down, and the flexible pipe of one-tenth dish can't stop immediately, need manually with hand and its friction, positive, it to be stopped, like this, not only easily make the operator injured, even may affect carrying out smoothly of subsequent job.And the mode of this manual work wastes time and energy, and operating efficiency is low.

The utility model content

The purpose of this utility model is to provide a kind of automatic casing cutter for defects of the prior art, and it has not only improved the accuracy of cutting, and effectively raises production efficiency.

for realizing above-mentioned utility model purpose, the utility model has adopted following technical scheme: a kind of automatic casing cutter, it is characterized in that it comprises: feed mechanism, strainer, feed mechanism, cutting mechanism and Programmable Logic Controller, described feed mechanism comprises for the loading plate that flexible pipe is installed, described feed mechanism comprises that also motor is rotated to drive described loading plate, described strainer is used for the tensioning flexible pipe and comprises movably the first regulating wheel and sensor, described sensor can be sensed the position that described the first regulating wheel moves, and information is fed back to Programmable Logic Controller, described Programmable Logic Controller can be controlled the rotary speed of described motor, described feed mechanism is arranged between described strainer and described cutting mechanism.

In addition, the utility model also proposes following attached technical scheme:

Described loading plate is installed on the motor shaft of described motor, and described motor is threephase asynchronous machine.

Described strainer also comprises the second regulating wheel, and described the second regulating wheel is rotatable to be arranged on the wall of described automatic casing cutter.

Described wall is provided with groove, and described the first regulating wheel can move up and down along described groove.

Described installation of sensors is at the back side of described wall and be grooved photoelectricity, has the infrared induction function.

Described feed mechanism comprises driving wheel and drives the servomotor that described driving wheel is rotated.

The quantity of described driving wheel is two of up and down, and described flexible pipe is sandwiched between two driving wheels.

Described cutting mechanism comprises cutting part and drives the servomotor of described cutting part.

Described cutting part comprises connecting rod and the blade that is driven by described connecting rod.

Described automatic casing cutter also comprises touch-screen, and described touch-screen comprises startup, stops, resetting and suddenly stops four buttons.

Than prior art, the utility model has the advantage of: automatic casing cutter provided by the utility model, by motor-driven feed mechanism being set, being provided with strainer, cutting mechanism and the Programmable Logic Controller etc. of sensor, thereby realized the surface trimming of pipe cutting machine, with the cutting accuracy that improves flexible pipe, the security of production and the efficientibility of realizing production, alleviated the manpower burden.

Description of drawings

Fig. 1 is the schematic perspective view corresponding to the automatic casing cutter of the utility model preferred embodiment.

Fig. 2 is the schematic perspective view of the strainer in Fig. 1.

Fig. 3 is the schematic perspective view of the cutting mechanism in Fig. 1.

The specific embodiment

Below in conjunction with preferred embodiment and accompanying drawing thereof, technical solutions of the utility model are done further nonrestrictive detailed description.

With reference to Fig. 1, corresponding to the automatic casing cutter 1 of the utility model preferred embodiment, be used for the infusion tube (not shown) of medical industry is cut, it comprises feed mechanism 2, strainer 5, feed mechanism 3 and cutting mechanism 9.

Described feed mechanism 2 comprises that loading plate 12 and the motor 21 for the installation flexible pipe is rotated to drive described loading plate 12.Loading plate 12 is installed on the motor shaft 22 of described motor 21.Described motor 21 is threephase asynchronous machine.

With further reference to Fig. 2, described strainer 5 comprises the first regulating wheel 51, the second regulating wheel 52 and sensor 55.Offer a longitudinal fluting 6 on the wall 11 of automatic casing cutter 1, the slide block 58 of wired rail 57 being installed and can being slided up and down along this line rail 57 on the back side 112 of wall 11.Above-mentioned the first regulating wheel 51 is fixedly connected by a bearing pin (not shown) of passing longitudinal fluting 6 with this slide block 58, make like this this first regulating wheel 51 to move up and down in this groove 6 and, this first regulating wheel 51 can rotate in mobile.This second regulating wheel 52 is rotatable to be arranged on wall 11, is positioned at the top of the first regulating wheel 51.Be respectively equipped with several winding slots 53 on this first, second regulating wheel 51,52, and be separately installed with line ball rod 19 at its side, like this from the soft tube winding on loading plate 12 in this first, second regulating wheel 51,52 winding slot 53 and push down the location by above-mentioned line ball rod 19.The grooved photoelectricity of described sensor 55 for having the infrared induction function, corresponding to preferred embodiment of the present utility model, the quantity of this sensor 55 is three, it is fixedly installed in respectively on bracing frame 59 on the back side 112 that is positioned at wall 11.The side of above-mentioned slide block 58 also is equipped with sensing chip 56, and this sensing chip 56 can move along the chute 54 of each sensor 55.

Described automatic casing cutter 1 also comprises Programmable Logic Controller (PLC) (not shown), and this PLC is installed in the casing 10 of automatic casing cutter 1.When above-mentioned sensing chip 56 is moved to the chute 54 of one of them sensor 55 when interior in the drive of the first regulating wheel 51, this sensor 55 can feed back to Programmable Logic Controller with this positional information, then pass through the rotary speed of the described motor 21 of Controlled by Programmable Controller, thereby control the speed of flexible pipe material loading.

Described feed mechanism 3 comprises driving wheel 7 and drives the servomotor 32 that described driving wheel 7 is rotated, and wherein this servomotor 32 is installed on the back side 112 of wall 11, is positioned at the top of bracing frame 59.The quantity of described driving wheel 7 is two of up and down, wherein is positioned at following driving wheel 7 and is driving wheel, is directly controlled by servomotor 32, is driven pulley and be positioned at top driving wheel 7; Described flexible pipe is sandwiched between two driving wheels 7.In addition, pipe box 8 extends between two driving wheels 7 from the second regulating wheel 52 places, until cutting mechanism 9 places, above-mentioned flexible pipe is contained in this pipe box 8.

With further reference to Fig. 3, described cutting mechanism 9 comprises cutting part 91 and drives the servomotor 13 of described cutting part 91, and wherein servomotor 13 is installed on the back side 112 of wall 11, adjacent to the servomotor 32 of above-mentioned driving wheel 7.Described cutting part 91 is installed on the fixed head 15 of described motor 13, and comprises induction pieces 20.This induction pieces 20 is arranged on the motor shaft 14 of servomotor 13, and can be rotated.This cutting part 91 also comprises a pair of cutting plate 18, pair of links 17 and a blade 16.Each connecting rod 17 is connected between cutting plate 18 and induction pieces 20, and this blade 16 is separately positioned on the end of two cutting plates 18, and is two carbide chips that can mutually connect and fit.After servomotor 13 starts, drive induction pieces 20 and be rotated, the anglec of rotation is roughly 25 degree; When induction pieces 20 turned clockwise, two cutting plates 18 were separated from each other, and when induction pieces 20 was rotated counterclockwise, two cutting plates 18 were mutually close, thereby made blade 16 on it bonded to each other and flexible pipe is therebetween cut off.

In addition, above-mentioned automatic casing cutter 1 also comprises touch-screen 34, and described touch-screen 34 comprises startup, stops, resetting and suddenly stops four buttons 36, and controls the operation of whole pipe cutting machine.

To sum up, the course of work of the utility model automatic casing cutter is roughly as follows: start the machine, and its each parts, as all in running order in material loading mechanism 2, strainer 5, feed mechanism 3 and cutting mechanism 9.After cutting mechanism 9 next section of cutting flexible pipes, feed mechanism 3 can will constantly be dragged to cutting mechanism 9 from the flexible pipe on strainer 5, make the constantly rotation and mobile of the first regulating wheel 51, it moves to different positions and can be responded to by corresponding inductor 55, thereby information is fed back to Programmable Logic Controller, then Programmable Logic Controller is controlled the rotary speed of described motor 21 again, thereby automatically controls the speed of flexible pipe material loading.Do not stop periodic duty, until flexible pipe is cut complete like this.So automatic casing cutter of the present utility model has been realized the surface trimming of pipe cutting machine, and improve the cutting accuracy of flexible pipe, the security of production and the efficientibility of realizing production, alleviated the manpower burden.

It is to be noted; above-mentioned preferred embodiment only is explanation technical conceive of the present utility model and characteristics; its purpose is to allow person skilled in the art scholar can understand content of the present utility model and implement according to this, can not limit protection domain of the present utility model with this.All equivalences of doing according to the utility model Spirit Essence change or modify, within all should being encompassed in protection domain of the present utility model.

Claims (10)

1. automatic casing cutter, it is characterized in that it comprises: feed mechanism, strainer, feed mechanism, cutting mechanism and Programmable Logic Controller, described feed mechanism comprises for the loading plate that flexible pipe is installed, described feed mechanism comprises that also motor is rotated to drive described loading plate, described strainer is used for the tensioning flexible pipe and comprises movably the first regulating wheel and sensor, described sensor can be sensed the position that described the first regulating wheel moves, and information is fed back to Programmable Logic Controller, described Programmable Logic Controller can be controlled the rotary speed of described motor, described feed mechanism is arranged between described strainer and described cutting mechanism.

2. automatic casing cutter according to claim 1, it is characterized in that: described loading plate is installed on the motor shaft of described motor, and described motor is threephase asynchronous machine.

3. automatic casing cutter according to claim 1, it is characterized in that: described strainer also comprises the second regulating wheel, described the second regulating wheel is rotatable to be arranged on the wall of described automatic casing cutter.

4. automatic casing cutter according to claim 3, it is characterized in that: described wall is provided with groove, and described the first regulating wheel can move up and down along described groove.

5. automatic casing cutter according to claim 3 is characterized in that: described installation of sensors is at the back side of described wall and be grooved photoelectricity, has the infrared induction function.

6. automatic casing cutter according to claim 1, it is characterized in that: described feed mechanism comprises driving wheel and drives the servomotor that described driving wheel is rotated.

7. automatic casing cutter according to claim 6 is characterized in that: the quantity of described driving wheel is two of up and down, and described flexible pipe is sandwiched between two driving wheels.

8. automatic casing cutter according to claim 1, it is characterized in that: described cutting mechanism comprises cutting part and drives the servomotor of described cutting part.

9. automatic casing cutter according to claim 8 is characterized in that: described cutting part comprises connecting rod and the blade that is driven by described connecting rod.

10. the described automatic casing cutter of according to claim 1 to 9 any one, characterized by further comprising touch-screen, and described touch-screen comprises startup, stops, resetting and suddenly stops four buttons.

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