RU2037582C1 - Thread feed system of flat knitting machine - Google Patents

Abstract

FIELD: manufacture of knitting machines. SUBSTANCE: bobbin holder is made in form of chamber whose upper face is located between plane of needle bar edges and rails of thread guides of flat knitting machine and provided with control means of thread and thread feed. EFFECT: improved servicing conditions. 3 cl, 5 dwg

Description

 The invention relates to knitting engineering, and in particular to filing systems of flat knitting machines using a large number of threads with variable consumption in the knitting process.

 The purpose of the invention is the improvement of service conditions.

 Figure 1 shows the filament feeding system in the working position near the flat knitting machine, side view; in Fig.2 the actual filament system, a perspective view; figure 3 device control thread, front view; figure 4 device control thread, side view; figure 5 diagram of the drive of the active thread tension controllers.

 The filament feeding system of the flat knitting machine is made in the form of a chamber consisting of a core 1 (Fig. 1, 2), on the back wall 2 of which bobbins 4 are installed on the bobbin holders 3. The side walls 5 of the core are made transparent. The front wall of the chamber is formed by two transparent swivels around the vertical axes of the plate 6 with eyes 7 for withdrawing the thread from the bobbins 4 during winding. The upper side of the chamber face 8 is located between the plane of the baffle edges of the machine’s needle bar and the yarn guide rails. On the front side of the face 8 there are devices 9 for controlling the thread (Fig.2-4). Each of them has a box-shaped case 10, on the front panel of which there is an input eye 11 for a thread, a thread tensioner (handle) 12 with one plate 13 and a knotter 14 (handle) with one plate 15. Conical drums 16 of active tension regulators are mounted on the upper side of the cover threads and a group of thread guides (eyes) 17, through which the threads are guided to the thread guides 18 of the flat knitting machine 19.

 On the lower side of the face 8 there is a drive of thread feeding drums 16, consisting of an electric motor 20 (Fig. 5), drive 21 and tension pulleys 22, an endless belt 23, pulleys 24 rigidly fixed on the axes of the drums 16, and pressure rollers 25 controlled by levers 26 electromagnets 27.

 The frame 1 is mounted on two wheels 28 mounted on the rear wall 2, and two supports 29 located at its front corners. On the front of the skeleton 1, handles (handles) 30 are rigidly fixed.

 The electrical circuits of the filament feeding system are connected to the control system of the machine via sockets 31 located between the camera and the machine, which are disconnected when the camera moves.

 The device operates as follows.

 On the bobbin holders of the rear wall 2 of the chamber, bobbins 4 are placed, the threads from them are threaded into the eyes 7 of the rotary plates 6, and each thread is threaded into the eye, located on the geometric axis of the corresponding bobbin. Next, the thread line passes through the inlet 11 of the corresponding device 9 for controlling the thread into the thread hole of the thread tensioner 12 between the plate 13 and the front wall of the housing 10, under the plate 15 of the knotter 14 and then wound on the drum 16 of the active thread tension regulator. At the output of the drum 16, the thread is threaded into the corresponding eye 17 and then into the eye of the yarn guide 18 of the flat knitting machine.

 The electric motor 20 is turned on and the endless belt 23 is driven by the pulley 21, then, in accordance with the knitting program, one of the electromagnets 27 is turned on, the roller 25 presses the belt 23 against the pulley 24, which is rigidly connected to the drum 16 and rotates it. The number of turns of thread on the drum 16 and the force of the thread tensioner 12 are selected so that at the output of the active regulator the thread tension is minimally necessary for the operation of laying. The direction of rotation of the drums 16 is usually set clockwise for easy threading with the right hand. The side walls 5 of the chamber and the rotary plates 6 are made transparent for convenient visual control of the amount of thread on the bobbins 4. The location of the bobbins on horizontal bobbin holders prevents arbitrary stalling of the threads and makes it unnecessary to use devices to combat this phenomenon. Plate 6 when changing the bobbins 4 or refueling the threads open inside the chamber, which prevents the removal of excess bobbins 4 and entanglement of the threads. In the working position, the plates 6 are fixed with magnetic latches. The handles 30, determining the dimensions of the chamber, leave the plates 6 in the recess and thereby protect the threads coming from the eyes 7 to the input eyes 11 of the thread control devices from accidental exposure to humans. All controlled organs of the device for controlling the thread are extended to its front panel, and the width of the housing 10 is selected such that when the thread control devices are installed in one row (Fig. 2), the handles 12 and 14 of adjacent devices are far enough apart for easy adjustment . The use of a thread tensioner 12 with one plate 13 and a knotter 14 with one plate 15 in the device for controlling the thread facilitates threading of the thread in them, since the usual design of these mechanisms requires additional visual inspection to prevent the thread from getting into the gap between the working bodies of the mechanisms and front panel.

 The top cover of the camera is framed on all four sides by protruding elements: in front of a row of devices for controlling the thread, on the sides with horizontal parts of the handles 30 and at the back with a plate with eyes. The drums 16 are thus in a recess, which protects the threads from accidental exposure to a person, and the hands of a person from touching with quick drums 16. The use of an active thread tension regulator in the system allows you to enter the thread into the machine with a certain tension and maintain its value during machine operation with high accuracy regardless of the initial tension on the reel. To carry out repair operations on a flat knitting machine 19, sometimes it becomes necessary to remove the knitting carriage, for it it is necessary to move the system away from the machine. The weight of the system when all bobbins 4 are installed on it may exceed 100 kg. To facilitate the movement of the system at the corners of the rear wall of the camera, wheels are installed, and handles 30 are provided on the front side, holding on to slightly raise the front side of the camera to tear off the supports 29 from the floor. The center of gravity of the camera is shifted to the rear wall, and the main load falls on wheels. This facilitates the movement of the device. The design of the filament feeding system for a flat knitting machine in the form of a stand-alone chamber, in which the thread line runs inside the chamber and along its outer walls, has the following advantages. Above the working area of the machine in this case, there is only a piece of thread from the output eye 17 of the system to the yarn guide. Such a threading of the thread virtually eliminates the ingress of fluff, bonfires, individual fibers, etc., streaming from the threads during the passage through the eyelets and locks of the knitting carriage during the passage of the eyes, which also becomes half as much. This technical solution can significantly reduce the time for cleaning the machine, and cleaning the flat bottom, walls and lid of the chamber is not difficult.

 This filing system allows you to reduce the time for changing bobbins, threading, cleaning and repair of the machine. It also provides a thread tension at the output of the thread feeding drum equal to 2-4 g and maintains its stable value, which reduces the number of breaks.

Claims (3)

 1. SYSTEM OF THREAD FEEDING OF A FLAT BINDING MACHINE, including creel creamer with bobbin holders, thread control devices by the number of bobbin holders, thread feeding mechanisms with a drive device, thread conductive headset, characterized in that, in order to improve service conditions, the creel is made in the form of a camera, the upper face of which is located between the plane of the breaker edges of the needle bar and the rails of the yarn guides of the knitting machine, bobbin holders are mounted on the rear inner wall of the chamber, the front wall is made in the form of two turns tnyh plates with eyes for yarn, with the yarn monitoring device mounted on the top face of the chamber.  2. The system according to claim 1, characterized in that the thread feeding mechanisms are made in the form of conical drums with drive pulleys and a drive in the form of an endless belt and a controlled pinch roller.  3. The system according to claims 1 and 2, characterized in that the camera is equipped with wheels, handles for transportation and electrical connectors for connection with the control system of a flat knitting machine.

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