SE521115C2 - Snowblow with clutches triggered by overload - Google Patents

Abstract

The snow plow incorporates safety clutches, comprising of a spring-loaded hollow shaft (5) of a feeder worm (4), a coupling ring (3) on the worm, and a counter ring (1) on the drive shaft (16). All parts act together during overloads, to interrupt the power flux to the feeder worm. The worm has 2 - 8, pref. 4 - 6 rotating feeder blades (8).

Description

10 15 20 25 30 521 115 2 safety device from the rotor to the feed coil. The safety device here is a breaker coupling, which is formed by the flanges of the rotor and the feed screw and by the breaker pin that connects them. In an overload situation, the switch pin slides off and the feed coil stops rotating while the transmission shaft is still rotating. This does not reach the foreign object that has ended up in the snow thrower up to the rotor and there is time to stop the snow thrower before it breaks.

However, the solution described above is not satisfactory from the user's point of view. When the breaker pin comes off, the entire snow thrower must first be emptied and then one or more new breaker pins must be installed. In addition, the choice of the breaker pin, in other words the adjustment of the sensitivity of the safety device is inaccurate. A too thick breaking pin does not go off fast enough, whereby the snow thrower has time to break. On the other hand, a too thin break pin can go off even unnecessarily.

The object of this invention is to provide a snow thrower in which the rotor feeding device remains in the overload situation, but continues its normal function after the obstacle or overload has been removed. The characterizing features of this invention are set out in the appended claims.

The snow thrower according to the invention is light, and due to the safety device quick to bring back to its functionality after various overload situations. In addition, it is easy to adjust the sensitivity of the safety device. The snow thrower is reliable and its structure is no more complicated than before.

In the following, the invention is described with reference to the accompanying figures, which show some applications of a snow thrower according to the invention, wherein Fig. 1 shows a snow thrower according to the invention coupled to a tractor, seen from the side, Figs. Fig. 2 shows the rotor of a snow thrower according to the invention and its transmission shaft and feed coil, seen from the side, Fig. 3 shows a partial enlargement of the rotor in Fig. 2 by a gear tooth, Fig. 4 shows the whole of Fig. 2, seen from the tractor.

Figure 1 shows a snow thrower 10 according to the invention, which is connected to the three-point coupling 18 of the tractor 17. The power take-off is coupled to the transmission shaft 16 of the rotor 15 (not shown). In addition to the sling part 14, the snow thrower 10 also comprises the plowing wings 11 and the outlet guide 12 for the snow jet. When the tractor 17 pulls the snow thrower 10, the plowing blades 11 collect snow from a large width to the sling part 14. The rotor 15 throws the snow from the sling part 14 to the desired side of the snow throw 10 via the snow outlet opening 13 and the outlet guide.

The transmission shaft 16 of the rotor 15 is supported in the snow thrower 10 at both ends. Figure 2 shows in more detail the rotor 15 according to the invention, which is shown separately. The rotor 15 also comprises the throwing vanes 19 and. the feed coil 4. According to the invention, there is on the transmission shaft 16 an axially movable tube shaft 5, to which the tractor-side end of the feed coil 4 is attached. At the other end of the feed coil 4 there is the coupling ring 3 and on the transmission shaft 16 an opposing ring 1, which have been arranged to cooperate to release the power transmission of the feed coil 4 in overload situations. The tube shaft 5 is also spring-loaded, so that sufficient coupling force arises between the opposite ring 1 and the coupling ring 3. 10 15 20 25 30 n., ..> 1 - '~ ~ ~ ~ a ».v u» o. A .u -u, f. N »-n n; v v v __. , 1, n. u v. = F.. ~ »V. , 1. _. f * 4 To provide the spring load 5 of the tube shaft 5, a spring package 6 is arranged on the transmission shaft 16. The adjustable spring package 6 is arranged between the pressure plate fixed in the transmission shaft 16 and the flange 9 which supports the feed coil 4. The spring package 6 constantly presses the tube shaft 5 and the feed coil 4 attached thereto against the rotor 15. Hereby the coupling ring 3 and the opposite ring J. abut against each other in the normal position. The coupling ring 1 of the transmission shaft 16 further comprises one or more grooves 2 '. The coupling ring 3 of the feed coil 4 correspondingly comprises the gear teeth 2 which fit these grooves 2 '. In this way, the grooves 2 'and the gear teeth 2 transmit torque from the rotor 15 to the feed coil 4. In order that the gear tooth 2 would not get stuck in the groove 2' in the overload situation, there is a clearance angle in the gear tooth 2 and opposite insert 2 '. The size of the clearance angle is 300 - 600, most preferably 40 ° - 50 °. Figure 3 shows in more detail a gear rack 2 and the opposing insert 2 '. The number of cutters and gear teeth then varies with the snow thrower and. the gear tooth sizes change.

In normal use, the rotor and the feed coil thus rotate at the same speed while the coupling ring and the opposite ring abut each other. If the snow thrower begins to drain or if a large object enters the snow thrower, the feed coil moves axially away from the rotor. This interrupts the power transmission between the rotor and the feed coil, whereby the feed coil stops. A clutch interruption caused by a large amount of snow prevents the rotor from becoming clogged by the feed spiral not forcing snow into the rotor. Without the coupling, the tube shaft and at the same time the entire feed coil stays in place while the rotor and its transmission shaft rotate. You can continue throwing when the snow thrower has become empty again and when the gear teeth have been reconnected to their grooves. Without the safety device, the rotor could also be blocked, and usually the snow thrower must then be stopped and the rotor cleaned by hand, which is slow and laborious.

When a large object ends up in the snow thrower, it usually first hits the feed spiral and wedges between it and the plowing wings. Even then, the feed coil moves away from the rotor.

At the same time, the coupling between the coupling ring and the opposite ring and. the feed coil stops before the object reaches the rotor. The user usually has time to stop the snow thrower at the same time before injuries occur. When the object has been removed from the snow thrower, the snow thrower is again ready for use because the spring package again presses the coupling and. the opposing rings against each other.

The feed coil shown in Figures 2 and 4 also includes two separate feed vanes 8 which improve the power of the feed coil 4. The feed vanes 8 can rotate freely around the feed coil 4, whereby they do not break easily. The feed vanes 8 position themselves in the working position according to Figure 4 by the centrifugal force while the feed coil 4 rotates normally. If the feed wing hits a foreign object in the sling, it can turn to another position without breaking. The number of feed wings is two to eight, preferably four to six.

Figure 4 'also shows * the throwing vanes 19 of the rotor 15, which only cover the outer ring of the rotor 15. This causes the snow thrower to start rotating even when it is full, as the rotor does not become clogged. There are only five throwing wings 19 here, but practical experiments have shown that, for example, ten throwing wings work well.

An even blowing of the snow and a minor strain on each n-v 521 115 6 individual throwing wing is obtained with several throwing wings. Then you can also use a greater throwing speed than before.

The diameter of the snow thrower rotor 15 in Figures 1 - 4 is approximately 800 mm and it is used by a tractor with an output of approximately 100 kW. With a stepless regulation of the rotor's rotational speed, the ejection distance can be regulated within the range 0 - 10 m.

Claims (6)

521 115 7 PATENT REQUIREMENTS Snow thrower (10), comprising a snow thrower part (14) provided with rotor (15), plowing blades (1 1) for guiding the snow into the sling part (14), in the sling part an outlet opening (13) and to the connected outlet control ( 12) to steer to the side the snow that the rotor (15) throws out, a feed coil (4) arranged on the transmission shaft (16) of the rotor (15) for feeding the snow to the rotor (15), which feed coil (4) is connected to a transmission shaft (16) by means of couplings triggered by overload, and which couplings comprise a tube shaft (5) connected to the feed coil (4), the tube shaft (5) being spring-loaded and moving axially on the transmission shaft (16), characterized in that said couplings further comprise a coupling ring (3) in the feed coil (4) and an opposing ring (1) formed on the transmission shaft (16) inside the rotor (15), and that said tube shaft (5), the coupling ring (3) and the opposing ring (1) has been arranged to cooperate to release food the feed coil (4) in an overload situation and reconnect the feed coil (4) after said overload situation. Snow thrower according to Claim 1, characterized in that the feed coil (4) is supported by a shaft (9), that a pressure plate (7) is fixed in the transmission shaft (16), and that on the transmission shaft (16) between the shaft (9) and the pressure plate (7) is provided with a spring package (6) for spring-loading the pipe shaft (5) which presses the coupling ring (3) against the opposing ring (1). Snow thrower according to claim 1 or 2, characterized in that the counter-ring (1) of the transmission shaft (16) comprises grooves (2 ') and that the coupling ring (3) of the feed coil (4) comprises gear teeth (2) which fit these grooves. Snow thrower according to claim 3, characterized in that the gear rack (2) and the opposite groove (2 ') have a clearance angle, the size of which is 300-600, most preferably 400-500. Snow thrower according to one of Claims 1 to 4, characterized in that the feed spiral (4) consists of rods, which comprise the feed wings (8) which can rotate freely around the rod. Snow thrower according to claim 5, characterized in that the number of running wings (8) is 2 - 8, preferably 4 - 6 pieces.