Do-it-yourself snow plow for tiller

Do-it-yourself blade for a tiller from scrap materials

do-it-yourself, snow, tiller

Tiller shovel video

In the cold winter, many have to manually rake multi-meter snowdrifts to create a path to the gate, to the street or to the utility rooms. And if a person has a garage, then it is necessary to shovel snow from his doors and clear the way to the gate overlooking the street.

A homemade shovel blade for a tiller will help you with this. In addition to the above cases, such a device can be used as a mini bulldozer for clearing the yard, street, field, etc. With a certain skill, you can even transport goods in it.

Many argue that a homemade tiller shovel and a blade are one and the same. In fact, this is not the case, although both mechanisms perform almost the same function. These are two different devices that are completely different from each other.

Blade manufacturing features

It is not difficult to make a blade for the Salyut tiller on your own, and you will have to use a welding machine, an angle grinder and a drill. It is not worthwhile to search for a metal of suitable quality for a long time, because for this you can prepare an ordinary steel barrel, the volume of which is 200 liters.

The container needs to be cut into three equal parts, which will make it possible to obtain three segments, each of which has a curved shape, which is exactly what is required. It is these blanks that will be used to make shovels. Along the contour, two pre-prepared elements must be welded together, which will make it possible to obtain a product whose metal thickness is equal to three millimeters.

This indicator will be enough to ensure the required rigidity of the equipment.

Blade installation

To install the grader, you will have to resort to using brackets mounted on the frame of the power unit used.

Additionally, the blade is attached to the tiller using two rods, which, when inoperative, make it possible to unload the motoblock brackets.

A knife made of a steel plate 850x100x3 mm is attached to the lower horizontal edge of the grader by means of a bolt connection.

Now, after the blade is ready, you need to install it and you can start clearing snow drifts, removing garbage or leveling an earthen area on your site.

A do-it-yourself blade for a tiller is a versatile equipment with which you can perform various works.

And self-production will make it possible to get a multifunctional device adapted specifically to your needs.

In order for the motoblock blade to last as long as possible and resist corrosion, it should be treated with a special primer or protective paint.

The rubber strip attached to the working edge of the shovel should protrude beyond the steel plate.

From a balloon

According to this principle, a dump is made from an old gas cylinder. There is no need to additionally strengthen it, since the walls of the cylinder are quite strong.

It is advisable to use the second part of the cylinder for the manufacture of a replaceable blade, since the metal will wear out and wear out. In this case, if necessary, it will be possible to quickly replace the device.

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DIY shovel blade for tiller drawings video

Everything related to the process of self-production of the Vitamin-Z Dome Greenhouse will be published in this topic. We want everyone to be able to INDEPENDENTLY make themselves such a simple, effective, beautiful, reliable and efficient greenhouse.

❀Dome (Nabeela) At the moment the following material is used: 1. Bar 60 x 20 x 6000 mm. 42 pieces at 89 rubles apiece. gouging to size on a thickness gauge sawing to size and at the desired angle on a miter saw. Total 3,738 rubles 2. Second-hand oil pipe for driven foundation. 3 pipes, 2 meters each, at the price of 360 rubles apiece. The pipe was cut by an angle grinder and hammered with a sledgehammer

Lawnmower Bulldozer DIY Cheap

Total 1080 rubles

❀Dome (Nabeela) Video of the dome greenhouse manufacturing process. Videos uploaded to a separate folder.

Sergey (Paymaneh) Nice to see the combination of Theory and Practice

❀Dome (Nabeela) We begin to assemble the greenhouse. Keep the basic dimensions and layout for assembly

❀Dome (Nabeela) See the result of today in the album z = album-91623098_214525389

Alexey (Main Man) We are waiting for the continuation.)

Alexander (Jensine) Alexey, and we are waiting for the audience, they promised to start on Monday, everyone will come tomorrow, and we already have half of it

Alexey (Main Man) Alexander, yes, it’s funny.)) But technologies are rushing forward and don’t wait…. ))

Salavat (Teodors) And what kind of white vacuum cleaner is there for the planer? How to attach to pipes?

Why is the angle of the left vertices indicated in the calculator at the edges of zero degrees??

Alexander (Jensine) Salavat, an enkor corvette vacuum cleaner, collects sawdust for worms, I did not understand about zero degrees.

Salavat (Teodors) Here on the left is size thirteen, that is, an angle cut. And the angle is zero. And so on all edges.

Sergey (Paymaneh) Yes, it really is not clear. Please explain, Alexander (left arrow).

❀Dome (Nabeela) There was no light since morning, so we only managed to finish the skirt of the dome. Screwdrivers have already forgotten how to turn the screws))) And by the evening everything was covered with snow, and the snowfall continues. Tomorrow morning shovels in hands and on the dome

Alexander (Jensine) I don’t know I don’t use a calculator. I need the lengths between the connectors.,

there is a number of edges, faces and vertices, you can sign up for me to learn how to design domes in the sketch and there will be no such questions

Salavat (Teodors) Alexander, that’s why I’m asking that Alexey posted only an assembly drawing, but there is no detail. Instead of detailing, a link to this very calculator.
Alexander, a question for you as a designer.

From what considerations and calculations was the size of the bar selected? Here is said a lot about reliability calculations, there are ready-made projects, but everywhere the dimensions of the timber are much larger. Exactly the structure will withstand a snow load of 200 kg / sq.

m? over, we do not have a cladding that would add strength. The design training you offer is great. Or, as a demonstration, using this simple project as an example, you can show how the calculation is done.

Maybe this is a video from a sketch, maybe just a calculation on a piece of paper, but to make it clear, here I am doing this and that, as a result we get. the size of the bar is 60×20.

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Alexander (Jensine) Salavat, I don’t do calculations because I didn’t find a method that correctly counts the domes, in the 1st year I assembled 20 frames and broke it, it’s very difficult to break such a structure, in my practice, enough bar 204060 was taken only to set the film gap

the last test is I am assembling a frame from a bar 25 100 4 frequency cell 1 meter

Alexander (Jensine) Salavat, self-tapping screws 1.7 long to vomit accurately, strip 0, 4 to tear accurately
I put the MTZ 82 tractor on top, and as evilly not a single beam cracked, not a single self-tapping screw tore out and not a single strip broke, think for yourself how to calculate it

Alexander (Jensine) to check 200kg per m2 tomorrow I will demonstrate 100kg per 1 point, everyone who is will just climb in and take a picture my first greenhouse from the 2040 rail in Novosibirsk costs the 3rd year while the rail costs 20 along the edge, that is, it is the same as 2020, further if 1 cell is meter withstands up to 2000 kg per 1m2, then with a dome size of 100 m radius, the same cell will also hold 2 tons, no cumulative load occurs, everything is distributed evenly over the entire dome, if you hang 500 kg on each connector, then the dome can already hold 3 tons per m2, that is, the more uniform load the more it can hold the thickness of the retention is the length of the rib, that is, it’s like breaking a rib 1.5 meters thick

for large sizes, I will now prepare a picture and show what is the nuance when distributing the load

Alexander (Jensine) let’s say they tested a meter cell for the necessary stability, at a low frequency and got a load distribution width of 50, this is the upper short line

Alexander (Jensine) increase the frequency, the diameter of the dome grows the cell remains 1 meter the angle of distribution 50 mm the thickness immediately increases only for the sake of the angle of distribution

Alexander (Jensine) we increase the diameter the width of the distribution angle 50 is the same, but the width becomes very large, this is not rational, although this is done

Alexander (Jensine) but it is necessary to do as in Eden, we keep the same length of distribution of the angle 50, the same cell as in the previous photo, but the timber is not half a meter, but a double frame of 50 mm each, you can make a dome of 2 kilometers from a timber 50 20 and it will withstand everything, watch the movie project houston v = vJxJWSmRHyEfeatur.

compared to the size, it is made of hairs

Alexander (Jensine) this is what they forgot to throw off, the lengths of the number of edges, marking of the foundation, the sidetrack angle is the same 12 degrees, it is considered that the base of the icosahedron is 5 faces, the frequency is 3 53 = 15360 degrees we divide by 15 and we divide by 2 edges we get 12 degrees

up to 24 meters the angle can be made averaged above 24 meters no angle at all there is only the angular length of the load distribution

❀Kupolny (Nabeela) Today’s work. Finished assembling the dome. Plans for tomorrow: 1. Design and assemble a door and vents 2. Finish the foundation and make a “skirt” out of flat slate

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Make a filling of sawdust above the door and on top of a ramp for a comfortable entrance to the greenhouse and for the trolley

Fastening devices to the motor unit

To connect devices to the unit, a stationary method is used, carried out using simple or shaped pipes, ears, clamps, etc.

The system of this fixation is clear from the figure. A profile pipe is screwed or welded to the blade, into which the stem is inserted to connect to the tiller. To eliminate the rotation of the rod, a locking threaded clamp with a handle is provided.

In the second version, a pipe and lugs are welded to it, reinforced, to ensure rigidity, with pieces of metal. The device is fastened with lugs on a special device made of pipes and bolts.

It all depends on the type of work you are doing and the conditions of the area in which you will use these devices. For example, a vertical shovel is suitable for confined spaces. For normal work. all other devices.

Required materials and tools

In order to make a shovel for a tiller with your own hands, you will need some materials and tools. Depending on the model chosen, these indicators may differ, therefore, all data should be clarified prematurely. As a rule, they are indicated on the sites where the drawings for certain models are located.

But for a universal design, you will need the following set of tools:

  • a steel barrel with a volume of 200 liters;
  • an iron strip of approximate dimensions 90x105x4 millimeters;
  • profile square pipe, 1 meter 40×40 mm;
  • a set of bolts and nuts of the required parameters;
  • drills for metal of suitable sizes;
  • pliers;
  • a set of keys for the corresponding nuts;
  • rubber sheet;
  • thick sheet of steel;
  • Angle Grinder;
  • a set of discs for an angle grinder;
  • welding;
  • electric drill.

After all the necessary materials and tools are ready, you should start collecting the shovel on the tiller with your own hands.

The simplest snow removal mechanism can be made from a 200-liter old barrel, since it will have a perfectly round shape from the very beginning, which is just right for such a “gadget”.

This avoids unnecessary labor costs when heating a sheet of metal and providing it with the desired shape.

To begin with, in such a barrel, you need to cut off the lid and bottom using an angle grinder. Then the barrel is sawn by an angle grinder lengthwise into three parts equal in width.

The left and right curved parts must be welded together, thereby forming a bucket for the future apparatus, and the remaining strips must be cut into small parts. These parts will later be used to improve the rigidity of the snow blower.

They need to be evenly welded to the bucket by welding and at the same time do not forget to be sure to weld two strips on the sides.

In order for the device to come out reliable and of high quality, it is necessary to weld a knife at the bottom of the bucket. To do this, you need a strip of iron 800x95x3 mm. It is necessary to drill three holes of 5-7 millimeters in it. The distance between the stripes should not exceed 110 millimeters.