RU216737U1 - TRUSS SPAN OF MULTIPLE IRRIGATION MACHINE - Google Patents

Abstract

The utility model relates to agriculture, namely to the artificial irrigation of fields, and can be used in the construction of a multi-bearing circular and frontal sprinkling machine. The technical result is achieved by making a water pipeline made of galvanized steel with a silicon content of up to 35%, tension rods made of galvanized steel with heads of a larger diameter, water pipeline sections 5.85 m long, a frame of a self-propelled support cart - from two pairs of supporting steel angles, V-shaped mounted on plates fixed on the wheel bridge at an angle of 60 ° to the axis of the bridge towards each other, and fastening the braces to the water pipeline at an angle of 41 ° to its vertical axis, the upper and lower chords of the truss to the self-propelled support cart by means of two intersecting hollow two-piece pipes with flattened ends, tightened with a clamp in the area of crossing, rigidly fixed at one end to paired extreme connecting plates, and at the other end - on the frame of the support trolley. EFFECT: increased stability and reliability of sprinkling machines while lightening the structure.

Description

The utility model relates to agriculture, namely to the artificial irrigation of fields, and can be used in the construction of a multi-bearing circular and frontal sprinkling machine.

A truss span of a multi-section circular sprinkling machine is known, containing pipeline sections connected in series by means of a cardan-type swivel joint, each of which is made in the form of a three-dimensional truss, on which sprinkling nozzles of different design types are located 2.9-3.5 meters apart and different nozzle flow area, increasing from 3 to 15 mm, depending on the number of sections, the length of the sprinkler and irrigation rates (Patent RU 2768745, IPC A01G 25/09, B05B 1/18, 03/24/2022).

The disadvantages of the device are the difficulties in installation, the heterogeneity of rain jets (somewhere it is thin streams of water, somewhere a small drop, and on others a large drop), as well as susceptibility to wind drift.

A truss span of a multi-bearing sprinkler of circular and frontal action is known, containing an upper belt, including a water supply pipeline, an injection pipeline and a drain pipeline and a lower belt connected to each other by a continuous system of alternating interconnected racks and braces (Ed. mon. SU 1628978, IPC A01G 25/09, 23.02.1991).

The disadvantage of the design is the complexity of the installation of the sprinkling machine due to the large number of support elements and elements of hydraulic systems.

A truss span of a multi-bearing circular sprinkler is known, the water supply pipeline of which consists of six sections forming the upper chord of the farm, supported by means of braces and racks on the lower chord, formed from two lines of screeds interconnected by spacers. The braces are arranged in groups of four, two symmetrically on each side of the pipeline with convergence to the ties at equal angles at the junction of the ties with the spacers. Groups of braces are installed at all joints of the pipeline sections and in the middle part of four sections, and in the middle part of two sections from one end of the pipeline there are racks that interact together with adjacent groups of braces with additional supports connecting the ties to the cart (Pat. US 4569481, IPC A01G 25/09, 11.02.1986).

The truss span plumbing is composed of four long sections and two short sections in such a way that one short section is located almost in the center between two pairs of long sections, and another short section is at the extreme. At the same time, long sections create difficulties in logistics (packaging, body length) and installation (greater weight). In addition, there is no versatility in the assembly of the structure, and its reliability is also reduced, since the short sections screwed with flanges have greater torsional and fracture rigidity.

A truss span of a multi-support sprinkling machine is known, mounted on self-propelled support carts, in which the water pipeline forming the upper chord of the farm is formed from five sections of the same length and rests on the lower chord containing two lines of screeds, six support groups consisting of two base pairs "bracing - stand”, interconnected by spacers (Patent RU 191077, IPC A01G 25/09, 07/23/2019).

The use of 6 support groups for 5 sections of the same length does not allow an even distribution of the support groups. One section has 2 groups of supports, and 4 sections have one group each. This leads to instability of the structure on uneven areas and with strong gusts of wind. The complexity of the production and assembly of the structure, since the sections have different places for fastening the support groups. The use of the “bracing-stand” scheme in the support groups at different angles complicates the installation, and significantly reduces the stability of the upper chord of the span from sagging under its own weight and when the span is filled. Reduces the useful life of the device.

The closest is the truss span of a multi-support circular sprinkler installed on self-propelled support carts, containing a sectional water pipeline with spray nozzles forming the upper chord of the truss, which, by means of braces, rests on the lower chord formed from two lines of tie rods (from tension rods) connected between spacers (Pat. US 3912170, IPC A01G 25/09, 10/14/1975). The braces are arranged in groups of four - two braces rigidly attached to the pipe sections with the help of corner mounting lugs symmetrically to the opposite surfaces of the section section with convergence to the couplers at equal angles and the lower ends rigidly fixed on the connecting plate, thus forming a pair of V-shaped braces. Each pair of connecting plates is interconnected by a spacer, which holds the lower ends of the pairs of braces in a rigid spatial position. The tension rods of each tie line are equipped with lugs and are also fixed to the connecting plates. Groups of braces are installed in places of flexible (by means of flexible hoses pressed to the ends of neighboring sections with clamps) and rigid (flange) connections of sections. Flange connections are located in the center between the braces.

The disadvantage of the design is a large number of groups of braces, which leads to an increase in the weight of the truss span of the sprinkler. The design is designed to be made from aluminum and light alloy metals and has low roll resistance, which makes it difficult to use on uneven irrigation areas.

The task of the technical solution is to facilitate the design, while maintaining the reliability of the connections and the stability of the circular and frontal sprinkling machines.

The technical result is to increase the stability and reliability of sprinkling machines while lightening the design.

The technical result is achieved by using a truss span of a multi-support sprinkling machine, including self-propelled support carts, forming the upper chord of the truss, a water pipeline consisting of sections rigidly connected by means of flanges with spray nozzles, which is rigidly attached to the pipe sections with the help of angular mounting eyes of symmetrically located pairs of braces V-shaped, fixed on the connecting plates, rests on the lower chord, formed from two lines of tie rods, consisting of tension rods, fixed on the said connecting plates, connected in pairs by spacers, while the water pipeline is made of Q235B galvanized steel containing silicon up to 35%, tension rods are made of galvanized steel, sections of the water supply pipeline are made 5.85 m long and equipped with arcuate bends, heads of larger diameter are made at the ends of the tension rods, braces to fastened to the water pipeline at an angle of 41 degrees to its vertical axis, the frame of the self-propelled support trolley is made of two pairs of supporting steel angles V-shaped mounted on plates mounted on a wheel bridge at an angle of 60 degrees to the axis of the bridge towards each other, the upper and lower chords the trusses are attached to the self-propelled support bogie by means of two intersecting hollow two-piece pipes with flattened ends, tightened with a collar in the area of crossing, rigidly fixed at one end to the paired extreme connecting plates, and at the other end - to the frame of the support bogie.

The truss span of a multi-bearing sprinkler is characterized by the fact that the spray nozzles are mounted on flexible hoses attached to arcuate branches.

The essence of the design lies in the most optimal combinations of the design parameters of the device, ensuring its long-term operation and reliable operation, due in particular to protection against sagging of the upper truss belt and collapse of the truss span, structural stability of both the truss span and the sprinkling machine itself from collapse during gusts of wind , inertial shocks during movement.

The utility model is illustrated in the following drawings.

In FIG. 1 shows the truss span of a multi-bearing sprinkler, FIG. 2 shows the fastening of the braces to the section of the water pipeline, in Fig. 3 shows the connection plate, FIG. 4 shows a wheel bridge.

The truss span of the multi-bearing sprinkling machine consists of self-propelled support carts 1, the upper chord of the truss - the water pipeline 2, and the lower chord formed from two lines of tie rods 3. The tensioned lines of the tie rods 3 ensure the bending of the water pipeline 2. The water pipeline 2 is made of galvanized steel Q235B with silicon content up to 35% and consists of sections 4 with a length of 5.85 m, rigidly connected by a flange connection. Flanges 5 are made in one piece with sections 4 and are connected through ring gaskets to provide a waterproof seal between sections 4. The truss span is equipped with arcuate branches 6. The distance between the arcuate branches 6 is determined based on the irrigated crop, its development phase, type of soil, climatic conditions and other agrotechnical conditions for irrigation, and provides uniform irrigation over the entire irrigation area.

Tie lines 3 consist of series-connected tension rods 7 (sprengels) made of galvanized steel (for example, steel 45), at the ends of which heads 8 of larger diameter are made. The water pipeline 2, by means of a system of braces 9, rests on the lines of the couplers 3.

The braces 9 are rigidly attached to the pipe sections 4 by means of angled fixing lugs 10 (corner lugs are made in the form of metal corners with holes on the surface of the braces 11 fastening) located in pairs on the surface of the sections 4 symmetrically with respect to the vertical axis of the water pipeline 2. In this case, the lugs 10 are arranged in this way that the mounting surfaces of the braces 11 form an angle of 41 degrees with the vertical axis of the water pipeline 2, and between the mounting surfaces of the braces 11 paired lugs 10, respectively, an angle of 82 degrees. Thus, the braces 9 are secured to the water pipeline 2 at an angle of 41 degrees to its vertical axis.

The braces 9 are located on the water pipeline 2 in groups of four - two braces 9 rigidly attached to the pipe sections 4 with convergence to the couplers 3 at equal angles with the formation of a V-shape on each side of the vertical axis of the water pipeline 2. Each pair of braces 9, forming a V-shape (in each such pair, one brace 9 from adjacent sections 4 is involved) is rigidly attached to the connecting plate 12 by the lower ends, to which, in turn, the heads 8 of neighboring tension rods 7 of each line of ties 3 are attached. The connecting plates 12 are located in the tie lines 3 are connected in parallel and in pairs by spacers 13, which hold the lower ends of the pairs of braces in a rigid spatial position.

On arcuate branches 6 on flexible hoses 14 spray nozzles 15 are installed (the technical parameters of the nozzles 15 also determine the distance between the branches 6). The arcuate outlets 6 themselves are mounted on couplings 16 made on sections 4. The couplings 16, on which the outlets are not installed, are closed with plugs.

The upper and lower belts of the truss are attached to the self-propelled support cart 1 by means of two intersecting hollow two-piece pipes 17 with flattened ends, at one end rigidly fixed to the pair of extreme connecting plates 12, and at the other end - on the frame of the support cart 1. In the area of crossing, the pipes 17 are pulled together with a clamp . And the length of each hollow two-piece pipe 17 is regulated by fixing the relative position of the pipes forming it telescopically inserted one into the other. Thus, the reliability of fastening the upper and lower chords of the truss to the self-propelled support cart and the integrity of the structure during the operation of the device are ensured.

The frame of the self-propelled support trolley 1 is made of two pairs of supporting steel angles 18 V-shaped installed on the plates 19 of the wheel bridge 20. The plates 19 of the wheel bridge 20 are rigidly fixed on the wheel bridge 20 at an angle of 60 degrees to the axis of the bridge 20 towards each other. Each pair of V-shaped installed steel corners 18 is provided with transverse jumpers of steel corners. Thus, the most optimal distribution of the load on the wheel axle, the reliability of the design of the support trolley, the stability against gusts of wind, inertial shocks during movement and other vibrations of the water pipeline 2 and the reliability of the sprinkler are ensured.

The device works as follows.

Water enters the truss span of the multi-support sprinkling machine and passes through the 2 water supply pipeline and, through the arcuate outlets 6 installed on the couplings 16, through the flexible hoses 14, enters the nozzles 15, from which it is sprayed onto the irrigated surfaces. Due to the flow of water into the nozzles through arcuate outlets 6, it reduces the ingress of dirt particles into the nozzles 15, as a result of which the latter are less likely to clog and fail, the location of the nozzles 15 on flexible hoses 14 allows regular preventive maintenance and, if necessary, repair or replacement of nozzles 15 (change of type-size or replacement of a broken one), which ensures reliable operation of the device. In addition, the length of the flexible hoses 14 is also an adjustable parameter and is selected taking into account evaporation and wind drift of raindrops and based on the height of the irrigated crops.

At the same time, the implementation of the water supply pipeline 2 from galvanized steel Q235B provides the optimal ratio of elasticity, strength and lightness of the structure, which, subject to a decrease in pressure on the soil, improves the reliability of the truss span, and the implementation of tension rods 7 from galvanized steel ensures their low extensibility, which allows you to maintain tension structures during the entire period of operation of the truss span, which also increases its stability and reliability. The fastening of the braces 9 to the water pipeline 2 at an angle of 41 degrees to its vertical axis provides the most optimal distribution of the weight load of the upper belt of the truss span with its rigid fixation. An increase in the angle of fastening of the braces creates stress in the structure, which leads to the destruction of the structure due to an imbalance in the distribution of the load on the lower chord of the truss span, a decrease in the angle reduces the stability of the structure.

Thus, the truss span of a multi-support sprinkling machine, including self-propelled support carts, made of two pairs of supporting steel angles V-shaped mounted on plates, mounted on a wheeled bridge at an angle of 60 degrees to the axis of the bridge towards each other, the upper and lower chords of the truss are attached to self-propelled support trolley by means of two intersecting hollow two-piece pipes with flattened ends, tightened with a clamp in the area of crossing, rigidly fixed at one end to paired extreme connecting plates, and at the other end - on the frame of the support trolley, in which the water supply pipeline from galvanized steel Q235B forming the upper chord of the truss with a silicon content of up to 35%, consisting of 5.85 m long sections rigidly connected by means of flanges with spray nozzles on arcuate branches, by means of rigidly attached to the pipe sections at an angle of 41 degrees to its vertical axis using angled fixing lugs, symmetrically located of laid pairs of V-shaped braces, fixed on connecting plates, rests on the lower chord, formed from two lines of tie rods, consisting of galvanized tension rods with heads of a larger diameter, fixed on the mentioned connecting plates, connected in pairs by spacers, provides increased stability and reliability of sprinkling machines while facilitating the design.

Claims (2)

1. The truss span of a multi-support sprinkling machine, including self-propelled support carts, forming the upper chord of the truss, a water pipeline consisting of sections rigidly connected by means of flanges with spray nozzles, which, by means of rigidly attached to the pipe sections with the help of angular mounting lugs, symmetrically located pairs of V-shaped braces forms, fixed on the connecting plates, rests on the lower chord, formed from two lines of tie rods, consisting of tension rods fixed on the said connecting plates, connected in pairs by spacers, characterized in that the water pipeline is made of galvanized Q235B steel with a silicon content of up to 35%, tension rods are made of galvanized steel, sections of the water pipeline are made 5.85 m long and equipped with arcuate bends, heads of larger diameter are made at the ends of the tension rods, braces tilt to the water pipeline at an angle of 41° to its vertical axis, the frame of the self-propelled support trolley is made of two pairs of supporting steel angles, V-shaped mounted on plates, fixed on the wheel bridge at an angle of 60° to the axle of the bridge towards each other, the upper and lower chords of the truss are attached to self-propelled support trolley by means of two intersecting hollow two-piece pipes with flattened ends, tightened with a collar in the area of crossing, rigidly fixed at one end to paired extreme connecting plates, and at the other end - on the frame of the support trolley. 2. A truss span of a multi-bearing sprinkling machine according to claim 1, characterized in that the spray nozzles are mounted on flexible hoses fixed on arcuate branches.

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