RU2100101C1 - Device for screening and transportation of technological chips - Google Patents

Abstract

FIELD: forestry industry. SUBSTANCE: device includes base mounted on transportation facility, loading hopper, receiving hopper and flat sieves secured to lower portion of loading hopper by means of rods. Receiving hopper is provided with vertical slots on inner surfaces and bearing struts which have slots where springs are located. Loading hopper is secured to spring of bearing struts by means of sliders; it is mounted for motion over vertical slots of receiving hopper. EFFECT: enhanced efficiency of screening. 3 cl, 6 dwg

Description

 The invention relates to the forestry and woodworking industries and can be used for sorting and transportation of technological chips.

 A stationary sorting plant is known, comprising a housing, a loading hopper, flat screens on ball bearings, trays for removing sorted fractions of chips, an eccentric with an engine for driving screens.

 It is also known a device for separating crushed wood into fractions, containing a loading hopper, a housing, a thrower of the source material, receiving hoppers with inclined racks with collections of dropping fractions located in the lower part of the housing.

The listed devices have the following disadvantages:
significant energy consumption of the process of separation of chips into fractions due to the presence of an individual drive and the inability to use other energy sources with greater efficiency;
the process of dividing wood chips into fractions in the stationary state of the installation determines its insufficient productivity, since installation of the installation on a permanent basis eliminates the possibility of technical maneuver (flexibility), as well as the use of time for sorting the chips, during which the chips are delivered to the consumer.

 The technical result of the proposed device is to increase productivity and reduce the energy intensity of the process of sorting chips.

 The goal is achieved by the fact that the device is mounted on a movable base and made in the form of a movable hopper receiver with vertical grooves on its inner surface and support posts having grooves with springs placed in them, to the grooves of which are mounted sliders of the movable hopper containing a loading hatch with a feeder, guide bearings mounted on its outer walls and sorting sieves with rods and a flexible drive, mounted under a movable hopper and attached to its lower part.

 In addition, the stationary hopper contains upper and lower stops and elastic partitions, fixed in the upper part along the lines of connection of sieves of various fractions.

 Comparative analysis with the prototype shows that the proposed device for sorting and transporting technological chips is characterized by the presence of a movable base and a movable loading hopper, the presence of vertical grooves on the inner surface of the stationary hopper and support posts having grooves and springs located inside the grooves, to which the slide boot sliders are attached hopper, by the presence of sorting screens with rods and a flexible drive, installed under the movable hopper and attached to the bottom of the movable bu nker, the presence of elastic partitions and upper and lower stops on the racks of a stationary hopper.

 Thus, the proposed device meets the criterion of "novelty."

 Comparison of the invention with other technical solutions shows that a movable base, fixed and movable hopper, support legs, grooves, springs, rolling bearings, feeder, screening sieves, traction, flexible drive, flexible partitions are known.

 The above, taking into account the fact that the introduction of the listed elements in a specific connection with each other leads to increased productivity and lower energy consumption, it can be concluded that the technical solution meets the criterion of "significant differences".

 In FIG. 1 shows a device for sorting and transporting technological chips, a side view in section; in FIG. 2 section aa; in FIG. 3 - node A in a section, side view and bottom; in FIG. 4 node B in a section, a top view; in FIG. 5 knot B; in FIG. 6 knot G.

 The installation comprises a movable base 1 (trolley) having hatches 2 for unloading wood chips, with support racks 3 mounted on it with grooves and springs 4 located inside the grooves, to which sliders 5 of the movable hopper 6 are mounted with guide bearings 7 mounted in the walls of the movable hopper 6 and in the vertical grooves 8 of the stationary hopper 9. The movable hopper 6 contains a loading hatch 10 with a feeder 11. In addition, on the outer side of the lower surface of the movable hopper 6 are mounted on the supports 12 of the sliders 13, on which nr 14 installed fine sieve 15 and secondary 16 fractions. The sliders 13 by the linkage system 17 are connected to the eccentric 18 with a drive from the flexible 19 power take-off shaft from the tractor. The stationary hopper contains the upper 20 and lower 21 stops and elastic partitions 22, fixed in the upper part along the lines of connection of the sieves of various fractions (along the borders of the sieves).

 A device for transporting and sorting technological chips works as follows.

An unloaded trolley is hooked up to a mobile device for the production of technological chips, while the movable hopper 6 under the influence of the springs 4 is in the upper position and its further upward movement is limited by the stops 20. The chips obtained in the mobile chipper are loaded into the hopper and fed through the loading hatch 11 to the feeder sorting sieve 15. Due to gravitational influences (shocks, shaking, etc.) arising in the process of movement of the mobile chipper and trolley along the roughness of the cutting area, wood chips It moves in the direction from small sieves 15 to medium 16 and large fractions. At the same time, small chips are sorted out (sieve 15 has the smallest hole size) and falls into a stationary hopper in the direction of arrow D, then the chips pass through sieve 16 and the middle fraction enters the drive in the direction of arrow E, and the remaining large fraction enters the drive in the direction of arrow J. In a situation where the shocks and shaking occurring during the movement of the cart do not provide the necessary performance for sorting the chips coming to the sieves, the sieves are given a reciprocating movement from the eccentric 18 s drive ohm 19 through the system of rods 17 and the slide 13. The elastic partitions 22 during the accumulation of chips reallocate the volume of the stationary hopper in accordance with the percentage of a particular fraction in the chip. For example, if the small fraction has a significantly larger share in the total volume of the sorting chips, then due to its larger volume and greater mass, the elastic partition deviates towards the drive with the middle fraction and the small fraction chips fill a larger volume. After filling the stationary hopper 9 with sorted fractions, the feeder 11 stops the supply of chips to the sieves, and then the mobile hopper 6 is filled with unsorted chips. When the movable 6 and fixed 9 bins are fully loaded, the device for sorting and transporting with any traction means is sent to the place of storage and processing of wood chips (timber warehouse, pulp and paper mill, etc.)
During transportation, the load from the mass of the movable hopper 6 is perceived by the springs 4 and sieves 15 and 16, based on a layer of sorted wood chips. Upon arrival at the warehouse, hatches 2 open and graded chips, under the influence of gravitational forces, from the own mass of the mobile hopper with chips are discharged from the stationary hopper through the hatches in the direction of arrows Z, I and K. Then, through the sieves from shaft 19, chips are sorted in the movable hopper 6, its unloading through the hatches 2. After releasing the hopper 6 from the chips, under the influence of springs 4, it returns to its original position, defined by the stops 10. Next, the device for sorting and transporting chips returns to esoseku and the cycle is repeated.

 In situations where there is no possibility of driving the screens of the device for sorting and transporting chips in the cutting area, it has the ability to function as follows. In the process of moving around the cutting area, the mobile hopper 6 is filled with wood chips with its simultaneous sorting due to the impact of shocks and shaking during movement. When the hopper 6 is completely filled, it acts on the springs 4 by means of sliders 5 and compresses them, lowering on the rolling bearings 7 along the vertical grooves 8 of the stationary hopper. The stops 21 fix the lower position of the movable hopper 6, leaving space under it for sorting sieves and sorted fractions of chips. The elastic partitions 22 in the process of lowering the hopper are folded. In this position (with the filled movable hopper 6 lowered), the device has higher tipping stability and can be transported at a higher speed. At the same time, the power of shocks and shaking from road irregularities is more significant, and the intensity of shaking is significantly higher than when transporting at a lower speed.

 Due to the above effect, the chips are sorted with greater productivity in the process of transporting the device to the place of storage of chips. In this case, as the hopper 6 is released, it rises under the action of the springs 4, freeing up space under it for new portions of sorted wood chips, while maintaining the same level of stability due to the former position of the center of mass of the device for sorting and transportation.

 However, if the increased sorting performance due to the insignificant transportation distance does not allow sorting all the wood chips in the mobile hopper, it can be finally re-sorted in the warehouse, where connecting the drive to the power take-off shaft is not difficult.

 The stated principle of operation of the installation allows to reduce the energy intensity of the sorting process by using the energy of the tractor, spent on overcoming irregularities that cause shaking and moving chips on the sieves; increase productivity, since the time of filling the hopper, transportation, on the one hand, and sorting, on the other, is combined.

Claims (3)

 1. A device for sorting and transporting technological chips, including a base, a loading hopper, a receiving hopper, flat sieves, a drive sieve, a feeder, characterized in that the receiving hopper is made with vertical grooves on the inner surface with support posts having grooves and with inside the latter by springs, and the loading hopper is fixed by means of sliders to the springs of the support posts and is mounted to move along the vertical slots of the receiving hopper by means of its outer guides op Ohr, while the sieves are fixed by rods to the lower part of the loading hopper, and the base of the device is mounted on a vehicle.  2. The device according to claim 1, characterized in that the sieve drive is made in the form of an eccentric connected through additional rods to the sieve rods and connected to a flexible power take-off shaft.  3. The device according to p. 2, characterized in that the receiving hopper contains upper and lower stops to limit the movement of the loading hopper and elastic partitions fixed in its upper part along the connection line of the sieves of various fractions.

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