The invention relates to the woodworking industry, namely, equipment for laying veneer. A device for stacking sheet material is known, consisting of a base, a conveyor and a lifting and receiving stand 1. Another device for cutting and laying veneer is known. beds, conveyor, lifting beam mounted on the shaft, conveyor, drive and pressure shaft and receiving table L2J. A disadvantage of the known devices is the low reliability of the gripping-veneer sheets. The circuit of the invention is an increase in the productivity of the device and the reliability of the capture of veneer sheets. This is achieved by installing rods inside the bed, on both sides of the frame, one ends of which are connected to the axis of the shaft, and the opposite sides are provided with rollers, with the cams attached to the rollers on the shaft of the lifting beam. FIG. 1 shows the proposed device, a cross-section; in fig. 2 ID A FIG. 1. The device contains a frame 1, inside which a conveyor 2 and a veneer transfer mechanism 3, consisting of a cross beam 4 fixed on a chain 5, and a lifting beam 6 fixed on a shaft 7, are installed. The movement mechanisms of the beam 6 and cross bar 4 are kinematically connected by chain gears 8 and 9, bevel gears Yu and a propeller shaft 11. The device is also equipped with an additional mechanism 12 for moving the veneer strip, made in the form of a drive 13 and a pressure 14 shaft. This mechanism and the conveyor 2 are connected to a transfer mechanism, 3 by a chain transmission 15. At the ends of the shaft 13, rings 16 are placed, made of a PCB and designed to rotate the pressure shaft 14 when the veneer sheets are not fed. The bearings of the shaft 14 are placed in the guides 17 of the bed 1, and its axis is connected to the rods 18 placed in the direction of the 1 x 17 of the bed 1 and inside it. On the pit: shaft 7, the cams 19 are fixed, which are in contact with the rollers 2O of the rods 18. Along the bed 1, a receiving table 21 is installed, the leveling rollers 22 of which through the levers 23 are kinematically connected to the cams 24 of the shaft 7. The veneer sheets from the shelling machine feed to the device of the laying of veneer sheet in the foot, where the yoke 4 and the beam 6 in certain mengues pick up the sheet of veneer and lift it while simultaneously moving to the right to the shafts 13 and Ifi, while the cams 19, interact with the rollers 20 of the rods 18, raise the pressure bar shaft 14 along guides 17, thereby increasing the gap between shafts 13 and 14. At the moment the spike sheet enters this gap, the cams 19 lower the pressure shaft 14 onto the veneer sheet, which is then moved with the help of the shaft 13 to the receiving table 21, where the mouthpieces 22 align The mountaineers of the veneer sheets with the cams 24. The operation of the mechanisms for feeding, lifting and moving the spike is connected with the work of the kinematic transmissions 8, 9, 1О, 11, 15, and is carried out according to a predetermined cyclogram. The dimensions of the cams 19 and the design of the shafts 18 allow you to create a constant and necessary gap between shafts 13 and 14. Increasing the gap between the shafts ensures a secure fit of the deformed veneer and allows you to reduce the amount of waste veneer, reduce downtime of the device and improve the performance of the shelling machine. Invention A device for placing a shppon into a foot, including a frame, a traverse, a lifting beam mounted on a shaft, a conveyor, a drive and pressure shafts and a receiving stop of veneer sheets, characterized in that, in order to improve the performance of the device and the reliability of gripping the veneer sheets inside beds, on both sides of it, rods are installed by means of guides, one ends of which are connected to the axis of the pressure shaft, and the others are provided with rollers, and on the shaft of the lifting beam there are cams that are in contact with p faces of the rods. Sources of information taken into account in the examination: 1, Copyright certificate № 28829O, cl. B 27 L 5/00, 1970. 2, SED cutting and stacking device, Arenko catalog, Kalmar ,, 1973, p. 81.