DE866495C - Pusher oven - Google Patents

Description

Pusher furnace The invention relates to a pusher furnace for heating billets, in particular of such greater length with a small cross-section, such as such. B. Use wire rod mills.

At a welding hearth there are two butt paths , anZ3, through which the billets are brought into the ground space. From this, the heated billets of one and the other shock lane are ejected alternately. The length of the sticks lie transversely to the direction of impact on the shock balin; on the hearth floor they lie lengthways in the direction of discharge. The ejection can take place from two sides or only from one side.

The heating gases pull in the bumper spaces in the direction of advance the stick and are in the hearth through openings in the bottom discharged. The billets are heated gradually from the point of introduction to the hearth through in the joint spaces and in the hearth space to the length of these Burner sets distributed in different rooms, which, depending on the width of the rooms, consist of a or several individual burners exist and their training the fuel used is equivalent to. Gas burners are most useful. The burners are in their heating effect appropriately graded, with the most powerful burner arranged in the oven are. The burners are installed in such a way that the heating gases for the billet heating act on the sticks from above. where a favorable embodiment is that in which the heating gases from the burners obliquely downwards in the direction of flow the heating gases emerge from an impact path. The heating gases after their passage through the hearth base as exhaust gases in an expedient laterally recuperation of the tinder pit under the two buttocks, where they the Preheat combustion air for the burners. This makes good use of heat of the fuel used for heating the billets.

The furnace has a particularly high efficiency. Through the Merging of the heating gases from, two lane rooms in the hearth space will be there a; Generates heat build-up, which causes a quick final heating of the billets, so that they can be ejected from the hearth in quick succession. The possibility of ejection on two sides promotes the quick removal of the billet. By the arrangement of the heating gas flow in the direction of thrust of the billets in the bumpers and through the arrangement of graduated burners along the length of the butt path and In the hearth area, the gradual heating can already be done so far and precisely in the joint area be regulated so that after the billets have fallen into the hearth only one little heating needs to take place, which is caused by the heat accumulation there, connected with the measured heat supply through the oven burner, 'brought about exactly will.

An advantageous arrangement of the butt paths to the common hearth is then given. when the butt paths are opposite each other in an axial direction. The butt paths to the common hearth can also be different, e.g. B. offset, arranged be.

In the drawing is an exemplary embodiment of the furnace according to the invention shown schematically in a longitudinal section.

On both sides of a hearth base i, the butt tracks 2 and 3 connect. The overlying bumper spaces 5 and 6 open into the hearth space 7. The long sides 8 of the hearth base i correspond to the broad sides of the butt strips 2 and 3 respectively. Below of the hearth floor i is the scale pit 9, on both sides of this the recuperation io and ii. The cold air enters this at 12 or 13. In the recuperation part io is the combustion air for the heating gas of the shock chamber 5, in the recuperation part i i preheated the combustion air for the heating gas of the shock chamber 6. 14, 15, 16 or 17, 18, ig are burner points to which the preheated through the supply lines 27 Combustion air and through the supply lines 2.o- the heating gases are supplied. the Heating gases flow out of the burners in the direction of the arrow and pull from the Stick insertion side 2i or 22 of each joint space 5 and 6 to the hearth space 7 The heating gases from the burner in between are added to this route. In the hearth room 7 unite the two heating gas streams and pull together through the Hearth bottom i and. further through the tinder pit 9 into recuperation io and i i ab. 23, 24 or 25, 26 - the air lines from the recuperators are closed the supply lines 27 of the burners 14, 15, 16 or 17, i8, i9. The sticks will at 2u or 22 inserted into the joint spaces 5 and 6 and in these up to the hearth floor i encountered. The billets are removed from both sides of the hearth base i.

Claims (7)

PATENT CLAIMS: i. Pusher furnace, characterized in that two pusher tracks (5 and 6) are connected to a stove (i). 2. Pusher furnace according to claim i; through this characterized in that the bumper tracks (5 and 6) in an axis on opposite one another Stove sides are connected. 3. Pusher furnace according to claim i and 2, characterized in that that the heating gases of the bumper spaces (5 and 6) in the direction of the billet advance stream. ¢. Pusher furnace according to Claims 1 to 3, characterized in that several burners (r4, 15, 16 or 17, 18, 19) are arranged in the joint space in the longitudinal direction of the joint. 5. Pusher furnace according to claim i to 4, characterized in that that the bumper spaces (5 and 6) open into an enlarged hearth space (7) in which for each butt track (5 and 6) burners (16, i9) are arranged. 6. pusher furnace according to claim i to 5, characterized in that in the longitudinal direction of the butt panels (5 and 6) and the burner arranged in the hearth space (7) than in their effect across the width of the joint extending torch sets are formed. 7. Pusher furnace according to claim i to 6, characterized in that, from the billet insertion points (21 and 22) to the furnace center to burner with Weinarider -graded, increasing heating effect are arranged. B. pusher type furnace according to claim i to 7, characterized in that the burners in the pusher rooms (5 and 6) and in the hearth chamber (i) have a downward and in the direction of the heating gas flow directed outflow of the heating gas. G. Pusher-type furnace according to claims i to 8, characterized in that: the heating gases of both bump track spaces after their combination in the hearth space (7) through the hearth floor into one below the hearth floor (i) and below the bumpers (5 and 6) on both sides of a scale pit ( 9 ) arranged recuperation (io and ii) pull.