CN206113626U - Circulating continuous push rod stove in end - Google Patents

Abstract

The utility model provides a circulating continuous push rod stove in end. Circulating continuous push rod stove in end includes the frame to and communicate in proper order, and locate the feed zone on frame upper portion, heating section, cooling zone, ejection of compact section and two advancing mechanism, two elevating system, conveyer belt. The utility model provides a fault rate that push rod stove that circulating continuous push rod stove in end had solved prior art exists is high, take up an area of and increase, maintain technical problem such as inconvenient.

Description

The continuous push rod furnace of bottoming cycle formula

Technical field

This utility model is related to push rod furnace field, and in particular to a kind of continuous push rod furnace of bottoming cycle formula.

Background technology

Push rod furnace refers to and relies on pusher, will put material in orbit or charging tray is periodically pushed in stove or released Stove outside stove.

The mostly non-design cycle mechanism of the push rod furnace of prior art, by manually the charging tray using after being replaced in into charging At section, reuse.Even if being provided with the push rod furnace of cycling mechanism, also it is and is located at push rod furnace side, exists following all Many shortcomings：

1st, increase movement step, need that loading tray is horizontal to be pushed away, the direction of motion of right angle intersection occur, fault rate is improved；

2nd, take up an area size increase, need the space for putting cyclic track；

3rd, the maintenance of oven body part, the maintenance of part body of heater is disturbed to need cyclic track dismounting to carry out.

The content of the invention

Increase, safeguard the technical problems such as inconvenience, this reality to solve the fault rate height of the push rod furnace presence of prior art, taking up an area With a kind of continuous push rod furnace of bottoming cycle formula for solving the above problems of new offer.

A kind of continuous push rod furnace of bottoming cycle formula, including frame, and be sequentially communicated, and located at the charging of the upper rack Section, bringing-up section, cooling section, discharging section；

It is characterized in that：Also include two propulsive mechanisms, two elevating mechanisms and conveyer belts, the conveyer belt is located at described Frame lower, propulsive mechanism difference level described in two is located at the frame two ends, propulsive mechanism described in be provided close to it is described enter At material section, another propulsive mechanism is located at the conveying end of tape, at the discharging section, elevating mechanism difference described in two Vertically it is located at the conveyer belt two ends.

In a kind of preferred embodiment of the continuous push rod furnace of the bottoming cycle formula that this utility model is provided, the bottoming cycle The continuous push rod furnace of formula also includes discharge space, and the discharge space is located at the discharging section end.

In a kind of preferred embodiment of the continuous push rod furnace of the bottoming cycle formula that this utility model is provided, the discharging is empty Between along discharging direction progressively sink.

In a kind of preferred embodiment of the continuous push rod furnace of the bottoming cycle formula that this utility model is provided, the bottoming cycle The continuous push rod furnace of formula also includes hermatic door, and two hermatic doors are respectively arranged on the feed zone and the discharging section.

In a kind of preferred embodiment of the continuous push rod furnace of the bottoming cycle formula that this utility model is provided, the bottoming cycle The continuous push rod furnace of formula also includes spacing head, and spacing head described in is located at the discharge space end, and another spacing head is located at The conveying end of tape, at the feed zone.

In a kind of preferred embodiment of the continuous push rod furnace of the bottoming cycle formula that this utility model is provided, the pusher Structure includes propulsion cylinder body, propulsion movable end and pushing plate, and the propulsion cylinder body, the propulsion movable end and the pushing plate are successively Connection, advances cylinder body difference level to be located at the frame two ends described in two, pushing plate described in two respectively close to the feed zone and The conveyer belt is arranged.

In a kind of preferred embodiment of the continuous push rod furnace of the bottoming cycle formula that this utility model is provided, the elevator Structure includes lifting cylinder body, lifting movable end and lifter plate, and the lifting cylinder body, the lifting movable end and the lifter plate are successively Connection, lifting cylinder body described in two is vertically located at respectively the conveyer belt two ends.

In a kind of preferred embodiment of the continuous push rod furnace of the bottoming cycle formula that this utility model is provided, the bottoming cycle The continuous push rod furnace of formula also includes conveying roller, and the conveying roller is layed in the feed zone, the bringing-up section, the cooling section, institute State discharging section inner bottom surface, and the upper surface of the discharge space and the lifter plate.

Compared to prior art, the continuous push rod furnace of the bottoming cycle formula that this utility model is provided has following beneficial effect Really：

First, the continuous push rod furnace of the bottoming cycle formula is provided with the displacement mechanisms such as first propulsive mechanism, charging tray when using All motions are in same vertical plane, and movement step is simple, and is straight reciprocating motion, and fault rate is low.

2nd, in the continuous push rod furnace of the bottoming cycle formula, each displacement mechanism structure such as described first propulsive mechanism is consistent, Maintenance and replacement etc. are easy to operate.

3rd, the continuous push rod furnace of the bottoming cycle formula is by the conveyer belt and first elevating mechanism, second lifting The structures such as mechanism are located at the frame lower, effectively reduce the floor space of equipment.

4th, the heat treatment section and cyclic part of the continuous push rod furnace of the bottoming cycle formula is distributed up and down in vertical direction, Both sides can person of modern times, it is more convenient for the two maintenance and service work.

Description of the drawings

Fig. 1 is the structural representation of the continuous push rod furnace of bottoming cycle formula that this utility model is provided.

Specific embodiment

Below in conjunction with the accompanying drawing in this utility model embodiment, the technical scheme in this utility model embodiment is carried out Clearly and completely describe, it is clear that described embodiment is only a part of embodiment of the present utility model, rather than whole Embodiment.

Fig. 1 is referred to, is the structural representation of the continuous push rod furnace 1 of bottoming cycle formula that this utility model is provided.

The continuous push rod furnace 1 of the bottoming cycle formula includes frame 11, feed zone 12, bringing-up section 13, cooling section 14, discharging section 15th, the hermatic door 17, two spacing 18 of discharge space 16, two, conveyer belt 19, conveying roller 20, the first propulsive mechanism 21, second Propulsive mechanism 22, the first elevating mechanism 23, the second elevating mechanism 24.

First propulsive mechanism 21 includes the first propulsion cylinder body 211, the first propulsion movable end 212 and the being sequentially connected One pushing plate 213.

First propulsive mechanism 21 and second propulsive mechanism 22, first elevating mechanism 23 and described second The structure of elevating mechanism 24 is consistent, repeats no more.

The feed zone 12, the bringing-up section 13, the cooling section 14, the discharging section 15, the discharge space 16 according to Secondary connection, and located at the top of the frame 11.The discharge space 16 progressively sinks along discharging direction.Two hermatic doors 17 It is respectively arranged on the feed zone 12 and the discharging section 15.The conveyer belt 19 is located at the bottom of the frame 11.The conveying roller 20 are layed in the feed zone 12, the bringing-up section 13, the cooling section 14, the inner bottom surface of the discharging section 15, and described The upper surface of the lifter plate 233 of discharge space 16 and first and the second lifter plate 243

First propulsion cylinder body 211 level is located at the one end of the frame 11, at the feed zone 12.Described first Pushing plate 213 can extend along feedstock direction by the described first propulsion movable end 212 and abut with the feed zone 12, or retract Away from the feed zone 12.

Second propulsion cylinder body 221 is located in opposite directions the other end of the frame 11, at the conveyer belt 19.Second pushing plate 223 can extend along feedstock direction by the second propulsion movable end 222 and abut with the conveyer belt 19, or retract away from described defeated Send band 19.

First lifting cylinder body 231 and the second lifting cylinder body 241 are vertically located at respectively the two ends of the conveyer belt 19.Described first Lifter plate 233 can vertically extend and near the feed zone 12 by the first lifting movable end 232, or retract near institute State conveyer belt 19.

Second lifter plate 243 can vertically extend and near the discharging by the second lifting movable end 242 Space 16, or retract near the conveyer belt 19.

Described in one spacing 18 located at the described first propulsion cylinder body 211 lower section, another described spacing 18 located at described the The top of two propulsion cylinder body 221.

When being embodied as, if initial position shrinks for the propulsive mechanism 22 of first propulsive mechanism 21 and second, described One elevating mechanism 23 is extended between first propulsive mechanism 21 and the feed zone 12, and second elevating mechanism 24 extends To the side of the discharge space 16.

Material to be heated is placed in into charging tray, and charging tray is placed on first lifter plate 233.Open two sealings Door 17, and start first propulsive mechanism 21 and complete once to extend and shrink.Charging tray is promoted to enter the feed zone 12, while The material that is disposed is expelled to the discharge space 16.

Two hermatic doors 17 are closed, the material that is disposed is taken out, empty charging tray slides to second lifter plate 243 On.

First elevating mechanism 23 and second elevating mechanism 24 are retracted, and it is complete to start second propulsive mechanism 22 Into once elongation and contraction.Promote charging tray to the conveyer belt 19, be delivered to rapidly on first elevating mechanism 23.

First elevating mechanism 23 and second elevating mechanism 24 extend, and so as to return back to initial position, complete one Secondary feed cycle.

Compared to prior art, the continuous push rod furnace 1 of the bottoming cycle formula that this utility model is provided has following beneficial effect Really：

First, the continuous push rod furnace 1 of the bottoming cycle formula is provided with the displacement mechanisms such as first propulsive mechanism 21, charging tray when using All motions be in same vertical plane, movement step is simple, and is straight reciprocating motion, and fault rate is low.

2nd, in the continuous push rod furnace 1 of the bottoming cycle formula, described each displacement mechanism structure of the grade of first propulsive mechanism 21 is homogeneous Cause, maintenance and replacement etc. are easy to operate.

3rd, the continuous push rod furnace 1 of the bottoming cycle formula by the conveyer belt 19 and first elevating mechanism 23, described second The structures such as elevating mechanism 24 are located at the bottom of the frame 11, effectively reduce the floor space of equipment.

4th, the heat treatment section and cyclic part of the continuous push rod furnace 1 of the bottoming cycle formula is distributed up and down in vertical direction, Both sides can person of modern times, it is more convenient for the two maintenance and service work.

Embodiment of the present utility model is the foregoing is only, the scope of the claims of the present utility model is not thereby limited, it is every The equivalent structure made using this utility model description or equivalent flow conversion, or directly or indirectly it is used in other phases The technical field of pass, is included in the same manner within scope of patent protection of the present utility model.

Claims (8)

1. a kind of continuous push rod furnace of bottoming cycle formula, including frame, and be sequentially communicated, and located at the charging of the upper rack Section, bringing-up section, cooling section, discharging section；

It is characterized in that：Also include two propulsive mechanisms, two elevating mechanisms and conveyer belts, the conveyer belt is located at the frame Bottom, propulsive mechanism difference level is located at the frame two ends described in two, and propulsive mechanism described in is provided close to the feed zone Place, another propulsive mechanism is located at the conveying end of tape, and at the discharging section, elevating mechanism described in two is vertical respectively Located at the conveyer belt two ends.

2. the continuous push rod furnace of bottoming cycle formula according to claim 1, it is characterised in that：The continuous push rod furnace of the bottoming cycle formula Also include discharge space, the discharge space is located at the discharging section end.

3. the continuous push rod furnace of bottoming cycle formula according to claim 2, it is characterised in that：The discharge space is along discharging direction Progressively sink.

4. the continuous push rod furnace of bottoming cycle formula according to claim 1, it is characterised in that：The continuous push rod furnace of the bottoming cycle formula Also include hermatic door, two hermatic doors are respectively arranged on the feed zone and the discharging section.

5. the continuous push rod furnace of bottoming cycle formula according to claim 1, it is characterised in that：The continuous push rod furnace of the bottoming cycle formula Also include spacing head, spacing head described in is located at the discharge space end, and another spacing head is located at conveyer belt end End, at the feed zone.

6. according to the arbitrary described continuous push rod furnace of bottoming cycle formula of claim 1-5, it is characterised in that：The propulsive mechanism includes Propulsion cylinder body, propulsion movable end and pushing plate, the propulsion cylinder body, the propulsion movable end and the pushing plate are sequentially connected, Cylinder body difference level is advanced to be located at the frame two ends described in two, pushing plate described in two is respectively close to the feed zone and described defeated Band is sent to arrange.

7. according to the arbitrary described continuous push rod furnace of bottoming cycle formula of claim 1-5, it is characterised in that：The elevating mechanism includes Lifting cylinder body, lifting movable end and lifter plate, the lifting cylinder body, the lifting movable end and the lifter plate are sequentially connected, Lifting cylinder body described in two is vertically located at respectively the conveyer belt two ends.

8. the continuous push rod furnace of bottoming cycle formula according to claim 7, it is characterised in that：The continuous push rod furnace of the bottoming cycle formula Also include conveying roller, the conveying roller is layed in the feed zone, the bringing-up section, the cooling section, the discharging section inner bottom Face, and the upper surface of the discharge space and the lifter plate.