CN208121157U - A kind of multilayer continuous tempering furnace - Google Patents

Abstract

The utility model relates to technical field of heat treatment equipment more particularly to a kind of multilayer continuous tempering furnaces, including feed system, furnace body, heating system, transmission system, circulating fan, Air System and discharge system, wherein：Feed system and discharge system are separately positioned on the both ends outside furnace body；Furnace interior is provided with multiple groups transmission system, and multiple groups transmission system is successively arranged in furnace body from top to bottom, and furnace interior is separated into multilayer Transfer pipe；Heating system is provided in each layer Transfer pipe；The top of furnace body is arranged in circulating fan, is connected to by Air System with each layer Transfer pipe.The multiple-working modes such as single layer, multilayer continuous production may be implemented in the multilayer continuous tempering furnace of the utility model, and high production efficiency shortens the length of integral device, reduces energy consumption, ensure that the uniformity of temperature in furnace.

Description

A kind of multilayer continuous tempering furnace

Technical field

The utility model relates to technical field of heat treatment equipment more particularly to a kind of multilayer continuous tempering furnaces.

Background technique

Tempering furnace carries out the light conjunction such as tempering and aluminum alloy die casting, piston, aluminium sheet for common metal parts in air Golden parts quenching, annealing, aging strengthening model are used.

Through hardening steel part mostly uses greatly single layer tempering furnace to be tempered when being tempered at present, the length of single layer tempering furnace Degree is longer, and occupied space is more, and energy consumption is high, and low output influences production efficiency, not can guarantee the uniformity of temperature in furnace.

Utility model content

To solve the above-mentioned problems, the utility model provides that a kind of structure is simple, multilayer of high production efficiency is continuously tempered Furnace.

Multilayer continuous tempering furnace disclosed by the utility model includes feed system, furnace body, heating system, transmission system, follows Ring blower, Air System and discharge system, wherein：Feed system and discharge system are separately positioned on the both ends outside furnace body； Furnace interior is provided with multiple groups transmission system, and multiple groups transmission system is successively arranged in furnace body from top to bottom, by furnace interior point It is divided into multilayer Transfer pipe；Heating system is provided in each layer Transfer pipe；The top of furnace body is arranged in circulating fan, passes through Air System is connected to each layer Transfer pipe.

Further, transmission system includes driving motor, material step device, material transferring device and adjuster, In：Material step device can be docked with feed system, and be connect with driving motor；Material transferring device one end and material walk It is connected into device, the other end can be docked with discharge system；Adjuster is arranged on material transferring device.

Further, feed system includes first motor and feeding platform, and first motor is fixed at the outside of furnace body, It is moved up and down by lifting device control feeding platform and is docked with the material step device of each layer Transfer pipe.

Further, discharge system includes the second motor and discharging platform, and the second motor is fixed at the outside of furnace body, It is moved up and down by lifting device control discharging platform and is docked with the material transferring device of each layer Transfer pipe.

Further, Air System includes top wind deflector and side wind deflector, top wind deflector and side wind deflector Form air-guiding aisle.

Further, Air System further includes partition, and partition is arranged along furnace body length direction interval, air-guiding aisle is separated At multiple groups wind deflector unit.

Further, circulating fan is provided in every group of wind deflector unit.

Further, the top of top wind deflector is arranged in circulating fan, and the air inlet of circulating fan is being pushed up by setting Ventilation opening on portion's wind deflector is connected to air-guiding aisle.

Further, the both ends of every layer of Transfer pipe are respectively arranged with independent charging door system and discharging door system.

Further, the inner wall of furnace body is covered with insulating layer.

A kind of multilayer continuous tempering furnace of the utility model, has the advantages that：

1, the multilayer continuous tempering furnace of the utility model uses multilayer Transfer pipe, and every layer of Transfer pipe is provided with independence Transmission system, the multiple-working modes such as multilayer, single layer continuous production may be implemented, improve production efficiency, shorten tempering The entire length of furnace, reduces space occupied.

2, the multilayer continuous tempering furnace of the utility model uses Novel wind guiding structure, is provided with the independent wind-guiding list of multiple groups Member ensure that the uniformity of temperature in furnace, reduce the quantity of blower, reduce the energy consumption of equipment.

Detailed description of the invention

Illustrate the utility model embodiment or technical solution in the prior art in order to clearer, it below will be to embodiment Or attached drawing needed to be used in the description of the prior art is briefly described, it is clear that, the accompanying drawings in the following description is only It is some embodiments of the utility model, for those of ordinary skill in the art, in the premise not made the creative labor Under, it can also be obtained according to these attached drawings other attached drawings.

Fig. 1 is the schematic view of the front view of the multilayer continuous tempering furnace of the utility model embodiment；

Fig. 2 is the top view for showing the air guide structure of multilayer continuous tempering furnace of the utility model embodiment；

Fig. 3 is the side view for showing the hot air circulation of multilayer continuous tempering furnace of the utility model embodiment.

In figure：1- furnace body, 11- Transfer pipe, 21- driving motor, 22- material step device, 23- material transferring device, 24- adjuster, 3- circulating fan, 41- first motor, 42- feeding platform, the second motor of 51-, 52- discharging platform, the top 61- wind-guiding Plate, the side 62- wind deflector, 63- partition, 64- air-guiding aisle, 65- wind deflector unit, 7- charging door system, 8- discharging door system.

Specific embodiment

Below in conjunction with the attached drawing in the utility model, to the technical scheme in the embodiment of the utility model carry out it is clear, Complete description, it is clear that the described embodiments are only a part of the embodiments of the utility model, rather than whole implementation Example.Based on the embodiments of the present invention, those skilled in the art is without making creative work All other embodiment obtained, belongs to the protection scope of the utility model.

As shown in Figure 1, multilayer continuous tempering furnace disclosed by the utility model include feed system, furnace body 1, heating system, Transmission system, circulating fan 3, Air System and discharge system, wherein：Feed system and discharge system are separately positioned on furnace body Both ends outside 1；Furnace body 1 is internally provided with multiple groups transmission system, and multiple groups transmission system is successively arranged in furnace body 1 from top to bottom It is interior, multilayer Transfer pipe 11 will be separated into inside furnace body 1；Heating system is provided in each layer Transfer pipe 11；Circulating fan 3 The top of furnace body 1 is set, is connected to by Air System with each layer Transfer pipe 11.

It is arranged with multilayer Transfer pipe 11 specifically, being sequentially distributed from top to bottom inside tempering furnace furnace body 1, every layer of transmission is logical Road 11 is provided with independent transmission system, and every layer of transmission system can be docked with feed system and discharge system, workpiece Enter Transfer pipe 11 by feed system, is tempered in furnace body 1 by transmission system, is discharged finally by discharge system Furnace body 1, thus by selection Transfer pipe 11 level and the number of plies, freely adjust tempering period, realize continuously transmit with Period transmission, improves production efficiency, and multilayer or single layer quantity-produced operating mode also shorten the entirety of tempering furnace Length reduces space occupied.In addition, circulating fan 3 is arranged at the top of furnace body 1, heating system is set in every layer of Transfer pipe 11, Circulating fan 3 can be connected to by Air System with every layer of Transfer pipe 11, therefore form independent wind-guiding circulation air path, be protected The uniformity of 1 internal temperature of furnace body is demonstrate,proved.

Further, as shown in Figure 1, transmission system includes driving motor 21, material step device 22, material transferring device 23 and adjuster 24, wherein：Material step device 22 can be docked with feed system, and be connect with driving motor 21；Object Material 23 one end of transfer device is connect with material step device 22, and the other end can be docked with discharge system；The setting of adjuster 24 exists On material transferring device 23.Under the action of driving motor 21, material step device 22 can detect feed system, detect Whether the entrance of workpiece is had, if workpiece can be sent on material transferring device 23 by discovery workpiece, material step device 22, material Transfer device 23 can choose V belt translation or drum drive, and adjuster 24 is positioned close to one end of discharge system, pass through tune The elastic of the adjustable material transferring device 23 of device 24 is saved, realizes the adjustment to workpiece transmission speed.Workpiece is shifted in material and is filled It sets and is tempered on 23, eventually enter into discharge system, furnace body 1 is discharged by discharge system, realizes entire drawing process.

Further, feed system includes first motor 41 and feeding platform 42, and first motor 41 is fixed at furnace body 1 Outside, feeding platform 42 is controlled by lifting device and moves up and down and is docked with the material step device 22 of each layer Transfer pipe 11. Specifically, two fixed frames, first motor 41 up and down are provided with outside furnace body 1 can be set on upper holder, feeding platform 42 It is arranged between upper lower fixed frame by lifting device, the shape of feeding platform 42 is chosen according to the actual situation.Feeding platform 42 It can be moved up and down under the drive of first motor 41 by lifting device, and can be docked with each layer Transfer pipe 11, Realize the single layer of material workpiece or the entrance of multilayer.

Further, discharge system includes the second motor 51 and discharging platform 52, and the second motor 51 is fixed at furnace body 1 Outside, discharging platform 52 is controlled by lifting device and moves up and down and is docked with the material transferring device 23 of each layer Transfer pipe 11. Specifically, two fixed frames, the second motor 51 up and down are again provided with outside furnace body 1 can be set on lower fixed frame, discharge Platform 52 is arranged between upper lower fixed frame by lifting device, and the shape of discharging platform 52 is chosen according to the actual situation.Discharging Platform 52 can be moved up and down under the drive of the second motor 51 by lifting device, and can be right with each layer Transfer pipe 11 It connects, realizes the single layer of material workpiece or the discharge of multilayer.

Further, as shown in figure 3, Air System includes top wind deflector 61 and side wind deflector 62, top wind-guiding Plate 61 and side wind deflector 62 form air-guiding aisle 64.The top of top layer's Transfer pipe 11 is arranged in top wind deflector 61, and Transfer pipe 11 is arranged in parallel, and the two sides of Transfer pipe 11 are arranged in side wind deflector 62, extends along the direction of Transfer pipe 11. The top of side wind deflector 62 is connect with top wind deflector 61, the inner wall and top wind deflector 61 and side wind deflector of furnace body 1 62 threes form air-guiding aisle 64.

Further, as shown in Fig. 2, Air System further includes partition 63, partition 63 is set along 1 length direction interval of furnace body It sets, air-guiding aisle 64 is separated into multiple groups wind deflector unit 65.Partition 63 can be set before and after circulating fan 3, long along furnace body 1 The setting of direction interval is spent, air-guiding aisle 64 is separated into independent 65 space of wind deflector unit of multiple groups.

Further, circulating fan 3 is provided in every group of wind deflector unit 65.It is each only along the direction of Transfer pipe 11 One circulating fan 3 is set in vertical wind deflector unit 65, is effectively reduced while guaranteeing that 1 internal temperature of furnace body is uniform in this way The quantity of blower, reduces the Energy in use of equipment.

Further, as shown in figure 3, the top of top wind deflector 61, the air draught of circulating fan 3 is arranged in circulating fan 3 Mouth is connected to by the ventilation opening being arranged on top wind deflector 61 with air-guiding aisle 64.Circulating fan 3 includes air inlet and outlet air Mouthful, air outlet carries out air draft to two sides, and circulated air is flowed along air-guiding aisle 64, and it is logical then to enter transmission from the bottom of furnace body 1 Road 11, from the Transfer pipe 11 of the bottom, layer Transfer pipe 11 flows upwards in turn, passes through workpiece, is tempered to workpiece, most The air inlet for entering circulating fan 3 by the ventilation opening of top wind deflector 61 afterwards, realizes whole hot air circulation.

Further, the both ends of every layer of Transfer pipe 11 are respectively arranged with independent charging door system 7 and discharge door system System 8.The charging door system of each layer Transfer pipe and discharging door system can independent operating or combined running according to the actual situation, Every layer can carry out individual feeding and discharging.

Further, the inner wall of furnace body 1 is covered with insulating layer.The inner wall covering and heat insulating layer of furnace body 1 can guarantee in furnace body 1 The uniformity of portion's bulk temperature.

The utility model is further described by specific embodiment above, it should be understood that, have here The description of body, should not be construed as the restriction to the spirit and scope of the utility model, and one of ordinary skilled in the art is readding The various modifications made after reader specification to above-described embodiment belong to the range that the utility model is protected.

Claims (10)

1. a kind of multilayer continuous tempering furnace, which is characterized in that including feed system, furnace body, heating system, transmission system, circulation Blower, Air System and discharge system, wherein：

The feed system and the discharge system are separately positioned on the both ends outside the furnace body；

The furnace interior is provided with multiple groups transmission system, and transmission system described in multiple groups is successively arranged in the furnace body from top to bottom It is interior, the furnace interior is separated into multilayer Transfer pipe；

Heating system is provided in each layer Transfer pipe；

The top of the furnace body is arranged in the circulating fan, is connected to by the Air System with each layer Transfer pipe.

2. multilayer continuous tempering furnace according to claim 1, which is characterized in that the transmission system include driving motor, Material step device, material transferring device and adjuster, wherein：

The material step device can be docked with the feed system, and be connect with the driving motor；

Described material transferring device one end is connect with the material step device, and the other end can be docked with the discharge system；

The adjuster is arranged on the material transferring device.

3. multilayer continuous tempering furnace according to claim 2, which is characterized in that the feed system include first motor with And feeding platform, the first motor are fixed at the outside of the furnace body, control the feeding platform or more by lifting device Movement is docked with the material step device of each layer Transfer pipe.

4. multilayer continuous tempering furnace according to claim 2, which is characterized in that the discharge system include the second motor with And discharging platform, second motor are fixed at the outside of the furnace body, control the discharging platform or more by lifting device Movement is docked with the material transferring device of each layer Transfer pipe.

5. multilayer continuous tempering furnace according to claim 1, which is characterized in that the Air System includes top wind deflector And side wind deflector, the top wind deflector and the side wind deflector form air-guiding aisle.

6. multilayer continuous tempering furnace according to claim 5, which is characterized in that the Air System further includes partition, institute It states partition to be arranged along furnace body length direction interval, the air-guiding aisle is separated into multiple groups wind deflector unit.

7. multilayer continuous tempering furnace according to claim 6, which is characterized in that be provided in wind deflector unit described in every group The circulating fan.

8. multilayer continuous tempering furnace according to claim 7, which is characterized in that the circulating fan is arranged at the top The top of wind deflector, the air inlet of the circulating fan pass through the ventilation opening and the wind-guiding being arranged on the top wind deflector Channel connection.

9. multilayer continuous tempering furnace according to claim 1, which is characterized in that the both ends of every layer of Transfer pipe are divided equally It is not provided with independent charging door system and discharging door system.

10. multilayer continuous tempering furnace according to claim 1, which is characterized in that the inner wall of the furnace body is covered with heat preservation Layer.