CN104404217A - Quenching furnace smoke outlet heat energy recovery system of mesh heating furnace production line - Google Patents

Abstract

The invention provides a quenching furnace smoke outlet heat energy recovery system of a mesh heating furnace production line. The system comprises a quenching furnace, a quenching tank, a tempering furnace and a blackening tank which are sequentially connected, the quenching furnace is provided with a gas discharge tube, the gas discharge tube is provided with a second-stage heat energy recovery device, the second-stage heat energy recovery device comprises a heat collecting tube, a fan and a wind regulating valve, the heat collecting tube is provided with a heat connecting branch tube connected with the gas discharge tube of the quenching furnace in a branch manner, the fan is arranged on the heat collecting tube, the wind regulating valve is arranged at the outlet end of the fan, the outlet end of the wind regulating valve is divided into a first branch and a second branch, the outlet end of the first branch faces the inlet of the tempering furnace, the outlet end of the second branch faces the outlet end of the blackening tank, and a heat insulation layer is arranged outside each of the heat collecting tube, the heat collecting branch tube, the first branch and the second branch. The quenching furnace smoke outlet heat energy recovery system of the mesh heating furnace production line has the advantages of heat energy discharge reduction, reduction of the heat pollution to surrounding environment, energy saving, environmental protection, and substantial reduction of the production cost.

Description

A kind of quenching furnance smoke outlet heat reclaiming system of Web-strip hot furnace production line

Technical field

The present invention relates to a kind of bolt production unit, particularly a kind of Web-strip hot furnace production line quenching furnance smoke outlet heat reclaiming system.

Background technology

Bolt, after completing mechanical workout, will to quench to it, tempering and blackening process, to improve its physical strength and corrosion-resistant degree.In traditional technology, usually adopt resistance furnace to carry out processing treatment, by quenching furnance, bolt is heated to 850-870 DEG C, and carry out oil cooling realization quenching, then be sent to tempering stove by travelling belt and carry out temper, turn black through blackout groove again after carrying out tempering, after blackout, carry out drying and processing again.In order to improve quenching effect, usually bolt oil is chilled to normal temperature, then enters tempering stove tempering, tempering temperature is 500-650 DEG C, just and normal temperature bolt enters tempering stove needs a warm can reach this temperature, because this reducing the time of bolt tempering; Need a power to be that the well heater of 40-50KW carries out drying and processing to the bolt completing blackout in the exit of blackout groove, power consumption is large; On this streamline, the high-temperature gas of the discharge in quenching furnance is discharged from escape pipe, and this gas is combustion gases usually, and therefore temperature is high, is generally about 500 DEG C, and power loss is very serious, and causes serious thermal pollution to environment.

Summary of the invention

(1) technical problem that will solve

The technical problem to be solved in the present invention overcomes deficiency of the prior art, and providing a kind of can reclaim the heat energy on quenching furnance escape pipe, is used further to the Web-strip hot furnace production line quenching furnance smoke outlet heat reclaiming system of tempering preheating and blackout oven dry.

(2) technical scheme

For solving the problems of the technologies described above, the invention provides a kind of Web-strip hot furnace production line quenching furnance smoke outlet heat reclaiming system, comprise the quenching furnance 3 connected successively, quenching tank 6, tempering stove 7 and blackout groove 8, described quenching furnance 3 is provided with escape pipe 302, described escape pipe 302 is provided with secondary heat-energy recovering apparatus, described secondary heat-energy recovering apparatus comprises thermal-collecting tube 901, blower fan 902 and volume damper 903, described thermal-collecting tube 901 top set goes out the thermal-arrest arm 9011 be communicated with the escape pipe 302 of described quenching furnance 3, described blower fan 902 is arranged on described thermal-collecting tube 901, described volume damper 903 is arranged on the exit end of described blower fan 902, the exit end of described volume damper is branched off into the first branch road 904 and the second branch road 905, the exit end of described first branch road 904 is towards the inlet end of described tempering stove 7, the exit end of described second branch road 905 is towards the exit end of described blackout groove 8, described thermal-collecting tube 901, thermal-arrest arm 9011, thermal insulation layer is equipped with outside first branch road 904 and the second branch road 905.The program is by being undertaken the heat energy of quenching furnance air outlet reclaiming (tempering stove air outlet temperature is about 500 DEG C), tempering stove entrance and the outlet of blackout groove is sent to by thermal-collecting tube and blower fan, for carrying out thermal pretreatment to the bolt of tempering stove inlet end, drying and processing is carried out to the bolt of blackout groove outlet simultaneously, the hot blast temperature of this thermal-collecting tube exit end is 200-300 DEG C, avoid the pre-heating step of bolt in tempering stove, improve tempering effect; And decrease superpower (40-50KW) well heater of blackout groove exit end, reduce heat energy discharge, reduce the thermal pollution to surrounding environment, energy-conserving and environment-protective, greatly reduce production cost.

Further, described thermal-arrest arm 9011 is vertically arranged, and has gap between described thermal-arrest arm 9011 and the end of described escape pipe 302.This structure can reach effect of better blowing, and avoids managing interior air quantity too low.

Further, the end of described thermal-arrest arm 9011 is big top and small bottom tubaeform, and described flaring lower end diameter is greater than the diameter of described escape pipe 302.This structure can improve the recovering effect of heat energy, avoids the hot gas of production well to flow into surrounding environment.

Further, the exit end of described first branch road 904 and the second branch road 905 is provided with nozzle 906, and described nozzle is at least a row, often drains into rare two.This structure can make hot blast evenly discharge, improve pre-heat effect and drying efficiency.

Further, described thermal-collecting tube 901 comprises interconnective thermal-arrest section 9012 and delivery section 9013, and described thermal-arrest section 9012 is obliquely installed, and described thermal-arrest arm 9011 is positioned in described thermal-arrest section 9012.This structure is beneficial to the recovery of heat energy more.

Further, described first branch road 904 and the second branch road 905 are equipped with switch-valve 90.The program is beneficial to carries out open and close and balance adjustment to the air quantity of two branch roads.

Further, also comprise wind pressure sensor, described wind pressure sensor is positioned at the exit end of described volume damper 903.This wind pressure sensor can get information about blast in pipe, is beneficial to and carries out air quantity adjustment to two branch roads.

(3) beneficial effect

Web-strip hot furnace production line quenching furnance smoke outlet heat reclaiming system of the present invention, transformation is convenient, by the heat energy of quenching furnance air outlet being carried out reclaim (tempering stove air outlet temperature is about 500 DEG C), tempering stove entrance and the outlet of blackout groove is sent to by thermal-collecting tube and blower fan, for carrying out thermal pretreatment to the bolt of tempering stove inlet end, drying and processing is carried out to the bolt of blackout groove outlet simultaneously, the hot blast temperature of this thermal-collecting tube exit end is 200-300 DEG C, avoid the pre-heating step of bolt in tempering stove, improve tempering effect; And decrease superpower (40-50KW) well heater of blackout groove exit end, reduce heat energy discharge, reduce the thermal pollution to surrounding environment, energy-conserving and environment-protective, greatly reduce production cost.

Accompanying drawing explanation

Fig. 1 is the overall heat reclaiming system of Web-strip hot furnace production line of the present invention;

Fig. 2 is the quenching furnance entrance heat reclaiming system of Web-strip hot furnace production line of the present invention;

Fig. 3 is the first structural representation of the heat pipe of the quenching furnance entrance heat reclaiming system of Web-strip hot furnace production line of the present invention;

Fig. 4 is the second structural representation of the heat pipe of the quenching furnance entrance heat reclaiming system of Web-strip hot furnace production line of the present invention;

Fig. 5 is the quenching furnance smoke outlet heat reclaiming system of Web-strip hot furnace production line of the present invention;

Fig. 6 is the structural representation of the nozzle of the quenching furnance smoke outlet heat reclaiming system of Web-strip hot furnace production line of the present invention;

Fig. 7 is the tempering stove outlet heat reclaiming system of Web-strip hot furnace production line of the present invention;

Fig. 8 is the structural representation of the serpentine tube of the heat pipe of the tempering stove outlet heat reclaiming system of Web-strip hot furnace production line of the present invention;

In figure: 1, feeder, 2, front cleaning machine, 201, front rinse bath, 3, quenching furnance, 301, chimney, 302, escape pipe, 401, water tank, 4011, water-in, 4012, water outlet, 402, heat pipe, 403, pump, 404, rising pipe, 405, water inlet pipe, 5, strainer, 6, quenching tank, 7, tempering stove, 8, blackout groove, 90, switch-valve, 901, thermal-collecting tube, 9011, thermal-arrest arm, 9012, thermal-arrest section, 9013, delivery section, 902, blower fan, 903, volume damper, 904, first branch road, 905, second branch road, 906, nozzle, 10, oiling machine, 1101, heat pipe, 1102, the pump housing, 1103, oil inlet pipe, 1104, oil outlet pipe, 1105, shower nozzle, 1106, check valve, 12, heat collecting tank,

Embodiment

Consult Fig. 1, the overall heat reclaiming system of Web-strip hot furnace production line of the present invention, this Web-strip hot furnace production line comprises the feeder 1, front cleaning machine 2, quenching furnance 3, quenching tank 6, tempering stove 7, blackout groove 8 and the oiling machine 10 that connect successively, one-level heat-energy recovering apparatus is provided with at the inlet end of quenching furnance, secondary heat-energy recovering apparatus is provided with at the exit end of quenching furnance, be provided with three grades of heat-energy recovering apparatus at the exit end of tempering stove, respectively each heat-energy recovering apparatus be described in detail below;

The quenching furnance entrance heat reclaiming system of Web-strip hot furnace production line:

Consult Fig. 1 to Fig. 4, the present invention the invention provides a kind of quenching furnance entrance heat reclaiming system of Web-strip hot furnace production line, comprise the feeder 1 connected successively, front cleaning machine 2 and quenching furnance 3, rinse bath 201 before front cleaning machine 2 is provided with, for filling buck in this front rinse bath, the inlet end of quenching furnance 3 is provided with chimney 301, this chimney 301 is provided with one-level heat-energy recovering apparatus, this one-level heat-energy recovering apparatus comprises water tank 401, heat pipe 402 and pump 403, water tank 401 is set in outside chimney 301, heat pipe 402 is positioned at chimney 301, the exit end of heat pipe 402 is connected with the water-in 4011 of water tank 401, the water outlet 4012 of the sidewall of water tank 401 is communicated with front rinse bath 201 through rising pipe 404, the inlet end of heat pipe 402 is communicated with front rinse bath 201 through water inlet pipe 405, pump 403 is arranged on water inlet pipe 405, at water tank 401, thermal insulation layer is equipped with outside rising pipe 404 and water inlet pipe 405.This one-level heat-energy recovering apparatus can reclaim the heat energy of quenching furnance inlet end, and for heating the buck in front rinse bath, which reduce the front rinse bath well heater of high-power (30-40KW), reduce heat energy discharge, reduce the thermal pollution to surrounding environment, energy-conserving and environment-protective, greatly reduce production cost.

In order to increase the surface-area of coil pipe in chimney, fully can absorb the heat energy in chimney, the heat pipe 402 in the present embodiment is coil pipe, and the axis being parallel of the axis of this coil pipe and chimney 301.

In order to improve the contact area of coil pipe and flame further, and the radius of spin improving the coil pipe in heat absorption usefulness and energy recovery the present embodiment from bottom to top reduces successively or increases successively.

In order to water tank itself can be made also to have energy recovery usefulness, namely realize heat trnasfer by surface contact, thus improve energy recovery usefulness, the water tank 401 in the present embodiment is annular, and the inwall of this water tank 401 and the outer wall of chimney bonded to each other.

In order to avoid pump aqueous reflux under suspended state, the level height of the water outlet 4012 of water tank 401 is higher than the level height of water-in 4011.

In order to improve the security of heating tube, under pump suspended state, avoid aqueous reflux to make heating tube be in anhydrous and cause dry combustion method, improve the work-ing life of heating tube, the maximum horizontal height of this water inlet pipe 405 is more than or equal to the elevation of water surface of water tank 401.

In order to the impurity in rinse bath before energy elimination, this impurity is avoided to enter pump and water tank through pipeline and cause pump along bad or line clogging, improve operation stability, water inlet pipe 405 is provided with strainer 5, this strainer 5 is rinse bath 201 between pump 403 and front rinse bath 201 or before being positioned at.

In order to carry out stable detection by temperature-detecting device to buck, thus the start and stop of control pump, the temperature of the buck before ensureing in rinse bath controls between 60 DEG C-70 DEG C, to reach best cleaning performance, in front rinse bath 201, is provided with temperature-detecting device.This temperature-detecting device can hot resistance or temperature sensor.

Reduce improvement cost have good thermal conductivity simultaneously to reduce, the heat pipe 402 in the present embodiment is weldless steel tube or copper pipe.

This one-level heat reclaiming system, transformation is convenient, can reclaim the heat energy of quenching furnance inlet end, and for heating the buck in front rinse bath, decrease a powerful front rinse bath well heater, reduce heat energy discharge, reduce the thermal pollution to surrounding environment, energy-conserving and environment-protective, greatly reduce production cost.

The quenching furnance smoke outlet heat reclaiming system of Web-strip hot furnace production line:

Participate in Fig. 5-Fig. 6, the invention provides a kind of Web-strip hot furnace production line quenching furnance smoke outlet heat reclaiming system, comprise the quenching furnance 3 connected successively, quenching tank 6, tempering stove 7 and blackout groove 8, quenching furnance 3 is provided with escape pipe 302 (i.e. smoke exhaust pipe), escape pipe 302 is provided with secondary heat-energy recovering apparatus, this secondary heat-energy recovering apparatus comprises thermal-collecting tube 901, blower fan 902 and volume damper 903, this thermal-collecting tube 901 top set goes out the thermal-arrest arm 9011 be communicated with the escape pipe 302 of quenching furnance 3, blower fan 902 is arranged on this thermal-collecting tube 901, volume damper 903 is arranged on the exit end of blower fan 902, the exit end of volume damper is branched off into the first branch road 904 and the second branch road 905, the exit end of the first branch road 904 is towards the inlet end of tempering stove 7, for carrying out preheating to by the bolt entering tempering stove, the exit end of the second branch road 905 is towards the exit end of blackout groove 8, for drying the bolt completing blackout, thermal-collecting tube 901, thermal-arrest arm 9011, thermal insulation layer is equipped with outside first branch road 904 and the second branch road 905.This secondary heat-energy recovering apparatus is by being undertaken the heat energy of quenching furnance air outlet reclaiming (tempering stove air outlet temperature is about 500 DEG C), tempering stove entrance and the outlet of blackout groove is sent to by thermal-collecting tube and blower fan, for carrying out thermal pretreatment to the bolt of tempering stove inlet end, drying and processing is carried out to the bolt of blackout groove outlet simultaneously, the hot blast temperature of this thermal-collecting tube exit end is 200-300 DEG C, avoid the pre-heating step of bolt in tempering stove, improve tempering effect; And decrease superpower (40-50KW) well heater of blackout groove exit end, reduce heat energy discharge, reduce the thermal pollution to surrounding environment, energy-conserving and environment-protective, greatly reduce production cost.

In order to reach effect of better blowing, avoid managing interior air quantity too low, in the present embodiment, thermal-arrest arm 9011 is vertically arranged, and has gap between the end of thermal-arrest arm 9011 and escape pipe 302.

In order to improve the recovering effect of heat energy, avoid the hot gas of production well to flow into surrounding environment, the end of thermal-arrest arm 9011 is big top and small bottom tubaeform, and this flaring lower end diameter is greater than the diameter of escape pipe 302.

In order to make hot blast evenly discharge, improve pre-heat effect and drying efficiency, the exit end of the first branch road 904 and the second branch road 905 is provided with nozzle 906, and this nozzle is at least a row, often drains into rare two.(consulting Fig. 6)

In order to improve people's energy rate of recovery further, the thermal-collecting tube 901 in the present embodiment comprises interconnective thermal-arrest section 9012 and delivery section 9013, and thermal-arrest section 9012 is obliquely installed, and thermal-arrest arm 9011 is positioned in thermal-arrest section 9012.

In order to be beneficial to, open and close and balance adjustment be carried out to the air quantity of two branch roads, the first branch road 904 and the second branch road 905 be equipped with switch-valve 90.

In order to get information about blast in pipe, be beneficial to and carry out air quantity adjustment to two branch roads, it also includes wind pressure sensor, and this wind pressure sensor is positioned at the exit end of volume damper 903.

Secondary heat reclaiming system of the present invention, transformation is convenient, by the heat energy of quenching furnance air outlet being carried out reclaim (tempering stove air outlet temperature is about 500 DEG C), tempering stove entrance and the outlet of blackout groove is sent to by thermal-collecting tube and blower fan, for carrying out thermal pretreatment to the bolt of tempering stove inlet end, drying and processing is carried out to the bolt of blackout groove outlet simultaneously, the hot blast temperature of this thermal-collecting tube exit end is 200-300 DEG C, avoid the pre-heating step of bolt in tempering stove, improve tempering effect; And decrease superpower (40-50KW) well heater of blackout groove exit end, reduce heat energy discharge, reduce the thermal pollution to surrounding environment, energy-conserving and environment-protective, greatly reduce production cost.

Web-strip hot furnace production line tempering stove outlet heat reclaiming system:

Consult Fig. 7-Fig. 8, the invention provides a kind of Web-strip hot furnace production line tempering stove outlet heat reclaiming system, comprise the tempering stove 7 connected successively, blackout groove 8 and oiling machine 10, oiling machine 10 is provided with fuel tank, this tempering stove is provided with three grades of heat-energy recovering apparatus, these three grades of heat-energy recovering apparatus comprise heat pipe 1101, the pump housing 1102 and shower nozzle 1105, this heat pipe 1101 is positioned at the exit end of tempering stove 7, the inlet end of heat pipe 1101 is communicated with fuel tank by oil inlet pipe 1103, the exit end of heat pipe 1101 is connected with shower nozzle 1105 after the pump housing 1102 by oil outlet pipe 1104, shower nozzle 1105 is positioned at oiling machine 10, outside oil inlet pipe 1103 and described oil outlet pipe 1104, be provided with thermal insulation layer simultaneously.The heat energy (temperature is 300-400 DEG C) in tempering stove exit reclaims by these three grades of heat-energy recovering apparatus, and for about heating slushing oil to 70 in oiling machine DEG C, for carrying out antirust treatment to bolt, this technical scheme eliminates the well heater of high-power (30-40KW) in oiling machine, reduce heat energy discharge, reduce the thermal pollution to surrounding environment, energy-conserving and environment-protective, greatly reduce production cost.

In order to be beneficial to the heat energy collecting tempering stove exit end, prevent it from flowing into air with hot gas and causing thermal waste and cause thermal pollution to environment, the uncovered heat collecting tank in lower end 12 is provided with at the exit end of tempering stove 7, outside this heat collecting tank 12, be provided with thermal insulation layer, heat pipe 12 is positioned at this heat collecting tank 12.

In order to increase the contact area of heat pipe and hot gas, improve energy recovery efficiency, heat pipe 12 is coil pipe or serpentine tube.Serpentine tube structure consults Fig. 8.

Flow backwards when air pump inoperative in order to avoid the slushing oil in oil circuit and make heat pipe cause dry combustion method, the present embodiment is provided with check valve 1106 on oil inlet pipe 1103.

In order to improve the collection of heat energy, reducing hot loss of energy to greatest extent, being provided with composite reflection heat-insulating shield at the internal surface of heat collecting tank 12.

In order to the temperature of slushing oil in pipe can be understood in real time, be beneficial to the flow of control pump and control temperature, oil outlet pipe 1104 is provided with temperature sensor.

In order to improve heat energy recovery rate, be beneficial to and ensure slushing oil temperature in pipe when high flow capacity oil spout, this heat pipe 1101 is copper pipe or aluminum pipe.

The present invention's three grades of heat reclaiming systems, the heat energy (temperature is 300-400 DEG C) in tempering stove exit is reclaimed, and for about heating slushing oil to 70 in oiling machine DEG C, for carrying out antirust treatment to bolt, this technical scheme eliminates the well heater of high-power (30-40KW) in oiling machine, reduces heat energy discharge, reduces the thermal pollution to surrounding environment, energy-conserving and environment-protective, greatly reduce production cost.

The present invention passes through the energy recovery of production line quenching furnance and tempering stove, and quenching preheating on same production line, tempering preheating, blackout are dried and slushing oil heating, decrease multiple well heater, save power at more than 100KW, annual saving cost, at about 100W, greatly reduces production cost, improves productivity effect, avoid the thermal pollution to workshop simultaneously, improve Working environment.

The above is only the preferred embodiment of the present invention; it should be pointed out that for those skilled in the art, under the prerequisite not departing from the technology of the present invention principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (7)

1. the quenching furnance smoke outlet heat reclaiming system of a Web-strip hot furnace production line, it is characterized in that: comprise the quenching furnance (3) connected successively, quenching tank (6), tempering stove (7) and blackout groove (8), described quenching furnance (3) is provided with escape pipe (302), described escape pipe (302) is provided with secondary heat-energy recovering apparatus, described secondary heat-energy recovering apparatus comprises thermal-collecting tube (901), blower fan (902) and volume damper (903), described thermal-collecting tube (901) top set goes out the thermal-arrest arm (9011) be communicated with the escape pipe of described quenching furnance (3) (302), described blower fan (902) is arranged on described thermal-collecting tube (901), described volume damper (903) is arranged on the exit end of described blower fan (902), the exit end of described volume damper is branched off into the first branch road (904) and the second branch road (905), the exit end of described first branch road (904) is towards the inlet end of described tempering stove (7), the exit end of described second branch road (905) is towards the exit end of described blackout groove (8), described thermal-collecting tube (901), thermal-arrest arm (9011), thermal insulation layer is equipped with outside first branch road (904) and the second branch road (905).

2. the quenching furnance smoke outlet heat reclaiming system of Web-strip hot furnace production line as claimed in claim 1, it is characterized in that: described thermal-arrest arm (9011) is vertically arranged, and has gap between the end of described thermal-arrest arm (9011) and described escape pipe (302).

3. the quenching furnance smoke outlet heat reclaiming system of Web-strip hot furnace production line as claimed in claim 2, it is characterized in that: the end of described thermal-arrest arm (9011) is big top and small bottom tubaeform, and described flaring lower end diameter is greater than the diameter of described escape pipe (302).

4. the quenching furnance smoke outlet heat reclaiming system of Web-strip hot furnace production line as claimed in claim 1, it is characterized in that: the exit end of described first branch road (904) and the second branch road (905) is provided with nozzle (906), described nozzle is at least a row, often drains into rare two.

5. the quenching furnance smoke outlet heat reclaiming system of Web-strip hot furnace production line as claimed in claim 1, it is characterized in that: described thermal-collecting tube (901) comprises interconnective thermal-arrest section (9012) and delivery section (9013), described thermal-arrest section (9012) is obliquely installed, and described thermal-arrest arm (9011) is positioned on described thermal-arrest section (9012).

6. the quenching furnance smoke outlet heat reclaiming system of the Web-strip hot furnace production line as described in claim 1 to 5 one, is characterized in that: described first branch road (904) and the second branch road (905) are equipped with switch-valve (90).

7. the quenching furnance smoke outlet heat reclaiming system of the Web-strip hot furnace production line as described in claim 1 to 5 one, it is characterized in that: also comprise wind pressure sensor, described wind pressure sensor is positioned at the exit end of described volume damper (903).