CN205615021U - Energy -saving ground mat production line - Google Patents

Abstract

The utility model relates to a ground mat processing field, concretely relates to energy -saving ground mat production line, include: loading attachment, processing chamber, material collecting device, cut device and cooling device, the processing chamber includes: the zone of heating and cooling space, the zone of heating and cooling space communicate each other, the zone of heating and cooling space intercommunication department set up the median, the zone of heating includes, foaming passageway and heating system, foaming passageway inner wall is provided with the reflection stratum, heating system includes, wave source transmitter, wave guide and present can mouthful, it includes to cut the device: frame, rotary device, cutting bed and control mechanism, the processing chamber entrance is provided with and preheats the district, cooling device includes cooling tube and cooler, the cooling tube includes two winding sections, winding section winding respectively is in feeding part is distinguished with preheating to the wave source transmitter, winding section on the wave source transmitter links to each other with the export of cooler, winding section in the section of preheating links to each other with the entry of cooler.

Description

A kind of energy-saving ground pad production line

Technical field

This utility model relates to ground cushion manufacture field, is specifically related to a kind of energy-saving ground pad production line.

Background technology

At present, the elementary production steps of foam polyolefin material ground cushion includes, unreels, foams, shapes, rolling and cutting.The foaming furnace of existing foaming furnace uses the mode such as hot blast, steam to provide the hot environment required for foaming, and usual foaming furnace to carrying out the heat temperature raising of thermal conductivity in stove, reaches blowing temperature by modes such as electrical heating or fuel heating.This mode of heating weak effect, expanded material travelling speed in stove is slow, and furnace volume is big, and the foaming effect in stove can be caused tremendous influence by the thermal loss that heating furnace is imported and exported.Need to transfer to individually implement on autonomous device additionally, rolling sizing and fixed length are cut so that the production process of ground cushion slows down further, is unfavorable for the raising of production efficiency.

Such as, notification number is a kind of irradiated crosslinked polyalkene foaming equipment disclosed in CN1799809A, the mode of the preheating of employing level and vertical foaming furnace carries out foamable to polyolefine material, but its there is problems in that 1, firing rate slow, adding thermal energy consumption high, in heating process, the steam in stove cannot make full use of.2, vertical foaming section is longer, and expanded material, when vertical foaming, has certain elongation under gravity, and inside needs to be provided with expanding unit, can cause the infringement of material surface, affect end product quality while launching expanded material.3, after having foamed, the material transfer that needs a person with the qualifications of a general carries out next step processing, and automaticity is low, and manual labor amount is high.4, the most energy-conservation, need to utilize substantial amounts of electric power or fuel to heat.

Utility model content

The purpose of this utility model, is the problem in order to solve in background technology, it is provided that a kind of energy-saving ground pad production line.

Above-mentioned technical purpose of the present utility model has the technical scheme that

A kind of energy-saving ground pad production line, including: feeding device, Processing Room, material collecting device, cutting device and chiller；

Described Processing Room includes: the thermal treatment zone in order to foaming materials and the cooling zone in order to material shaping, the thermal treatment zone and cooling zone are interconnected, and the described thermal treatment zone and cooling zone connectivity part are provided with the isolation strip with opening；The described thermal treatment zone includes, strip cross section foaming passage and in order in described foaming passage material heating heating system, described foaming passage is respectively arranged with material inlet and the material outlet of bar slit along the two ends of material conveying direction, and described foaming vias inner walls is provided with reflecting layer；Described heating system includes, wave source emitter, waveguide and energy regenerative mouth, described wave source emitter is arranged on outside described foaming passage, and described energy regenerative mouth is arranged on the sidewall of described foaming passage, and the two ends of described waveguide are connected with described wave source emitter and energy regenerative mouth respectively；

Described cutting device includes: frame, in order to drive the rotary apparatus of material, in order to cut the cutting bed of material, in order to the pay-off of upper and lower material with coordinate to control the controlling organization of each device operating；Described rotary apparatus includes the driver being fixed in frame, the rotating shaft being connected with driver and in order to support and the detent mechanism of positioning rotating shaft；Multiple cutting member fixed mount it is provided with on described cutting bed, the cutting member of strip it is provided with on cutting member fixed mount, adjustable between cutting member fixed mount and cutting bed it is connected, make the distance between each cutting member adjustable, slide mechanism it is provided with between cutting bed and frame, cutting bed by slide mechanism along away from or move near the direction of rotating shaft, described cutting bed is provided with control the distance-sensor of cutting bed stroke；

Described Processing Room porch is additionally provided with pre-add hot-zone, described pre-add hot-zone includes some pre-add hot arcs, described chiller includes cooling tube and cooler, described cooler includes outlet that cryogen exports and the entrance that high temperature fluid enters, described cooling tube includes that two are wound around section, described winding section is respectively wound around at the charging of described wave source emitter and pre-add hot-zone, winding section on described wave source emitter is connected with the outlet of cooler, and the winding section on described pre-add hot arc is connected with the entrance of cooler.

Described wave source emitter is magnetron, magnetron produces microwave, under the transmission of waveguide, enter foaming passage from energy regenerative mouth material is heated, owing to microwave heating is the mode of heating without medium, the mode firing rate comparing tradition electrical heating or gas heating is quicker, it is required that to add heat space less, material deformation quantity in the thermal treatment zone is little, in addition, being joined directly together of the thermal treatment zone and cooling zone, it is ensured that after foaming, the direct cooling and shaping of material, further reduce the deformation in the course of processing, improve end product quality.Wave source transmitter power is higher, and running hours can produce big calorimetric, and cooling liquid in pipe is raised by temperature after wave source emitter, is introduced at the charging of pre-add hot-zone and can tentatively preheat expanded material, reclaims heat, improves device energy conservation efficiency.Cutting device is connected with material collecting device, blade vertical cut on material collecting device cutting bed cuts the material being rotated by rotating shaft, speed is fast, efficiency is high, cutting member can adjust spacing on cutting tables by cutting member fixed mount simultaneously, thus formed and different cut specification, and directly cut by the cutting member of strip, make it have bigger swath, it is applicable to cutting of major diameter package material, it is provided with to control the distance-sensor of cutting bed stroke on described cutting bed, in order to control the motion amplitude of cutting bed, thus ensure cutting width, the major diameter material volume of output in coupling Processing Room that can be good.

As preferably, described chiller also includes the fan being arranged in Processing Room and the exhaustor communicated with fan, one end of described exhaustor is connected with fan, the other end is wrapped in outside described pre-add hot arc, described fan is extraction fan, it is arranged on foaming passage and is positioned at one end of material inlet, with expellant gas in foaming passage, expanded material in pre-add hot-zone is carried out the pre-heat treatment, improve energy utilization rate.

As preferably, described foaming passage includes several resonance ranges, and in described each resonance range, all individually coupling has independent heating system, is provided with dividing plate, is provided with preheating zone between described resonance range and material inlet between resonance range.

As preferably, described resonance range is rectangle stereochemical structure, described energy regenerative mouth is symmetrically distributed on two sidewalls that resonance range is relative, and it is provided with multiple energy regenerative mouth on each sidewall, described energy regenerative mouth is disc, waveguide sources is arranged on the center of energy regenerative mouth disk, some slots it are provided with on energy regenerative mouth, slot is rectangle, slot is arranged in many groups in a linear fashion, slot arranges in emitting shape centered by circle disk center, slot is arranged in multiple groups along launching line, wherein every slot launched on line is also gradually increased along with its length of increase of distance center of circle distance.Slot quantity on described transmitting line is 3-8 bar, and the distance between adjacent slot is the positive integer times of guide wavelength half.Equal in order to ensure every slot radiation microwave power out, it is ensured that stable heats, microwave forms standing wave at resonance range so that the microwave energy that in resonance range, fixed position receives is constant, reaches more stable heats.

As preferably, described feeding device includes that discharging rod and unreeling structure, described discharging rod are arranged on the top of described material inlet；Described material collecting device includes setting roll group, carry-over pinch rolls group and rolling-up mechanism, in described setting roll group is arranged on cooling zone and close on the position at material outlet, and it being provided with to cool down the cooling channel of expanded material in described setting roll group, the two ends of cooling channel are connected with entrance respectively at the outlet of described cooler.Described setting roll group include multipair two-by-two relative to and have different pressures setting roll composition, in order to the most repeatedly to shape, cooling channel is in order to keep the cooling on setting roll group surface, thus improves fixed effect.

As preferably, described isolation strip includes preventing transmitted wave from entering absorbing reflecting layer and entering the thermal insulation layer of cooling zone in order to completely cut off thermal treatment zone heat of cooling zone, and described absorption reflecting layer uses rustless steel microwave suppressing plate, and described thermal insulation layer uses asbestos board.Heat is completely cut off, it is ensured that the fixed effect of cooling zone while preventing microwave leakage.

As preferably, described cutting member is the blade of strip, described blade includes the blade district cut and in order to support the knife back district in blade district, blade district includes multiple cutter unit being arranged in order, described cutter unit includes the transition cut length of distance knife back district the first cut length, second cut length nearer apart from back of the body district and connection transition the first cut length farther out and the second cut length, described first cut length is the raised structures in blade district, plays the cutting action to material；Described transition cut length is to connect the first cut length and the smooth linear of the second cut length or camber line, plays the effect that material section burr is repaired cutting；Described second cut length is the notch configuration in blade district, plays further cutting and by the discharge of material chip and the effect that prevents swaging clamp, additionally has the effect reducing blade caloric value.This kind of blade is made to be particularly suitable for the cutting of expanded material.

As preferably, described pay-off includes the slide rail being arranged in frame, the truck slided in frame by slide rail and be arranged on truck the lifting platform in order to support material, material volume held by lifting platform, under the drive of truck, material volume can be enclosed within rotating shaft or unloads from rotating shaft, when the spindle is rotated, lifting platform can be prevented effectively from away from rotating shaft and collide with the material volume rotated, it is ensured that crudy.

Preferred as such scheme, described lifting platform periphery is enclosed with soft cushion pad, in order to protect material.

As preferably, described detent mechanism includes, in order to the push rod of positioning rotating shaft, in order to the positioning cylinder driving push rod and the guide rail moved in order to detent mechanism, when cutting, positioning cylinder promotes push rod to prop up rotating shaft, it is ensured that the stable rotation of rotating shaft, cuts quality to improve；When upper and lower material, detent mechanism moves to the other end of frame by guide rail, for the space required for the offer of upper and lower material.

As preferably, described rotating shaft is gas expansion shaft, rotating shaft is connected side and is provided with the gas tube being passed through in rotating shaft with driver, sealer it is provided with, the fixing package material that the rotating shaft of gas expansion shaft formula can be good so that material when rotated will not be with rotating shaft generation relative motion between gas tube and rotating shaft, ensure that cutting effect, pass through sealer, it is ensured that rotating shaft is air tight in rotating, and remains the fixed performance good to package material simultaneously.

As preferably, described controlling organization includes receiving signal and arranging the master controller of program, be arranged on sensor and controller that frame side in order to the control station manipulated and is connected with master controller by holding wire；Described sensor includes: pressure transducer and position sensor, and pressure transducer is arranged at the truck of pay-off, and position sensor is arranged at slide mechanism, at the slide rail of pay-off and at the guide rail of detent mechanism；Described controller includes, switch in order to control the driving of driver start and stop, in order to control the cutting bed driver that cutting bed slides, in order to control the feeding driver of truck slip, in order to control the anchor drive of detent mechanism slip and in order to control the gas-filled switching tube of gas tube opening and closing.

As preferably, described cutting bed is provided with the blowing mouth arranged towards blade cooled down, controls the temperature of blade, to ensure good cutting effect.

In sum, the beneficial effects of the utility model:

One energy-saving ground the most described in the utility model pad production line uses microwave foaming and quickly cuts united mode, substantially increases the speed of production of ground cushion.

One the most described in the utility model energy-saving ground cushion production line automation degree is high, and polyalkene foaming sheet material passes through this programme, can directly be processed into the ground cushion finished product that dimensions is up to standard, and end product quality is high, apparent more smooth.

One energy-saving ground the most described in the utility model pad production line, energy utilization rate is high, makes full use of the heat energy in recirculated cooling water and foaming passage, more energy-conserving and environment-protective.

Accompanying drawing explanation

Fig. 1 is perspective view of the present utility model；

Fig. 2 is structural representation of the present utility model；

Fig. 3 is the structural representation of heating system in this utility model；

Fig. 4 is the perspective view of cutting device in this utility model；

Fig. 5 is the structural representation of cutting device in this utility model；

Fig. 6 is the structural representation of blade in this utility model；

Fig. 7 is the structural representation of this utility model embodiment 2.

Detailed description of the invention

Specific examples below is only to explanation of the present utility model; it is not to restriction of the present utility model; the present embodiment can be made after reading this specification by those skilled in the art as required does not has the amendment of creative contribution, but as long as all being protected by Patent Law in right of the present utility model.

With embodiment, this utility model is described in detail below in conjunction with the accompanying drawings.

Embodiment 1:

According to Fig. 1～Fig. 5, a kind of energy-saving ground pad production line, including: feeding device 1, Processing Room 2, material collecting device 3, cutting device 8 and chiller 9；

Processing Room 2 includes: the thermal treatment zone 4 in order to foaming materials and the cooling zone 5 in order to material shaping, the thermal treatment zone 4 and cooling zone 5 are interconnected, and the thermal treatment zone 4 and cooling zone 5 connectivity part are provided with the isolation strip 21 with opening；The thermal treatment zone 4 includes, strip cross section foaming passage 6 and in order in the passage 6 that foams material heating heating system 7, foaming passage 6 is respectively arranged with material inlet 61 and the material outlet 62 of bar slit along the two ends of material conveying direction, and foaming passage 6 inwall is provided with reflecting layer 63；Heating system 7 includes, wave source emitter 71, waveguide 72 and energy regenerative mouth 73, and wave source emitter 71 is arranged on outside foaming passage 6, and energy regenerative mouth 73 is arranged on the sidewall of foaming passage 6, and the two ends of waveguide 72 are connected with wave source emitter 71 and energy regenerative mouth 73 respectively；

Cutting device 8 includes: frame 81, in order to drive the rotary apparatus 82 of material, in order to cut the cutting bed 83 of material, in order to the pay-off 84 of upper and lower material with coordinate to control the controlling organization 85 of each device operating；Rotary apparatus 82 includes the driver 821 being fixed in frame 81, the rotating shaft 822 being connected with driver 821 and in order to support and the detent mechanism 823 of positioning rotating shaft 822；Multiple cutting member fixed mount 831 it is provided with on cutting bed 83, the cutting member of strip it is provided with on cutting member fixed mount 831, adjustable between cutting member fixed mount 831 with cutting bed 83 it is connected, make the distance between each cutting member adjustable, slide mechanism 833 it is provided with between cutting bed 83 and frame 81, cutting bed 83 by slide mechanism 833 along away from or move near the direction of rotating shaft 822, cutting bed 83 is provided with control the distance-sensor 834 of cutting bed 83 stroke；

Processing Room 2 porch is additionally provided with pre-add hot-zone 22, pre-add hot-zone 22 includes some pre-add hot arcs 221, chiller 9 includes cooling tube 91 and cooler 92, cooler 92 includes outlet that cryogen exports and the entrance that high temperature fluid enters, cooling tube 91 includes that two are wound around section, it is wound around section and is respectively wound around at the charging of wave source emitter 71 and pre-add hot-zone 22, winding section on wave source emitter 71 is connected with the outlet of cooler 92, and the winding section on pre-add hot arc 221 is connected with the entrance of cooler 92.

Foaming passage 6 includes three resonance ranges 601, resonance range 601 is arranged above and below, the most respectively in order to preheat, foam and to be incubated, in each resonance range 601, all individually coupling has independent heating system 7, it is provided with dividing plate 602 between resonance range 601, between resonance range 601 and material inlet 61, is provided with preheating zone 603.

nullResonance range 601 is rectangle stereochemical structure，Energy regenerative mouth 73 is symmetrically distributed on two sidewalls that resonance range 601 is relative，And it is provided with multiple energy regenerative mouth 73 on each sidewall，Energy regenerative mouth 73 is disc，Waveguide sources is arranged on the center of energy regenerative mouth 73 disk，Some slots 731 it are provided with on energy regenerative mouth 73，Slot 731 is rectangle，Slot 731 is arranged in many groups in a linear fashion，Slot 731 arranges in emitting shape centered by circle disk center，Slot 731 is arranged in multiple groups along launching line，Slot 731 is arranged in multiple groups along launching line，Slot 731 quantity that often group is launched on line is 5，Distance between adjacent slot 731 is 73.5mm，Slot 731 width is 6mm，Slot 731 length is outwards followed successively by 17.58mm by circle disk center，19.14mm，21.03mm，24.06mm，28.56mm，Each length of side of resonance range 601 is 2450MHz with frequency f of energy regenerative mouth 73 transmitted wave，Power 50kw，Resonance range 601 length, width and height are respectively 200cm、40cm and 35cm.

Feeding device 1 includes discharging rod 11 and unreeling structure 12, and discharging rod 11 is arranged on the top of material inlet 61；Material collecting device 3 includes setting roll group 31, carry-over pinch rolls group 32 and rolling-up mechanism 33, in setting roll group 31 is arranged on cooling zone 5 and close on the position at material outlet 62, and in setting roll group 31, it being provided with to cool down the cooling channel 311 of expanded material, the two ends of cooling channel 311 are connected with entrance respectively at the outlet of cooler 92.

Isolation strip 21 includes preventing transmitted wave from entering absorbing reflecting layer 211 and entering the thermal insulation layer 212 of cooling zone 5 in order to completely cut off the thermal treatment zone 4 heat of cooling zone 5, absorbs reflecting layer and uses rustless steel microwave suppressing plate, and thermal insulation layer uses asbestos board.

According to Fig. 6, cutting member is the blade 832 of strip, blade 832 includes the blade district 8321 cut and in order to support the knife back district 8322 in blade district 8321, blade district 8321 includes multiple cutter unit 8323 being arranged in order, cutter unit 8323 includes the first cut length 8324, second cut length 8325 nearer apart from back of the body district 8322 and connection transition the first cut length 8324 farther out and the transition cut length 8326 of the second cut length 8325 apart from knife back district 8322, first cut length is the raised structures in blade district, plays the cutting action to material；Transition cut length is to connect the first cut length and the smooth linear of the second cut length or camber line, plays the effect that material section burr is repaired cutting；Second cut length is the notch configuration in blade district, play further cutting and by the discharge of material chip and the effect that prevents swaging clamp, additionally there is the effect reducing blade caloric value, this kind of blade is made to be particularly suitable for the cutting of expanded material, blade 32 a length of 400～1200mm, blade 32 thickness is 0.05～2.5mm.

According to Fig. 4, Fig. 5; pay-off 84 includes the slide rail 841 being arranged in frame 81; the truck 842 that slided in frame 81 by slide rail 841 and be arranged on truck 842 lifting platform 843 in order to support material, lifting platform periphery is enclosed with soft cushion pad, in order to protect material.

Detent mechanism 823 includes, in order to the push rod 8231 of positioning rotating shaft 822, in order to the positioning cylinder 8232 driving push rod 8231 and the guide rail 8233 moved in order to detent mechanism 823, when cutting, positioning cylinder promotes push rod to prop up rotating shaft, ensure the stable rotation of rotating shaft, cut quality to improve；When upper and lower material, detent mechanism moves to the other end of frame by guide rail, for the space required for the offer of upper and lower material.

Rotating shaft 822 is gas expansion shaft, rotating shaft 822 is connected side and is provided with the gas tube 8221 being passed through in rotating shaft 822 with driver 821, sealer 8222 it is provided with between gas tube 8221 and rotating shaft 822, the rotating shaft of gas expansion shaft formula can be good fixing package material, make the material when rotated will not be with rotating shaft generation relative motion, it is ensured that cutting effect, pass through sealer simultaneously, ensure that rotating shaft is air tight in rotating, remain the fixed performance good to package material.

Controlling organization 85 includes receiving signal and arranging the master controller of program, be arranged on sensor and controller that frame 81 side in order to the control station manipulated and is connected with master controller by holding wire；Sensor includes: pressure transducer and position sensor, and pressure transducer is arranged at the truck 842 of pay-off 84, and position sensor is arranged at slide mechanism 833, at the slide rail 841 of pay-off 84 and at the guide rail 8233 of detent mechanism 823；Controller includes, switch in order to control the driving of driver 821 start and stop, in order to control the cutting bed driver that cutting bed 83 slides, in order to control the feeding driver of truck 842 slip, in order to control the anchor drive of detent mechanism 823 slip and in order to control the gas-filled switching tube of gas tube 8221 opening and closing.

When production line puts into operation, by feeding device 1, foaming mother metal feeding pre-add hot-zone 22 is preheated, heat required for preheating is from the heating of heating system 7 and the heating of multistage heating wire, subsequently foaming mother metal is sent into Processing Room 2, through foaming passage 6 post-foaming mother metal foaming and intumescing in the thermal treatment zone 4, shape subsequently into cooling zone 5 fast cooling, after the pressure set in setting roll group 31 is issued to predetermined thickness, rolling is collected by material collecting device 3, coiled material is sent into cutting device 8 subsequently cut to need size, by pay-off 84, finished product is sent after cutting, complete the production of whole ground cushion.

Embodiment 2:

It is with above-described embodiment 1 difference, as shown in Figure 7, chiller 9 also includes the fan 93 being arranged in Processing Room 2 and the exhaustor 94 communicated with fan 93, one end of exhaustor is connected with fan 93, the other end is wrapped in outside pre-add hot arc 221, and fan is extraction fan, is arranged on foaming passage and is positioned at one end of material inlet, with expellant gas in foaming passage, expanded material in pre-add hot-zone is carried out the pre-heat treatment, improve energy utilization rate.

Claims (10)

1. an energy-saving ground pad production line, it is characterised in that including: feeding device (1), Processing Room (2), material collecting device (3), cutting device (8) and chiller (9)；

Described Processing Room (2) including: the thermal treatment zone (4) in order to foaming materials and the cooling zone (5) in order to material shaping, the thermal treatment zone (4) and cooling zone (5) are interconnected, and the described thermal treatment zone (4) and cooling zone (5) connectivity part are provided with the isolation strip (21) with opening；The described thermal treatment zone (4) includes, the foaming passage (6) in strip cross section and the heating system (7) in order to the heating of described foaming passage (6) interior material, described foaming passage (6) is respectively arranged with material inlet (61) and the material outlet (62) of bar slit along the two ends of material conveying direction, and described foaming passage (6) inwall is provided with reflecting layer (63)；Described heating system (7) includes, wave source emitter (71), waveguide (72) and energy regenerative mouth (73), described wave source emitter (71) is arranged on described foaming passage (6) outward, described energy regenerative mouth (73) is arranged on the sidewall of described foaming passage (6), and the two ends of described waveguide (72) are connected with described wave source emitter (71) and energy regenerative mouth (73) respectively；

Described cutting device (8) including: frame (81), in order to drive the rotary apparatus (82) of material, in order to cut the cutting bed (83) of material, in order to the pay-off (84) of upper and lower material with coordinate to control the controlling organization (85) of each device operating；Described rotary apparatus (82) includes the driver (821) being fixed in frame (81), the rotating shaft (822) being connected with driver (821) and in order to support and the detent mechanism (823) of positioning rotating shaft (822)；Multiple cutting member fixed mount (831) it is provided with on described cutting bed (83), the cutting member of strip it is provided with on cutting member fixed mount (831), adjustable between cutting member fixed mount (831) with cutting bed (83) it is connected, make the distance between each cutting member adjustable, slide mechanism (833) it is provided with between cutting bed (83) and frame (81), cutting bed (83) by slide mechanism (833) along away from or near rotating shaft (822) direction move, it is provided with to control the distance-sensor (834) of cutting bed (83) stroke on described cutting bed (83)；

Described Processing Room (2) porch is additionally provided with pre-add hot-zone (22), described pre-add hot-zone (22) includes some pre-add hot arcs (221), described chiller (9) includes cooling tube (91) and cooler (92), described cooler (92) includes outlet that cryogen exports and the entrance that high temperature fluid enters, described cooling tube (91) includes that two are wound around section, described winding section is respectively wound around at the charging of described wave source emitter (71) and pre-add hot-zone (22), winding section on described wave source emitter (71) is connected with the outlet of cooler (92), winding section on described pre-add hot arc (221) is connected with the entrance of cooler (92).

One energy-saving ground the most according to claim 1 pad production line, it is characterized in that, described chiller (9) also includes the fan (93) being arranged in Processing Room (2) and the exhaustor (94) communicated with fan (93), one end of described exhaustor is connected with fan (93), and the other end is wrapped in described pre-add hot arc (221) outward.

One energy-saving ground the most according to claim 2 pad production line, it is characterized in that, described foaming passage (6) includes several resonance ranges (601), in described each resonance range (601), all individually coupling has independent heating system (7), it is provided with dividing plate (602) between resonance range (601), between described resonance range (601) and material inlet (61), is provided with preheating zone (603).

nullOne energy-saving ground the most according to claim 3 pad production line，It is characterized in that，Described resonance range (601) is rectangle stereochemical structure，Described energy regenerative mouth (73) is symmetrically distributed on two sidewalls that resonance range (601) is relative，And it is provided with multiple energy regenerative mouth (73) on each sidewall，Described energy regenerative mouth (73) is disc，Waveguide sources is arranged on the center of energy regenerative mouth (73) disk，Some slots (731) it are provided with on energy regenerative mouth (73)，Slot (731) is rectangle，Slot (731) is arranged in many groups in a linear fashion，Slot (731) arranges in emitting shape centered by circle disk center，Slot (731) is arranged in multiple groups along launching line，Wherein every slot (731) launched on line is also gradually increased along with its length of increase of distance center of circle distance.

One energy-saving ground the most according to claim 4 pad production line, it is characterised in that described feeding device (1) includes discharging rod (11) and unreeling structure (12), described discharging rod (11) is arranged on the top of described material inlet (61)；Described material collecting device (3) includes setting roll group (31), carry-over pinch rolls group (32) and rolling-up mechanism (33), described setting roll group (31) is arranged in cooling zone (5) and closes on the position at material outlet (62) place, and it being provided with to cool down the cooling channel (311) of expanded material in described setting roll group (31), the two ends of cooling channel (311) are connected with entrance respectively at the outlet of described cooler (92).

One energy-saving ground the most according to claim 5 pad production line, it is characterized in that, described isolation strip (21) include preventing transmitted wave from entering the absorption reflecting layer (211) of cooling zone (5) and entering the thermal insulation layer (212) of cooling zone (5) in order to completely cut off the thermal treatment zone (4) heat.

null7. according to the one energy-saving ground pad production line described in claim 1-6 any one，It is characterized in that，Described cutting member is the blade (832) of strip，Described blade (832) includes the blade district (8321) cut and in order to support the knife back district (8322) in blade district (8321)，Blade district (8321) includes multiple cutter unit (8323) being arranged in order，Described cutter unit (8323) includes distance knife back district (8322) the first cut length (8324) farther out、Distance is carried on the back nearer the second cut length (8325) in district (8322) and connects the transition cut length (8326) of transition the first cut length (8324) and the second cut length (8325)，Described first cut length (8324) is the raised structures in blade district (8321)；Described transition cut length (8326) is to connect the first cut length (8324) and the smooth linear of the second cut length (8325) or camber line；Described second cut length (8325) is the notch configuration in blade district (8321).

One energy-saving ground the most according to claim 6 pad production line, it is characterized in that, described pay-off (84) includes the slide rail (841) being arranged in frame (81), at the upper truck (842) slided of frame (81) and is arranged on truck (842) lifting platform (843) in order to support material by slide rail (841).

One energy-saving ground the most according to claim 7 pad production line, it is characterized in that, described detent mechanism (823) includes, in order to the push rod (8231) of positioning rotating shaft (822), in order to drive the positioning cylinder (8232) of push rod (8231) and in order to the guide rail (8233) of detent mechanism (823) movement.

One energy-saving ground the most according to claim 8 pad production line, it is characterized in that, described rotating shaft (822) is gas expansion shaft, rotating shaft (822) is connected side and is provided with the gas tube (8221) being passed through in rotating shaft (822) with driver (821), is provided with sealer (8222) between gas tube (8221) and rotating shaft (822).