CN106494852A - Stamping steel plate waste recovery systems - Google Patents

Abstract

A kind of stamping steel plate waste recovery systems, including buffering hopper and ribbon conveyer：The buffering hopper includes by an annular connecting portion and the upper pipeline section and lower tube section of integrally connected, the ribbon conveyer includes frame, conveyer belt, carrying roller, cylinder group, the carrying roller has symmetrical structure, its side roller section for including horizontally disposed middle roll segment and being connected to the middle roll segment two ends, the angle between the side roller section and the middle roll segment is no more than 165 ° of obtuse angle.The invention provides a kind of stamping steel plate waste recovery systems of safe and reliable, high degree of automation.

Description

Stamping steel plate waste recovery systems

Technical field

The invention belongs to auto parts and components manufacture field, specifically, is a kind of stamping steel plate waste recovery systems.

Background technology

Comprehensive expression of person of the automobile as modern industrial technology, is integrated with machine-building and the every technology for automatically controlling, is The important symbol of the national process industry level of reflection one.Meanwhile, the development of auto industry also has huge to industrial technology Impetus.

Used as a developing country, China is actively developing auto industry, to realizing from manufacturing powerhouse to system Make the transformation of industry power.Therefore, auto industry becomes more and more important in national economy, gradually plays a part of industrial pillar.

In the automotive industry, the manufacture of parts is important production link.The multiplex steelplate punching of auto parts and components is formed, Stampings needs to be reclaimed, and to keep the cleaning of processing environment, and avoids wasting.Having wedge angle sharp offcut of steel plate more Side, quite sharp, under existing way of recycling, the infringement to relative device or the person is easily caused, than relatively hazardous.

Content of the invention

In order to overcome the deficiencies in the prior art, the invention provides a kind of stamping steel plate waste recovery systems, safe and reliable Realize steel sheet scrap reclaim.

The purpose of the present invention is achieved through the following technical solutions：

A kind of stamping steel plate waste recovery systems, including buffering hopper and ribbon conveyer：

The buffering hopper includes by an annular connecting portion and the upper pipeline section and lower tube section of integrally connected；

The upper pipeline section has bearing material wall on first, and on described first, the angle of bearing material wall and the annular connecting portion is the One angle, first angle is obtuse angle；

The lower tube section has first time bearing material wall, and the angle of first time bearing material wall and the annular connecting portion is the Two angles, second angle are not more than 45 °；

The supplementary angle of first angle is not more than the complementary angle of second angle；

The ribbon conveyer includes frame, conveyer belt, carrying roller, cylinder group；

The cylinder group includes that the driving cylinder and bend pulley located at the frame two ends, the drive roller shaft end set There are the driving means for driving the driving cylinder to rotate, the driving cylinder to be arranged in parallel with the bend pulley；

The conveyer belt is to be tensioned to the endless belt for driving cylinder and the bend pulley, and which has for bearing thing The material feeding section of material；

Multiple carrying rollers are located at below the material feeding section, and the direction of motion along the material feeding section is distributed in the driving Between cylinder and the bend pulley；

The carrying roller has symmetrical structure, its side for including horizontally disposed middle roll segment and being connected to the middle roll segment two ends Roll segment, the angle between the side roller section and the middle roll segment are no more than 165 ° of obtuse angle；

Upper surface of the lower opening portion of the lower tube section just to the material feeding section.

Used as the improvement of above-mentioned technical proposal, the upper pipeline section is the ring body with terrace with edge profile, and the ring body is away from institute State the area of one end area more than the annular connecting portion of annular connecting portion.

As the further improvement of above-mentioned technical proposal, the upper pipeline section be by bearing material wall on described first, the second upper wall, The ring body that 3rd upper wall, the 4th upper wall are formed by connecting successively from beginning to end, second upper wall, the 4th upper wall are with the annular even The angle of socket part is obtuse angle.

Used as the further improvement of above-mentioned technical proposal, on described first, bearing material wall is directly connected with first time bearing material wall Connect.

Used as the further improvement of above-mentioned technical proposal, the annular connecting portion is provided with a reinforcing plate.

Used as the further improvement of above-mentioned technical proposal, the conveyer belt also includes the extension relative with the material feeding section Section, the ribbon conveyer also include that multiple second carrying rollers, multiple second carrying rollers are located at the lower section of the extension section, and edge The direction of motion of the extension section is distributed between the driving cylinder and the bend pulley, and second carrying roller is prolonged with described Exhibition section keeps contact.

As the further improvement of above-mentioned technical proposal, spacing range between multiple second carrying rollers is 750～ 850mm.

As the further improvement of above-mentioned technical proposal, the spacing range between multiple carrying rollers be 240mm～ 270mm.

Used as the further improvement of above-mentioned technical proposal, the driving means are electric rotating machine.

Used as the further improvement of above-mentioned technical proposal, the conveyer belt is rubber conveyer belt.

The invention has the beneficial effects as follows：There is the buffering hopper of specific annexation and with ad hoc structure by setting Ribbon conveyer, makes stamping steel plate waste material safely and reliably be reclaimed, there is provided a kind of safe and reliable, high degree of automation Stamping steel plate waste recovery systems.

For enabling the above objects, features and advantages of the present invention to become apparent, preferred embodiment cited below particularly, and coordinate Appended accompanying drawing, is described in detail below.

Description of the drawings

In order to be illustrated more clearly that the technical scheme of the embodiment of the present invention, below by to be used attached needed for embodiment Figure is briefly described, it will be appreciated that the following drawings illustrate only certain embodiments of the present invention, and it is right to be therefore not construed as The restriction of scope, for those of ordinary skill in the art, on the premise of not paying creative work, can be with according to this A little accompanying drawings obtain other related accompanying drawings.

Fig. 1 is the structural representation of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided；

Fig. 2 is the structural perspective of the buffering hopper of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided；

Fig. 3 is the first perspective view of the buffering hopper of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided；

Fig. 4 is the second perspective view of the buffering hopper of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided；

Fig. 5 is the 3rd perspective view of the buffering hopper of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided；

Fig. 6 is the structural perspective of the ribbon conveyer of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided；

Fig. 7 is that the plan structure of the ribbon conveyer of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided is thrown Shadow figure；

Fig. 8 is that the left view structure of the ribbon conveyer of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided is thrown Shadow figure；

Fig. 9 is the structure of the carrying roller of the ribbon conveyer of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided Perspective view；

Figure 10 is the second carrying roller of the ribbon conveyer of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided Structural perspective；

Figure 11 is that the structure of looking up of the ribbon conveyer of the stamping steel plate waste recovery systems that the embodiment of the present invention 1 is provided is thrown Shadow figure.

Main element symbol description：

1000- stamping steel plate waste recovery systems, 0100- buffer hopper, the upper pipeline sections of 0110-, bearing material on 0111- first Wall, the second upper walls of 0112-, the 3rd upper walls of 0113-, the 4th upper walls of 0114-, 0120- annular connecting portions, 0130- lower tube sections, First time bearing material wall of 0131-, 0140- reinforcing plates, 0200- ribbon conveyers, α-the first angles, β-the second angles, 0200- belts Conveyer, 0210- frames, 0220- conveyer belts, 0221- material feeding sections, 0222- extension sections, 0223- drive tension section, 0224- to change To tension section, 0230- carrying rollers, roll segment in 0231-, 0232- side roller sections, 0240- cylinder groups, 0241- drive cylinder, 0242- to change To cylinder, 0243- driving means, the second carrying rollers of 0250-.

Specific embodiment

For the ease of understanding the present invention, stamping steel plate waste recovery systems are carried out more comprehensively below with reference to relevant drawings Description.The preferred embodiment of stamping steel plate waste recovery systems is given in accompanying drawing.But, stamping steel plate waste recovery systems Can be realized by many different forms, however it is not limited to embodiment described herein.On the contrary, providing these embodiments Purpose be make the disclosure to stamping steel plate waste recovery systems more thorough comprehensively.

It should be noted that when element is referred to as " being fixed on " another element, it can directly on another element Or can also there is element placed in the middle.When an element is considered as " connection " another element, it can be directly connected to To another element or may be simultaneously present centering elements.Conversely, when element be referred to as " directly existing " another element " on " when, There is no intermediary element.Term as used herein " vertical ", " level ", "left", "right" and similar statement are For illustrative purposes.

Unless otherwise defined, all of technology used herein and scientific terminology and the technical field for belonging to the present invention The implication that technical staff is generally understood that is identical.Herein in the term used in the description of stamping steel plate waste recovery systems It is intended merely to the purpose for describing specific embodiment, it is not intended that limit the present invention.Term as used herein " and/or " include The arbitrary and all of combination of one or more related Listed Items.

Embodiment 1

Fig. 1 is referred to, stamping steel plate waste recovery systems 1000 include buffering hopper 0100 and ribbon conveyer 0200, its In：

Buffering hopper 0100 is located at below pressing equipment waste outlet, for accepting the waste material produced by stamping steel plate.

Ribbon conveyer 0200 is used for continuously conveying waste material, waste material is transported in time.Preferably, belt is defeated It can be ribbon conveyer to send machine 0200.Ribbon conveyer closure conveyer belt group mainly by two end points cylinders and tight set thereon Into, operated by driving conveyer belt by the frictional force between cylinder and conveyer belt, useless on conveyer belt so as to realize The transport of material.

Fig. 2 is referred to, buffering hopper 0100 includes by an annular connecting portion 0120 and the upper pipeline section 0110 of integrally connected With lower tube section 0130.

Upper pipeline section 0110 is pipeline configuration with lower tube section 0130, and the two two ends has opening portion.Annular connecting portion 0120 For loop configuration, the lower end opening portion of pipeline section 0110 and the upper end opening portion of lower tube section 0130 is naturally connected, keeps one Insertion is smooth.

Specifically, buffering hopper 0100 has a penetration opening portion, extends from the upper end opening portion of upper pipeline section 0110 Lower end opening portion to lower tube section 0130.Thus, waste material can pass through buffering hopper 0100 by penetration opening portion.

Please refer to Fig. 3 and Fig. 4, upper pipeline section 0110 has bearing material wall 0111 on first, on first bearing material wall 0111 with The angle of annular connecting portion 0120 is the first angle α, and the first angle α is obtuse angle.

Lower tube section 0130 has the angle of first time bearing material wall 0131, first time bearing material wall 0131 and annular connecting portion 0120 For the second angle β, no more than 45 ° of the second angle β.

Further, the supplementary angle of the first angle α is not more than the complementary angle of the second angle β.In this angular range, bearing material wall on first 0111 is smoothly compact with the transition structure of first time bearing material wall 0131, it is ensured that waste material bearing material wall 0111 from first is fallen under first In order, active force preferably has good buffer deceleration to the process of bearing material wall 0131.

Preferably, bearing material wall 0111 is directly connected to first time bearing material wall 0131 on first.In other words, bearing material wall on first 0111 lower surface coincides with annular connecting portion 0120 with the upper surface of first time bearing material wall 0131.Now, bearing material wall on first 0111 and the angle of first time bearing material wall 0131 be α and β sums.

Thus, waste material falls into upper pipeline section 0110 from upper end opening portion.As the first angle α is obtuse angle, waste material is hampered by the Bearing material wall 0111 on one, its movement of falling object state stop, and realize first time deceleration buffer.

Under the frictional resistance of bearing material wall 0111 and the collective effect of waste material deadweight on first, waste material is subsequently held along first The surface of material wall 0111 and move downward, the slowly entrance lower tube section by bearing material wall 0111 on first and annular connecting portion 0120 0130.

As the second angle β is acute angle, waste material is hampered by first time bearing material wall 0131, realizes second deceleration buffer.? Under the collective effect that the frictional resistance of first time bearing material wall 0131 is conducted oneself with dignity with waste material, waste material is along the surface of first time bearing material wall 0131 And move downward, first time bearing material wall 0131 is slow transitted through, and buffering hopper is left from the lower end opening portion of lower tube section 0130 0100.

It is apparent that on first bearing material wall 0111, first time bearing material wall 0131 decelerating effect, than falling into buffering material Speed before bucket 0100, waste material are greatly lowered through the speed after buffering hopper 0100.Fall when which leaves buffering hopper 0100 When entering ribbon conveyer 0200, the speed of waste material is less, will not impact destruction to ribbon conveyer 0200 and surrounding enviroment, It is effectively protected ribbon conveyer 0200 and personal safety.

Preferably, upper pipeline section 0110 is the ring body with terrace with edge profile, end face of the ring body away from annular connecting portion 0120 Area of the product more than annular connecting portion 0120.Thus, the upper end opening portion area of upper pipeline section 0110 is larger, enters beneficial to waste material, Avoid because opening portion area is too small and cause unrestrained or inefficiency.

Further preferably, upper pipeline section 0110 be by bearing material wall 0111 on first, the second upper wall 0112, the 3rd upper wall 0113, The ring body that 4th upper wall 0114 is formed by connecting successively from beginning to end, the second upper wall 0112, the 4th upper wall 0114 and annular connecting portion 0120 Angle be obtuse angle.

Still more preferably, the 3rd upper wall 0113 is also obtuse angle with the angle of annular connecting portion 0120.

Under such configuration, the area coverage of upper pipeline section 0110 is more wide, is easy to the waste material of stamping steel plate to fall into buffering material In bucket 0100.Meanwhile, the design at obtuse angle also ensure that enough contacts area, make waste material be subject to sufficient cushioning effect.

Refer to Fig. 5, it is preferable that annular connecting portion 0130 is provided with a reinforcing plate 0140, further enhances pipeline section 0110 Structural stability with lower tube section 0130.

Fig. 6, Fig. 7 and Fig. 8 is please referred to, ribbon conveyer 0200 includes frame 0210, conveyer belt 0220, carrying roller 0230th, cylinder group 0240, wherein：

0210 bottom of frame is connected with ground, and each part of ribbon conveyer 0200 is formed firmly in frame 0210 Device structure.

Cylinder group 0240 includes the driving cylinder 0241 and bend pulley 0242 located at 0210 two ends of frame, drives cylinder 0241 shaft end is provided with the driving means 0243 for driving cylinder 0241 to rotate, and drives cylinder 0241 and bend pulley 0242 It is arranged in parallel.

Wherein, cylinder 0241 is driven to be used for driving conveyer belt 0220 to operate, bend pulley 0242 is used for changing conveyer belt 0220 rotation direction, it is ensured that the cycle operation of conveyer belt 0220.

Preferably, driving means 0243 are electric rotating machine.Preferably, electric rotating machine can also pass through decelerator and drive cylinder 0241 connection, to obtain preferably output speed.

Conveyer belt 0220 drives the endless belt of cylinder 0241 and bend pulley 0242 for being tensioned to, and which has for bearing thing The material feeding section 0221 of material and the extension section 0222 relative with material feeding section 0221, can in cylinder group 0240 cycle operation.

Specifically, conveyer belt 0220 also include connecting the driving tension section 0223 of material feeding section 0221 and extension section 0222 with Changed course tension section 0224, drives tension section 0223 to be tensioned on driving cylinder 0241, and changed course tension section 0224 is tensioned to changed course rolling On cylinder 0242.

Due to the presence of tensioning relation, tension section 0223 is driven with driving cylinder 0241, changed course tension section 0224 and changed course There is rubbing action between cylinder 0242, frictional force therebetween serves as the driving force of driving effect.

During operating, driving means 0243 drive cylinder 0241 to rotate, and drive cylinder 0241 to drive by frictional drive Dynamic driving tension section 0223 is moved.Tension section 0223 is driven to drive material feeding section 0221, extension section 0222 and changed course tension section 0224 Motion.

Further, changed course tension section 0224 drives bend pulley 0242 to rotate by frictional drive, 0242 turn of bend pulley And apply changed course effect to conveyer belt 0220, so as to realize that conveyer belt 0220 is being driven on cylinder 0241 and bend pulley 0242 Circulatory motion, is transported the waste material positioned at material feeding section 0221.

Preferably, conveyer belt 0220 is rubber conveyer belt, and which has preferably shock-absorbing capacity and relatively low manufacturing cost.

Fig. 9 and Figure 10 is please referred to, multiple carrying rollers 0230 are distributed in driving cylinder along the direction of motion of material feeding section 0221 Between 0241 and bend pulley 0242, and it is located at below material feeding section 0221.Preferably, multiple carrying rollers 0230 are along material feeding section 0221 The direction of motion is uniformly distributed.

Specifically, when waste material is fallen in material feeding section 0221, material feeding section 0221 is impacted by waste material and there is deformation downwards Trend.Due to the supporting role of carrying roller 0230, material feeding section 0221 does not deform, and the momentum suffered by which is transmitted to carrying roller 0230.

Thus, the impact that conveyer belt 0220 is subject in blanking is less, and blastic deformation will not occur, and effectively extends defeated Send the service life with 0220.

Preferably, carrying roller 0230 can be made up of macromolecular material, with preferably toughness and less coefficient of friction.Here Under situation, when carrying roller 0230 is subject to material feeding section 0221 to impact, carrying roller 0230 can occur a certain degree of elastic deformation, realize into one The buffering off-load of step.

Simultaneously as it is less to rub between carrying roller 0230 and material feeding section 0221, it is to avoid the friction damage to conveyer belt 0220, Further extend the service life of conveyer belt 0220.

Carrying roller 0230 has symmetrical structure, and which includes horizontally disposed middle roll segment 0231 and is connected to 0231 two ends of middle roll segment Side roller section 0232, the angle of side roller section 0232 and middle roll segment 0231 is no more than 165 ° of obtuse angle.Under this angled arrangement, side Roll segment 0232 is prevented from waste material bounce-back and deviates from from material feeding section 0221.

Preferably, the angle of side roller section 0232 and middle roll segment 0231 is no more than 140 ° of obtuse angle, and leak preventing effect is more preferably.

Specifically, waste material is collided when carrying roller 0230, and due to Impulse upwards, waste material will be rebounded upwards.Especially Ground, when waste material shape is uneven, momentum suffered by which has cross component, makes waste material that there is the trend for laterally ejecting.Due to side roller Section 0232 there are angled relationships, waste material to be hampered by side roller section 0232 and be dropped back in material feeding section 0221 again with middle roll segment 0231, Avoid the material leakage risk that waste material comes off.

Preferably, the spacing range between multiple carrying rollers 0230 is 240mm～270mm.In the spacing range, multiple supports The supporting role of roller 0230 is ideal.The part that material feeding section 0221 is located between carrying roller 0230 will not be long, it is to avoid conveyer belt 0220 sagging length is excessive and fail, further extend conveyer belt 0220 service life.

Figure 11 and Figure 12 is please referred to, ribbon conveyer 0200 also includes the second carrying roller 0250, multiple second carrying rollers 0250 lower section for being located at extension section 0222, and the direction of motion along extension section 0222 is distributed in driving cylinder 0241 and bend pulley Between 0242, the second carrying roller 0250 keeps contacting with extension section 0222.Preferably, multiple second carrying rollers 0250 are along extension section 0222 The direction of motion be uniformly distributed.

Specifically, 0250 pair of extension section 0222 of the second carrying roller has supporting role, can strengthen the structure of conveyer belt 0220 Stability.

When material feeding section 0221 is subject to the blanking of waste material to impact, 0220 further tensioning of conveyer belt drives tension section 0223 There is the trend for further increasing with the interaction between cylinder 0241 is driven.Now, 0250 pair of extension section of the second carrying roller 0222 produces supporting role upwards, offsets the downward impulsive force of waste material.

Thus, drive tension section 0223 and drive the active force between cylinder 0241 that steep increasing will not occur.In other words, convey With 0220 and the frictional force between cylinder 0241 is driven to be held essentially constant, it is to avoid the transmission that frictional force increases suddenly and is led to is disorderly Risk.

Preferably, the second carrying roller 0250 is regular cylindrical body, and central shaft keeps horizontally disposed.Now, the second carrying roller Frictional force between 0250 and extension section 0222 is less, reduces unnecessary friction interference and wear damage.

Preferably, the spacing range between multiple second carrying rollers 0250 is 750～850mm.Here in the range of, multiple More preferably, and quantity is relatively reasonable, advantageously reduces manufacturing cost for the supporting role of second 0250 pair of extension section 0222 of carrying roller.

To sum up, upper surface of the lower opening portion of lower tube section 0130 just to the material feeding section 0221 of ribbon conveyer 0200, gives up Expect that buffered hopper 0100 is fallen on ribbon conveyer 0200 after buffering.Buffered hopper 0100 buffer after waste material have compared with Little speed, is steadily contacted with the surface of ribbon conveyer 0200 and is fallen, will not impact damage to ribbon conveyer 0200 Evil.

Preferably, when deviating from from the lower opening portion of lower tube section 0130, the direction of the horizontal direction velocity component of waste material with The conveying direction of ribbon conveyer 0200 is consistent.Thus, waste material is less with the relative velocity of ribbon conveyer 0200, further excellent Change the waste material stationarity of the contact with ribbon conveyer 0200.

In all examples being illustrated and described herein, any occurrence should be construed as merely exemplary, and not It is that therefore, other examples of exemplary embodiment can have different values as restriction.

It should be noted that：Similar label and letter represent similar terms in following accompanying drawing, therefore, once a certain Xiang Yi It is defined in individual accompanying drawing, then in subsequent accompanying drawing which further need not be defined and be explained.

Embodiment described above only expresses the several embodiments of the present invention, and its description is more concrete and detailed, but simultaneously Therefore limitation of the scope of the invention can not be interpreted as.It should be pointed out that for the person of ordinary skill of the art, Without departing from the inventive concept of the premise, some deformations and improvement can also be made, these belong to the protection model of the present invention Enclose.Therefore, protection scope of the present invention should be defined by claims.

Claims (10)

1. a kind of stamping steel plate waste recovery systems, it is characterised in that including buffering hopper and ribbon conveyer：

The buffering hopper includes by an annular connecting portion and the upper pipeline section and lower tube section of integrally connected；

The upper pipeline section has bearing material wall on first, and on described first, bearing material wall is the first folder with the angle of the annular connecting portion Angle, first angle is obtuse angle；

The lower tube section has first time bearing material wall, and first time bearing material wall is the second folder with the angle of the annular connecting portion Angle, second angle are not more than 45 °；

The supplementary angle of first angle is not more than the complementary angle of second angle；

The ribbon conveyer includes frame, conveyer belt, carrying roller, cylinder group；

The cylinder group includes that the driving cylinder and bend pulley located at the frame two ends, the drive roller shaft end are provided with use It is arranged in parallel with the bend pulley in the driving means for driving cylinder rotation, the driving cylinder are driven；

The conveyer belt is to be tensioned to the endless belt for driving cylinder and the bend pulley, and which has for bearing material Material feeding section；

Multiple carrying rollers are located at below the material feeding section, and the direction of motion along the material feeding section is distributed in the driving cylinder Between the bend pulley；

The carrying roller has symmetrical structure, its side roller for including horizontally disposed middle roll segment and being connected to the middle roll segment two ends Section, the angle between the side roller section and the middle roll segment is no more than 165 ° of obtuse angle；

Upper surface of the lower opening portion of the lower tube section just to the material feeding section.

2. stamping steel plate waste recovery systems according to claim 1, it is characterised in that the upper pipeline section is with terrace with edge The ring body of profile, the ring body away from the annular connecting portion one end area more than the annular connecting portion area.

3. stamping steel plate waste recovery systems according to claim 1, it is characterised in that the upper pipeline section is by described The ring body that bearing material wall, the second upper wall, the 3rd upper wall, the 4th upper wall are formed by connecting successively from beginning to end on one, second upper wall, described 4th upper wall is obtuse angle with the angle of the annular connecting portion.

4. stamping steel plate waste recovery systems according to claim 1, it is characterised in that bearing material wall and institute on described first State first time bearing material wall to be directly connected to.

5. stamping steel plate waste recovery systems according to claim 1, it is characterised in that the annular connecting portion is provided with Reinforcing plate.

6. stamping steel plate waste recovery systems according to claim 1, it is characterised in that the conveyer belt also includes and institute The relative extension section of material feeding section is stated, the ribbon conveyer also includes that multiple second carrying rollers, multiple second carrying rollers are located at institute The lower section of extension section is stated, and the direction of motion along the extension section is distributed between the driving cylinder and the bend pulley, Second carrying roller keeps contacting with the extension section.

7. stamping steel plate waste recovery systems according to claim 6, it is characterised in that between multiple second carrying rollers Spacing range be 750～850mm.

8. stamping steel plate waste recovery systems according to claim 1, it is characterised in that between multiple carrying rollers It is 240mm～270mm away from scope.

9. stamping steel plate waste recovery systems according to claim 1, it is characterised in that the driving means are electric rotating Machine.

10. stamping steel plate waste recovery systems according to claim 1, it is characterised in that the conveyer belt is that rubber is defeated Send band.