CN208556141U - A kind of binary channels belt transport unit and Rolling shear for Rolling shear - Google Patents

Abstract

The utility model discloses a kind of binary channels belt transport units and Rolling shear for Rolling shear, the binary channels belt transport unit for being used for Rolling shear includes slide carriage (3), turnover panel (4) and the first transport mechanism (1) and the second transport mechanism (2) arranged side by side, when turnover panel (4) turns to the upper end of turnover panel (4) close to the position of slide carriage (3) lower end, material only can successively slip over slide carriage (3) and turnover panel (4) is fallen on the second transport mechanism (2)；When turnover panel (4) turns to the upper end of turnover panel (4) far from the position of slide carriage (3) lower end, material can only slip over slide carriage (3) and fall on the first transport mechanism (1).This is used for the binary channels belt transport unit of Rolling shear and Rolling shear and is separated sample and waste material in advance by turnover panel, falls on respective belt and transports.The Rolling shear greatly reduces the labor intensity of worker, also avoids artificial fault rate.

Description

A kind of binary channels belt transport unit and Rolling shear for Rolling shear

Technical field

The utility model relates to field of metallurgical mechanical equipment, a kind of particularly binary channels belt-conveying for Rolling shear Device or a kind of Rolling shear containing the binary channels belt transport unit.

Background technique

For cut deal Rolling shear, cut deal is mainly cut into the regular length of user's needs, it may be assumed that sizing plate. These sizing plates are quality assurance, need to sample it and carry out inspection chemical examination.And the steel plate after each shearing can also generate waste material, Therefore, waste material and sample can be generated on the transport device after shearing and are deposited.Traditional Rolling shear use a kind of channel, i.e., one Transport device, sample and waste material are run on this transport device.Subsequent to need manually to be sorted, larger workload increases The labor intensity of worker is added.

Utility model content

In order to solve the problems, such as that existing Rolling shear is ineffective.The utility model provides a kind of for Rolling shear Binary channels belt transport unit and Rolling shear, this is used for the binary channels belt transport unit of Rolling shear and Rolling shear will by turnover panel Sample and waste material separate in advance, fall on respective belt and transport.Waste material is transported directly to waste material by waste material transportation belt Frame, and sample is directly transported to inspection laboratory by sample belt, does further inspection chemical examination.The Rolling shear greatly reduces worker's Labor intensity also avoids artificial fault rate.

The utility model solves that technical application used by its technical problem is novel to be: a kind of binary channels for Rolling shear Belt transport unit, including slide carriage, turnover panel and the first transport mechanism arranged side by side and the second transport mechanism, slide carriage are located at first The top of transport mechanism, top of the turnover panel between the first transport mechanism and the second transport mechanism, slide carriage and turnover panel are in incline Ramp-like state, the lower end of slide carriage is corresponding with the first transport mechanism, and the lower end of turnover panel is corresponding with the second transport mechanism, and turnover panel can Rotation make the upper end of turnover panel move down and close to slide carriage lower end or move up and far from slide carriage lower end, when turnover panel rotate When to the upper end of turnover panel close to the position of slide carriage lower end, material only can successively slip over slide carriage and turnover panel falls in the second transport mechanism On；When turnover panel turns to the upper end of turnover panel far from the position of slide carriage lower end, material can only slip over slide carriage and fall in the first transmission In mechanism.

First transport mechanism is parallel with the second transport mechanism, and the first transport mechanism contains transfer roller and driving belt, along biography The axis direction for sending roller, at the top of the first transport mechanism, the side of the first transport mechanism is externally provided with the first fixed cushioning fender, The other side of first transport mechanism is externally provided with the second fixed cushioning fender, the construction phase of the first transport mechanism and the second transport mechanism Together.

Turnover panel is connected with torsion shaft and hydraulic cylinder, and hydraulic cylinder can drive turnover panel to turn an angle by axis of torsion shaft, The axis of torsion shaft is parallel with the direction of transfer of the second transport mechanism, when turnover panel turns to the upper end of turnover panel close to slide carriage lower end When position, the upper end of turnover panel can be aligned with the lower end of slide carriage.

Multiple pressing plates are fixed with outside driving belt, multiple pressing plates are set gradually along the direction of transfer of the first transport mechanism, edge The axis direction of transfer roller, the width of pressing plate is greater than the width of driving belt, adjacent along the direction of transfer of the first transport mechanism Pressing plate both ends laminate setting.

The U-shaped structure of pressing plate, pressing plate contain sequentially connected first vertical plate, plate and the second vertical plate, first vertical plate and Second vertical plate is respectively positioned on the outside of driving belt, and the plate is stacked with driving belt.

Along the axis direction of transfer roller, side is equipped in the inside at the top of the first transport mechanism, the first fixed cushioning fender Guide wheel and vertical guide wheel also are provided with side guide wheel and vertical guide wheel on the inside of the second fixed cushioning fender.

The axis of side guide wheel is arranged along the vertical direction, and the axis for founding guide wheel is horizontally disposed, and side guide wheel can limit Driving belt and pressing plate move in the horizontal direction, and vertical guide wheel can limit driving belt and pressing plate moves along the vertical direction.

Multiple rubber rollers are arranged with outside each transfer roller, multiple rubber rollers are arranged along the axis direction interval of transfer roller；Along The direction of transfer of one transport mechanism, in the first transport mechanism, region corresponding with the lower end of slide carriage is the first feeding zone, Be the first transmission area other than first feeding zone, in first feeding zone adjacent the distance between two transfer rollers be less than this Adjacent the distance between two transfer rollers in one transmission area.

Along the axis direction of transfer roller, in the first transport mechanism, in first feeding zone between two adjacent rubber rollers Distance be less than adjacent the distance between two rubber rollers in the first transmission area.

A kind of Rolling shear, it is described to be used for containing fixed size scissors and the above-mentioned binary channels belt transport unit for Rolling shear The binary channels belt transport unit of Rolling shear is located at the lower section of fixed size scissors, and the upper end of slide carriage and the discharge port of fixed size scissors are corresponding, Slide carriage is connected and fixed with fixed size scissors.

The beneficial effects of the utility model are: by two transport mechanisms, by waste material and test, separation is transported in advance automatically It is defeated, hand labor is reduced, efficiency and accuracy are improved.

Detailed description of the invention

The accompanying drawings constituting a part of this application is used to provide a further understanding of the present invention, this is practical Novel illustrative embodiments and their description are not constituteed improper limits to the present invention for explaining the utility model.

Fig. 1 is the axonometric drawing of the binary channels belt transport unit described in the utility model for Rolling shear.

Fig. 2 is the main view of Rolling shear described in the utility model.

Fig. 3 is the axonometric drawing of the first transport mechanism.

Fig. 4 is the enlarged diagram at the position A in Fig. 3.

Fig. 5 is the schematic diagram that adjacent pressing plate both ends laminate.

1, the first transport mechanism；2, the second transport mechanism；3, slide carriage；4, turnover panel；5, torsion shaft；6, the first fixed bumper Plate；7, the second fixed cushioning fender；8, pin shaft；9, hydraulic cylinder；10, crossbeam；11, rubber roller；12, guide wheel is found；13, side guide wheel；14, Belt；15, pressing plate；16, roller；17, oscillating roller way；18, fixed size scissors；19, transfer roller.

Specific embodiment

It should be noted that in the absence of conflict, the features in the embodiments and the embodiments of the present application can phase Mutually combination.The utility model will be described in detail below with reference to the accompanying drawings and embodiments.

A kind of binary channels belt transport unit for Rolling shear, including slide carriage 3, turnover panel 4 and arranged side by side first pass Mechanism 1 and the second transport mechanism 2 are sent, slide carriage 3 is located at the top of the first transport mechanism 1, and turnover panel 4 is located at 1 He of the first transport mechanism Top between second transport mechanism 2, slide carriage 3 and turnover panel 4 are arranged side by side, and slide carriage 3 and turnover panel 4 are inclined, slide carriage 3 Lower end is corresponding with the first transport mechanism 1, and the lower end of turnover panel 4 is corresponding with the second transport mechanism 2, turnover panel 4 can rotate to It moves down the upper end of turnover panel 4 and close to the lower end of slide carriage 3 or moves up the upper end of turnover panel 4 and far under slide carriage 3 End, when turnover panel 4 turns to the upper end of turnover panel 4 close to the position of 3 lower end of slide carriage (as shown in Figure 1), material only can be slided successively It is fallen in the second transport mechanism 2 after crossing the upper surface of slide carriage 3 and turnover panel 4；It is slipped when the upper end that turnover panel 4 turns to turnover panel 4 is separate When the position of 3 lower end of plate (as shown in Figure 2), material is fallen after capable of only slipping over the upper surface of slide carriage 3 in the first transport mechanism 1 On.

In the present embodiment, the first transport mechanism 1 and the second transport mechanism 2 be between left and right every setting, the first transport mechanism 1 with Second transport mechanism 2 is parallel, and the first transport mechanism 1 contains transfer roller 19 and driving belt 14, and driving belt 14 is set to transmission Outside roller 19, along the axis direction of transfer roller 19, at the top of the first transport mechanism 1, the side of the first transport mechanism 1 is externally provided with One fixed cushioning fender 6, the other side of the first transport mechanism 1 are externally provided with the second fixed cushioning fender 7, the first transport mechanism 1 with The construction of second transport mechanism 2 is identical, as shown in Figure 1, Figure 2, Figure 3 and Figure 4.

The direction of transfer of first transport mechanism 1 is parallel with the direction of transfer of the second transport mechanism 2, the first transport mechanism 1 Direction of transfer can identical or on the contrary, the first transport mechanism 1 and the second transport mechanism 2 with the direction of transfer of the second transport mechanism 2 On the basis of being fixedly mounted on, the first fixed cushioning fender 6 and the second fixed cushioning fender 7 can also be fixed on base On plinth, the first fixed cushioning fender 6 and the second fixed cushioning fender 7 can be played to the material (such as waste material or sample) fallen Buffer function.

In the present embodiment, turnover panel 4 is connected with torsion shaft 5 and hydraulic cylinder 9, and hydraulic cylinder 9 can drive turnover panel 4 with torsion shaft 5 turn an angle for axis, and the axis of torsion shaft 5 is parallel with the direction of transfer B of the second transport mechanism 2, turn over when turnover panel 4 turns to When the upper end of plate 4 is close to the position of 3 lower end of slide carriage, the upper end of turnover panel 4 can be aligned with the lower end of slide carriage 3, can will be turned at this time Plate 4 is seen as the extension of slide carriage 3, as shown in Figure 1.

Turnover panel 4 can be overturn under the action of hydraulic cylinder 9, with realize turnover panel 4 and slide carriage 3 from shown in FIG. 1 right It connects position to convert to disengaging configuration shown in Fig. 2, or is converted from disengaging configuration shown in Fig. 2 to docking location shown in FIG. 1.Liquid One end of cylinder pressure 9 and turnover panel 4 are hinged.The other end of hydraulic cylinder 9 is fixed on crossbeam 10 by pin shaft 8.Crossbeam 10 is fixedly mounted On oscillating roller way 17, on the basis of oscillating roller way 17 is fixedly mounted on.

In the present embodiment, multiple pressing plates 15 are fixed with outside driving belt 14, pressing plate 15 is distributed in fish scale-shaped, multiple pressing plates 15 set gradually along the direction of transfer of the first transport mechanism 1, positioned at being easy to understand and observing, only depict one in Fig. 3 and Fig. 4 Divide driving belt 14 and pressing plate 15.Along the axis direction of transfer roller 19, the width of pressing plate 15 is greater than the width of driving belt 14, edge The direction of transfer of first transport mechanism 1, adjacent 15 both ends of pressing plate laminate setting, i.e., as shown in figure 5, in two adjacent pressing plates In 15, the head end of a pressing plate 15 and the tail end of another pressing plate 15 are stacked.

In the present embodiment, the U-shaped structure of pressing plate 15, pressing plate 15 contain sequentially connected first vertical plate, plate and second Vertical plate, first vertical plate and the second vertical plate are respectively positioned on the outside of driving belt 14, and the plate is stacked with driving belt 14, As shown in Figure 4.

In the present embodiment, along the axis direction of transfer roller 19 (i.e. left and right directions in Fig. 2), in the first transport mechanism 1 Top, the inside of the first fixed cushioning fender 6 is equipped with side guide wheel 13 and vertical guide wheel 12, the inside of the second fixed cushioning fender 7 It also is provided with side guide wheel 13 and vertical guide wheel 12, as shown in Figure 3 and Figure 4.The axis of side guide wheel 13 is arranged along the vertical direction, founds guide wheel 12 Axis it is horizontally disposed, side guide wheel 13 can limit driving belt 14 and pressing plate 15 moves in the horizontal direction, stand guide wheel 12 can limit driving belt 14 and pressing plate 15 moves along the vertical direction.Side guide wheel 13 and vertical guide wheel 12 are used for driving belt 14 It is oriented to pressing plate 15, avoids the waste material or sample sideslip on driving belt 14.

In the present embodiment, rubber roller 11 there are four being arranged outside each transfer roller 19, four rubber rollers 11 are along transfer roller 19 The setting of axis direction interval.Lower end phase along the direction of transfer of the first transport mechanism 1, in the first transport mechanism 1, with slide carriage 3 Corresponding region is the first feeding zone, and the region other than first feeding zone is the first transmission area, phase in first feeding zone The distance between two adjacent transfer rollers 19 are less than the distance between two transfer rollers 19 adjacent in the first transmission area.This The distance between two adjacent transfer rollers 19 are equal in one feeding zone, in the first transmission area adjacent two transfer rollers 19 it Between distance it is also equal, as shown in Figure 3.

In the present embodiment, along the axis direction of transfer roller 19, in the first transport mechanism 1, phase in first feeding zone The distance between two adjacent rubber rollers 11 are less than the distance between two rubber rollers 11 adjacent in the first transmission area.This first falls Expect that the distance between two rubber rollers 11 adjacent in area are equal, adjacent the distance between two rubber rollers 11 in the first transmission area Also equal, as shown in Figure 3.Rubber roller 11 is mainly used for driving belt 14 and transports waste material or sample on it, and can play buffering and make With.Rubber roller 11, in intensive arrangement and in the first transmission sparse arrangement in area, can be buffered effectively fall in this way in first feeding zone The impact to the first transport mechanism 1 and the second transport mechanism 2 of waste material or sample.

A kind of Rolling shear is described below, which contains fixed size scissors 18, roller 16 and above-mentioned pair for Rolling shear Channel belt transport unit, the binary channels belt transport unit for Rolling shear are located at the lower section of fixed size scissors 18, slide carriage 3 Upper end is corresponding with the discharge port of fixed size scissors 18, and slide carriage 3 is connected and fixed with fixed size scissors 18, as depicted in figs. 1 and 2.First transmission Mechanism 1 can be used to deliver sample, and the first transport mechanism 1 is properly termed as sample Transfer pipe, and the second transport mechanism 2 can be used for Waste material is transmitted, the second transport mechanism 2 is properly termed as waste material Transfer pipe.

When in use, the steel plate after the fixed size scissors 18 of the Rolling shear are sheared enters the upper end of slide carriage 3, and in the effect of gravity Lower continuation slides downwards, and when turnover panel 4 turns to the position shown in FIG. 1 docked with slide carriage 3, waste material can pass sequentially through turnover panel 4 It is fallen in the second transport mechanism 2 with slide carriage 3；When turnover panel 4 turns to isolated with slide carriage 3 position shown in Fig. 2, sample only leads to Slide carriage 3 is crossed to fall in the first transport mechanism 1.Turnover panel 4 is driven to swing to the waste material or sample to fall from slide carriage 3 by hydraulic cylinder 9 Carry out exact classification transport.

Waste material is transported directly to waste material frame by the second transport mechanism 2 (waste material Transfer pipe), and the first transport mechanism 1 (is tried Sample Transfer pipe) sample is directly transported to inspection laboratory, do further inspection chemical examination.The Rolling shear greatly reduces the labor of worker Fatigue resistance also avoids artificial fault rate.

The above, only specific embodiment of the utility model cannot limit the range that utility model is implemented, institute with it With the displacement of its equivalent assemblies, or according to equivalent variations made by the utility model patent protection scope and modification, should all still fall within The scope that this patent is covered.In addition, between technical characteristic and technical characteristic in the utility model, technical characteristic and technical application Between novel, technical application it is novel it is novel with technical application between use can be freely combined.

Claims (10)

1. a kind of binary channels belt transport unit for Rolling shear, which is characterized in that this is used for the binary channels belt of Rolling shear Transport device includes slide carriage (3), turnover panel (4) and the first transport mechanism (1) and the second transport mechanism (2) arranged side by side, slide carriage (3) it is located at the top of the first transport mechanism (1), turnover panel (4) is between the first transport mechanism (1) and the second transport mechanism (2) Top, slide carriage (3) and turnover panel (4) are inclined, and the lower end of slide carriage (3) is corresponding with the first transport mechanism (1), turnover panel (4) lower end is corresponding with the second transport mechanism (2), and turnover panel (4), which can rotate, moves down the upper end of turnover panel (4) and close The lower end of slide carriage (3) or the lower end for moving up simultaneously separate slide carriage (3) are slipped when the upper end that turnover panel (4) turns to turnover panel (4) is close When the position of plate (3) lower end, material only can successively slip over slide carriage (3) and turnover panel (4) is fallen on the second transport mechanism (2)；When When turnover panel (4) turns to the upper end of turnover panel (4) far from the position of slide carriage (3) lower end, material can only slip over slide carriage (3) and fall in In one transport mechanism (1).

2. the binary channels belt transport unit according to claim 1 for Rolling shear, which is characterized in that the first conveyer Structure (1) is parallel with the second transport mechanism (2), and the first transport mechanism (1) contains transfer roller (19) and driving belt (14), along transmission The axis direction of roller (19), at the top of the first transport mechanism (1), it is fixed that the side of the first transport mechanism (1) is externally provided with first Cushioning fender (6), the other side of the first transport mechanism (1) are externally provided with second fixed cushioning fender (7), the first transport mechanism (1) It is identical as the construction of the second transport mechanism (2).

3. the binary channels belt transport unit according to claim 2 for Rolling shear, which is characterized in that turnover panel (4) is even It is connected to torsion shaft (5) and hydraulic cylinder (9), hydraulic cylinder (9) can drive turnover panel (4) to turn an angle with torsion shaft (5) for axis, The axis of torsion shaft (5) is parallel with the direction of transfer of the second transport mechanism (2), when the upper end that turnover panel (4) turns to turnover panel (4) is leaned on When the position of nearly slide carriage (3) lower end, the upper end of turnover panel (4) can be aligned with the lower end of slide carriage (3).

4. the binary channels belt transport unit according to claim 2 for Rolling shear, which is characterized in that driving belt (14) it is fixed with multiple pressing plates (15) outside, multiple pressing plates (15) set gradually along the direction of transfer of the first transport mechanism (1), along biography The axis direction of roller (19) is sent, the width of pressing plate (15) is greater than the width of driving belt (14), the biography along the first transport mechanism (1) Direction is sent, adjacent pressing plate (15) both ends laminate setting.

5. the binary channels belt transport unit according to claim 4 for Rolling shear, which is characterized in that pressing plate (15) is in U-shaped structure, pressing plate (15) contain sequentially connected first vertical plate, plate and the second vertical plate, and first vertical plate and the second vertical plate are equal Positioned at the outside of driving belt (14), the plate is stacked with driving belt (14).

6. the binary channels belt transport unit according to claim 5 for Rolling shear, which is characterized in that along transfer roller (19) axis direction is equipped with side guide wheel in the inside at the top of the first transport mechanism (1), first fixed cushioning fender (6) (13) and vertical guide wheel (12) side guide wheel (13) and vertical guide wheel (12), also are provided on the inside of second fixed cushioning fender (7).

7. the binary channels belt transport unit according to claim 6 for Rolling shear, which is characterized in that side guide wheel (13) Axis be arranged along the vertical direction, stand guide wheel (12) axis it is horizontally disposed, side guide wheel (13) can limit transmission skin Band (14) and pressing plate (15) move in the horizontal direction, and vertical guide wheel (12) can limit driving belt (14) and pressing plate (15) along vertical Direction is mobile.

8. the binary channels belt transport unit according to claim 2 for Rolling shear, which is characterized in that each transfer roller (19) it is arranged with outside multiple rubber rollers (11), multiple rubber rollers (11) are arranged along the axis direction interval of transfer roller (19)；

Direction of transfer along the first transport mechanism (1), on the first transport mechanism (1), area corresponding with the lower end of slide carriage (3) Domain is the first feeding zone, is the first transmission area other than first feeding zone, two adjacent transfer rollers in first feeding zone The distance between (19) it is less than the distance between two transfer rollers (19) adjacent in the first transmission area.

9. the binary channels belt transport unit according to claim 8 for Rolling shear, which is characterized in that along transfer roller (19) axis direction, on the first transport mechanism (1), adjacent the distance between two rubber rollers (11) in first feeding zone Two rubber roller (11) the distance between adjacent less than in the first transmission area.

10. a kind of Rolling shear, which is characterized in that the Rolling shear contains fixed size scissors (18) and described in claim 1 for rolling cut The binary channels belt transport unit cut, the binary channels belt transport unit for Rolling shear are located under fixed size scissors (18) Side, the upper end of slide carriage (3) is corresponding with the discharge port of fixed size scissors (18), and slide carriage (3) is connected and fixed with fixed size scissors (18).