CN208699800U - More scene adaptive type conveyer belts - Google Patents

Abstract

The utility model discloses a kind of more scene adaptive type conveyer belts, the first conveyer belt and the second conveyer belt including head and the tail connection, the two is fitted with conveyer belt telescoping mechanism, wherein the conveyer belt telescoping mechanism setting both ends of the first conveyer belt are respectively through the first lifting leg and the second lifting leg support, the conveyer belt telescoping mechanism of second conveyer belt is supported through the first rotation of leg and the second rotation of leg respectively, second rotation of leg and the second lifting leg are close, the two is installed in motion base, so that the first conveyer belt and the second conveyer belt are linked as entirety.Using the utility model has the beneficial effects that, material falls on the second conveyer belt through the transmission of the first conveyer belt, height by adjusting the first conveyer belt adapts to the height of upstream material platform, by the rotation in the horizontal direction of the second conveyer belt so that its free end is close to downstream material platform, the length of conveyer belt is adjusted by conveyer belt telescoping mechanism, realizes more height, multi-angle, multiple spurs from the material transmission on, non-rectilinear direction to facilitate.

Description

More scene adaptive type conveyer belts

Technical field

The utility model relates to logistics conveyor equipment fields, and in particular to a kind of more scene adaptive type conveyer belts.

Background technique

In the industries such as logistics, the utilization of conveyer belt is extremely extensive.Production efficiency can be significantly improved using conveyer belt, is dropped Low workers carry's labor intensity, while being also convenient for the work such as weighing to product, detected and packed.Existing middle-size and small-size transmission Carrying device mostly uses greatly fixed straight line structure for conveying, and delivered length can not adjust.There is the conveyer belt of Telescopic to set for part Standby structure is complicated, bulky, and cost and maintenance cost are higher, are mostly used for the loading-unloading vehicle operation of large cargo.For medium and small Type logistics distribution station there is no a kind of conveyor equipment simple, adaptable, that non-rectilinear conveying can be achieved of structure.

Utility model content

In order to solve the above technical problems, the utility model provides a kind of more scene adaptive type conveyer belts.

Technical solution is as follows:

A kind of more scene adaptive type conveyer belts, including the first conveyer belt and the second conveyer belt, first conveyer belt and Two conveyer belts are fitted with conveyer belt telescoping mechanism, and first conveyer belt and the second conveyer belt head and the tail connect, it is critical that It further include motion base；

Wherein the conveyer belt telescoping mechanism of the first conveyer belt is provided with the first free end and the first connecting pin, wherein described One free end first goes up and down leg support, and first connecting pin second goes up and down leg support, which is fixed on institute It states in motion base；

Wherein the conveyer belt telescoping mechanism of the second conveyer belt is provided with the second free end and second connection end, wherein second from It is supported by holding through the first rotation of leg, second connection end is supported through the second rotation of leg, which is mounted on the movement bottom On seat.

Using the above design, it the advantage is that material falls on the second conveyer belt through the transmission of the first conveyer belt, pass through first liter It drops leg and second and goes up and down the flexible of leg, the height of the first conveyer belt is adjusted to adapt to the height of upstream material platform, passes through second The second conveyer belt may be implemented in level around the rotation of the second rotation of leg in rotation and the first rotation of leg of the rotation of leg on pedestal Rotation on direction so that the length of conveyer belt is adjusted by conveyer belt telescoping mechanism close to downstream material platform for its free end, Realize more height, multi-angle, multiple spurs from the material transmission on, non-rectilinear direction to facilitate.

As optimal technical scheme, the conveyer belt telescoping mechanism structure of above-mentioned first conveyer belt and the second conveyer belt is consistent；

The conveyer belt telescoping mechanism is provided with fixed arm, and travelling arm, the travelling arm sliding are set in the fixed arm The free end of fixed arm is stretched out, the extension end of the travelling arm is equipped with free head sheave far from the motion base, described solid The other end of fixed arm is located above the motion base, and is equipped with connection head sheave；

Servo-actuated strainer is also fitted on the fixed arm and travelling arm, the free head sheave, connecting pin are sliding Conveyer belt is arranged on wheel and servo-actuated strainer；

The travelling arm extension end of first conveyer belt forms first free end, the fixed arm of first conveyer belt One end of the upper installation connection head sheave forms first connecting pin；

The travelling arm extension end of second conveyer belt forms second free end, the fixed arm of second conveyer belt One end of the upper installation connection head sheave forms the second connection end.

Using the above design, it the advantage is that the relatively fixed arm sliding of travelling arm, it can be achieved that conveyer belt telescoping mechanism is stretched It is long to shorten, to adjust the distance between free head sheave and connection head sheave, and servo-actuated strainer can remain biography It send band to be tensioned, realizes the elongation and shortening of conveyer belt, improve the adaptability of its length direction.

As optimal technical scheme, above-mentioned servo-actuated strainer includes the first commutation rollers and the second commutation rollers, described First commutation rollers are fixedly arranged below the travelling arm, and second commutation rollers are fixedly arranged below the fixed arm, and described First commutation rollers are between the connection head sheave and the second commutation rollers；

It is additionally provided with fine tuning strainer below the fixed arm, which includes vertically arranged tensioning wheel The upper end of telescoping mechanism and tensioning wheel, the tensioning wheel telescoping mechanism is connected with the fixed arm, the tensioning wheel telescoping mechanism Lower end be connected with the tensioning wheel；

The conveyer belt is successively around the connection head sheave, tensioning wheel, the second commutation rollers, the first commutation rollers and freedom On head sheave.

Using the above design, the servo-actuated of conveyer belt when realizing telescopic variation by ingenious succinct structure the advantage is that Tensioning.

As optimal technical scheme, it is equipped with strip sliding cavity in above-mentioned fixed arm, is set in the free end of the fixed arm There is the open-ended of the sliding cavity, the lower opening of the sliding cavity is equipped with below the middle part of the fixed arm；

The travelling arm is sheathed in the sliding cavity, and the sliding cavity open-ended is stretched out from described in extension end；

The first strut is vertically connected with below the connecting pin of the travelling arm, the lower end of first strut is from the sliding The lower opening of chamber is stretched out, and the lower end of first strut is equipped with first commutation rollers；

It vertically is connected with the second strut below the free end of the fixed arm, the lower end of second strut is connected with described the Two commutation rollers, second commutation rollers are lower than first commutation rollers；

It is provided along its length clamping slot on the travelling arm, the clamping slot installing is corresponded on the fixed arm There is abutting bolt, the abutting bolt is connect with the outer wall thread of the sliding cavity, and the stud end for pushing against bolt is against institute State the slot bottom of clamping slot.

Using the above design, it the advantage is that conveyer belt telescoping mechanism structure and strainer are simple and reliable.

As optimal technical scheme, above-mentioned tensioning wheel telescoping mechanism includes tensioning nut and tensioning screw, the tensioning spiral shell Mother is fixedly arranged on the fixed arm, and the tensioning screw is threadedly coupled with the tensioning nut, and the upper end of the tensioning screw is worn Enter in the fixed arm, the lower end of the tensioning screw is connected with the tensioning wheel, and the periphery press of the tensioning wheel is described defeated Band is sent to make its tensioning.

Using the above design, it the advantage is that and fine tuning tensioning is realized by easy structure.

As optimal technical scheme, one end of above-mentioned motion base it is affixed it is described second lifting leg, motion base it is another End is provided with rotating seat, which loads the lower part of second rotation of leg through bearing holder (housing, cover)；

The pedestal universal wheel of strap brake arrestment mechanism is equipped with below the motion base.

Using the above design, it the advantage is that and be linked together the first conveyer belt and the second conveyer belt, be moved easily, and not Allow the first conveyer belt and the second conveyer belt carries out attitude regulation relatively independently.

As optimal technical scheme, above-mentioned first lifting leg upper end is hinged through U-shaped frame and first free end, described First lifting leg lower end is equipped with the supporting leg universal wheel of strap brake arrestment mechanism；

Second lifting leg upper end is hinged through U-shaped frame and first connecting pin；

First rotation of leg upper end is hinged through U-shaped frame and second free end, and first rotation of leg lower end is set There is the rotation traction wheel of strap brake arrestment mechanism；

Second rotation of leg upper end is hinged through U-shaped frame and the second connection end；

The first lifting leg and the second lifting leg are respectively arranged with lead screw lifting body.

Using the above design, it the advantage is that U-shaped frame is convenient and connect with fixed arm and travelling arm, while between U-shaped frame two-arm Space do not influence the installation of conveyer belt；Meanwhile first lifting leg be hinged with the first free end, second lifting leg and first company It connects end to be hinged, when the first lifting leg and asynchronous the second lifting leg pars contractilis, it can be achieved that first transmits in the vertical direction Rotation.

As optimal technical scheme, the first driving motor is installed on above-mentioned second lifting leg, first driving motor warp First transmission belt suit is connected with the first driving wheel, the connecting pin pulley coaxle of first driving wheel and first conveyer belt；

The second driving motor is installed on second rotation of leg, which is set with through the second transmission belt and connects There is the second driving wheel, the connecting pin pulley coaxle of second driving wheel and second conveyer belt.

Using the above design, it the advantage is that and conveniently provide power for the first conveyer belt and the second conveyer belt.

As optimal technical scheme, material-falling hopper is equipped with above the second connection end；

Telescopic deflector chute is equipped at first connecting pin, the guide direction of the telescopic deflector chute and described first pass Send the feed direction of band consistent, the discharge port of the telescopic deflector chute is located above the material-falling hopper.

Using the above design, the advantage is that when the lifting of the first conveyer belt or the second conveyer belt rotate, the first connecting pin The distance between second connection end can accordingly change, and by the cooperation of material-falling hopper and telescopic deflector chute, facilitate material Always it is accurately fallen on through material-falling hopper above the second connection end of the second conveyer belt.

As optimal technical scheme, above-mentioned telescopic deflector chute includes the first groove body and the second groove body, first groove body Interior to be equipped with the hollow cavity being adapted with the second groove body shape, which is opened on the discharge port end face of first groove body On, second groove body slides in the hollow cavity, and the discharge end of second groove body stretches out the hollow cavity；

Regulating tank is offered along feed direction on the cell wall of first groove body, fastening spiral shell is equipped in the regulating tank The screw head of bolt, the fastening bolt is located at outside the regulating tank, and the fastening bolt is corresponded on the cell wall of second groove body and is equipped with tightly Gu screw hole, the fastening bolt and the fastening screw hole cooperate, the screw head of the fastening bolt presses the slot of first groove body On the outside of wall, to lock second groove body；

The two sides cell wall of first groove body respectively to the fixed arm of first conveyer belt extend and it is affixed with it.

Using the above design, the telescopic adjustment that telescopic deflector chute is realized by easy structure the advantage is that, and no matter First conveyer belt goes up and down or rotates certain angle in the vertical direction, and telescopic deflector chute is able to maintain and the first conveyer belt Feed direction it is consistent always.

The utility model has the advantages that using the utility model has the beneficial effects that material falls on the second transmission through the transmission of the first conveyer belt Band, the height by adjusting the first conveyer belt adapt to the height of upstream material platform, in the horizontal direction by the second conveyer belt Rotation so that close to downstream material platform, the length of conveyer belt is adjusted by conveyer belt telescoping mechanism for its free end, thus side Just realize more height, multi-angle, multiple spurs from the material transmission on, non-rectilinear direction.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model；

Fig. 2 is the top view of Fig. 1；

Fig. 3 is the structural schematic diagram of conveyer belt stretching structure and servo-actuated strainer；

Fig. 4 is the structural schematic diagram of telescopic deflector chute；

Fig. 5 is the right view of Fig. 4.

Specific embodiment

Below with reference to embodiment and attached drawing, the utility model is described in further detail.

As illustrated in fig. 1 and 2, a kind of more scene adaptive type conveyer belts, including the first conveyer belt a and the second conveyer belt b, it is described First conveyer belt a and the second conveyer belt b is fitted with conveyer belt telescoping mechanism 6, the first conveyer belt a and the second conveyer belt b End to end setting.

Wherein the conveyer belt telescoping mechanism 6 of the first conveyer belt a is provided with the first free end 6c and the first connecting pin 6d, and second The conveyer belt telescoping mechanism 6 of conveyer belt b is provided with the second free end 6e and second connection end 6f.The first free end 6c and One connecting pin 6d is respectively the feed end and delivery end of the first conveyer belt a, and the second free end 6e and second connection end 6f are respectively The delivery end and feed end of second conveyer belt b, the first connecting pin 6d is close to second connection end 6f and is positioned above, so that material It is fallen on the second conveyer belt b from the first conveyer belt a.

The first connecting pin 6d is provided with motion base 3, the first free end 6c below second connection end 6f It is supported through the first lifting leg 1, the first connecting pin 6d is supported through the second lifting leg 2, which is fixed on the fortune On dynamic pedestal 3；Second free end 6e is supported through the first rotation of leg 5, and second connection end 6f is supported through the second rotation of leg 4, this second Rotation of leg 4 is mounted in the motion base 3.To which two conveyer belts are linked together.

The affixed second lifting leg 2 in one end of the motion base 3, the other end of motion base 3 are provided with rotating seat 13.Second rotation of leg 4 is cylindrical, and with 13 coaxial inner conductor of rotating seat, the lower end of second rotation of leg 4 passes through Bearing is installed on the rotating seat 13.The stability of second conveyer belt b when to keep working condition, second rotation of leg 4 with Lockable mechanism (not shown) is installed between the rotating seat 13.

Pedestal universal wheel 14a below the motion base 3 equipped with strap brake arrestment mechanism, described first goes up and down under leg 1 End is equipped with the supporting leg universal wheel 14b of strap brake arrestment mechanism, and 5 lower end of the first rotation of leg is equipped with turning for strap brake arrestment mechanism Dynamic traction wheel 15.The first rotation of leg 5 is rotated around the column heart line of the second rotation of leg 4 by pulling manually, or is turned in the traction Hub motor is set in driving wheel 15, which is powered on, to drive the first rotation of leg 5 around the column of the second rotation of leg 4 The rotation of heart line, may be implemented the horizontal rotation of the second conveyer belt b, to match with the material table in downstream.

The first lifting leg 1 and the second lifting leg 2 are respectively arranged with lead screw lifting body (not shown) to realize It is flexible.Specifically, the first lifting leg 1 and the second lifting leg 2 respectively include lower part and top, are provided therebetween described Lead screw lifting body, the lead screw lifting body is vertically arranged, and screw lower end is affixed with lower part, and feed screw nut is set on screw rod, And be rotatablely connected with top, drive top to rise or fall by manual rotary screw rod nut, so that the first lifting 1 He of leg Second lifting leg 2 elongates or shortens.Preferably, electric threaded shaft lifting body also can be used to realize the first lifting leg 1 and second liter The flexible of leg 2 drops.

First lifting leg 1 upper end the first U-shaped frame 18a and the first free end 6c is hinged, and described second liter Drop leg 2 upper end the second U-shaped frame 18b and the first connecting pin 6d is hinged.Second rotation of leg, 4 upper end is through third U-shaped Frame 18c is connected with the second connection end 6f, and the 4th U-shaped frame 18d of 5 upper end of the first rotation of leg and described second is freely End 6e is connected.

First driving motor 16a is installed on the second lifting leg 2, the first driving motor 16a is through the first transmission belt 17a suit is connected with the first driving wheel 8c, and the connection head sheave 8b of the first driving wheel 8c and the first conveyer belt a are coaxial. Specifically, for convenience of installing, horizontally disposed first mounting plate, the first driving electricity are connected on the second lifting leg 2 Machine 16a is fixed on first mounting plate.In order to enable the first conveyer belt to be freely lifted, the connection of the first connecting pin 6d After head sheave 8b wheel shaft both ends are pierced by corresponding fixed arm 6a respectively, it is installed on by bearing on the arm of the second U-shaped frame 18b.This Sample, first lifting leg 1 and second lifting 2 lifting process of leg in, between the first driving motor 16a and the first driving wheel 8c away from From remaining unchanged.

Second driving motor 16b is installed, the second driving motor 16b is through the second transmission belt on second rotation of leg 4 17b suit is connected with the second driving wheel 8d, and the connection head sheave 8b of the second driving wheel 8d and the second conveyer belt b are coaxial. For convenience of installation, horizontally disposed second mounting plate is connected on second rotation of leg 4, the second driving motor 16b is solid It is scheduled on second mounting plate.

Through the above structure, the height of adjustable first conveyer belt a, and certain angle is rotated in vertical direction, So that material table of the feed end of the first conveyer belt a close to upstream.By rotating the second conveyer belt b, it can make the second conveyer belt b's Material table of the delivery end close to downstream.

The length of the first conveyer belt a and the second conveyer belt b, which change, depends on the consistent conveyer belt telescoping mechanism of structure 6。

As shown in figs. 1 and 3, the conveyer belt telescoping mechanism 6 is provided with fixed arm 6a, is set with sliding in fixed arm 6a The free end of fixed arm 6a is stretched out in arm 6b, the travelling arm 6b sliding, and the extension end of travelling arm 6b is far from the motion base 3, and free head sheave 8a is installed, the other end of the fixed arm 6a is located at 3 top of motion base, and is equipped with connection Head sheave 8b；Also it is fitted with servo-actuated strainer 7 on the fixed arm 6a and travelling arm 6b, the free head sheave 8a, Conveyer belt 9 is arranged on connection head sheave 8b and servo-actuated strainer 7.

The extension end travelling arm 6b of the first conveyer belt a forms the first free end 6c, the first conveyer belt a's One end that the connection head sheave 8b is installed on fixed arm 6a forms the first connecting pin 6d；The cunning of the second conveyer belt b The extension end swing arm 6b forms the second free end 6e, and it is sliding that the connecting pin is installed on the fixed arm 6a of the second conveyer belt b One end of wheel 8b forms the second connection end 6f.

The servo-actuated strainer 7 includes the first commutation rollers 7a and the second commutation rollers 7b, first commutation rollers 7a is fixedly arranged below the travelling arm 6b, and the second commutation rollers 7b is fixedly arranged below the fixed arm 6a, and described first Commutation rollers 7a is between the connection head sheave 8b and the second commutation rollers 7b；It is additionally provided with below the fixed arm 6a micro- Strainer is adjusted, which includes vertically arranged tensioning wheel telescoping mechanism 7e and tensioning wheel 7f, the tensioning wheel The upper end of telescoping mechanism 7e is connected with the fixed arm 6a, and the lower end of the tensioning wheel telescoping mechanism 7e is connected with the tensioning wheel 7f.The conveyer belt 9 successively around the connection head sheave 8b, tensioning wheel 7f, the second commutation rollers 7b, the first commutation rollers 7a and On free head sheave 8a.

Specifically, as shown in figure 3, strip sliding cavity is equipped in the fixed arm 6a, in the freedom of the fixed arm 6a End is equipped with the open-ended of the sliding cavity, and the lower opening of the sliding cavity is equipped with below the middle part of the fixed arm 6a； The travelling arm 6b is sheathed in the sliding cavity, and the sliding cavity open-ended is stretched out from described in extension end.In the cunning It is provided along its length clamping slot 6g on swing arm 6b, the clamping slot 6g is corresponded on the fixed arm 6a and is installed with abutting spiral shell Bolt 6h, the abutting bolt 6h are connect with the outer wall thread of the sliding cavity, and the stud end for pushing against bolt 6h is against described The slot bottom of clamping slot 6g.

When needing to elongate or shorten conveyer belt, unscrew and push against bolt 6h, the travelling arm 6b that stretches or bounce back manually is to proper Work as position, then tightens again and push against bolt 6h.When conveyer belt works, the abutting bolt 6h is kept to be in tightening state.

It vertically is connected with the first strut 7c below the connecting pin of the travelling arm 6b, the lower end of first strut 7c is from described The lower opening of sliding cavity is stretched out, and the lower end of first strut 7c is equipped with the first commutation rollers 7a；The fixed arm 6a's It vertically is connected with the second strut 7d below free end, the lower end of second strut 7d is connected with the second commutation rollers 7b, should Second commutation rollers 7b is lower than the first commutation rollers 7a.

The tensioning wheel telescoping mechanism 7e includes tensioning nut and tensioning screw, and the tensioning nut is fixedly arranged on the fixation On arm 6a, the tensioning screw is threadedly coupled with the tensioning nut, and the upper end of the tensioning screw penetrates the fixed arm 6a Interior, the lower end of the tensioning screw is connected with the tensioning wheel 7f.The mounting base of the tensioning wheel 7f is rotatably installed in tensioning spiral shell On bar, so that tensioning wheel 7f can be rotated around the axial line of tensioning screw, thus in tensioning screw rotation, the circumference of tensioning wheel 7f Face cooperates with the conveyer belt 9 always.By adjusting tensioning nut and tensioning screw, make described in the periphery press of tensioning wheel 7f Conveyer belt 9 makes its tensioning.

It is fallen on the second conveyer belt b for convenience of material, hopper frame is equipped on the free end fixed arm 6a of the second conveyer belt b 12, which is equipped with material-falling hopper 10.Telescopic deflector chute 11, the telescopic guide are equipped at the first connecting pin 6d The guide direction of slot 11 is consistent with the feed direction of the first conveyer belt a, and the discharge port of the telescopic deflector chute 11 is located at institute State 10 top of material-falling hopper.In this way, can adjust telescopic deflector chute 11 makes its discharge end always when the second conveyer belt b rotation Above material-falling hopper 10.

As shown in Figures 4 and 5, the telescopic deflector chute 11 includes the first groove body 11a and the second groove body 11b, and described first The two sides cell wall of groove body 11a respectively to the fixed arm 6a of the first conveyer belt a extend and it is affixed with it.First groove body The hollow cavity being adapted with the second groove body 11b shape is equipped in 11a, which is opened on the first groove body 11a's On discharge port end face, the second groove body 11b is slided in the hollow cavity, and the discharge end of the second groove body 11b stretches out institute State hollow cavity.

Regulating tank 11c is offered along feed direction on the cell wall of the first groove body 11a, is worn in regulating tank 11c Equipped with fastening bolt 11d, the screw head of fastening bolt 11d is located at outside the regulating tank 11c, the cell wall of the second groove body 11b Upper correspondence fastening bolt 11d is equipped with fastening screw hole, and the fastening bolt 11d and the fastening screw hole cooperate, the fastening spiral shell The screw head of bolt 11d presses on the outside of the cell wall of the first groove body 11a, to lock the second groove body 11b.

When conveyer belt enters transportation work state, the pedestal universal wheel 14a, supporting leg universal wheel 14b and rotation traction wheel 15 are in lock state；If desired it moves integrally or rotates, then corresponding brake mechanism is unlocked, move conveyer belt To designated position.

Finally, it should be noted that foregoing description is only the preferred embodiment of the utility model, the common skill of this field Art personnel are under the enlightenment of the utility model, under the premise of without prejudice to the utility model aims and claim, can make Multiple similar expressions, such transformation are each fallen within the protection scope of the utility model.

Claims (10)

1. a kind of more scene adaptive type conveyer belts, including the first conveyer belt (a) and the second conveyer belt (b), first conveyer belt (a) it is fitted with conveyer belt telescoping mechanism (6) with the second conveyer belt (b), first conveyer belt (a) and the second conveyer belt (b) Head and the tail connect, it is characterised in that: further include motion base (3)；

Wherein the conveyer belt telescoping mechanism (6) of the first conveyer belt (a) is provided with the first free end (6c) and the first connecting pin (6d), Wherein first free end (6c) is propped up through the first lifting leg (1) support, first connecting pin (6d) through the second lifting leg (2) Support, second lifting leg (2) are fixed on the motion base (3)；

Wherein the conveyer belt telescoping mechanism (6) of the second conveyer belt (b) is provided with the second free end (6e) and second connection end (6f), Wherein the second free end (6e) is supported through the first rotation of leg (5), and second connection end (6f) is supported through the second rotation of leg (4), this Two rotation of leg (4) are mounted on the motion base (3).

2. more scene adaptive type conveyer belts according to claim 1, it is characterised in that: first conveyer belt (a) and the Conveyer belt telescoping mechanism (6) structure of two conveyer belts (b) is consistent；

The conveyer belt telescoping mechanism (6) is provided with fixed arm (6a), is set with travelling arm (6b) in the fixed arm (6a), described The free end of fixed arm (6a) is stretched out in travelling arm (6b) sliding, the extension end of the travelling arm (6b) far from the motion base (3), And free head sheave (8a) is installed, the other end of the fixed arm (6a) is located above the motion base (3), and is equipped with It connects head sheave (8b)；

It is also fitted with servo-actuated strainer (7) on the fixed arm (6a) and travelling arm (6b), the free head sheave Conveyer belt (9) are arranged on (8a), connection head sheave (8b) and servo-actuated strainer (7)；

Extension end travelling arm (6b) of first conveyer belt (a) forms first free end (6c), first conveyer belt (a) one end that connection head sheave (8b) is installed on fixed arm (6a) forms first connecting pin (6d)；

Extension end travelling arm (6b) of second conveyer belt (b) forms second free end (6e), second conveyer belt (b) one end that connection head sheave (8b) is installed on fixed arm (6a) forms the second connection end (6f).

3. more scene adaptive type conveyer belts according to claim 2, it is characterised in that: servo-actuated strainer (7) packet The first commutation rollers (7a) and the second commutation rollers (7b) are included, first commutation rollers (7a) are fixedly arranged on the travelling arm (6b) Lower section, second commutation rollers (7b) are fixedly arranged below the fixed arm (6a), and first commutation rollers (7a) are located at Between the connection head sheave (8b) and the second commutation rollers (7b)；

It is additionally provided with fine tuning strainer below the fixed arm (6a), which includes vertically arranged tensioning wheel The upper end of telescoping mechanism (7e) and tensioning wheel (7f), the tensioning wheel telescoping mechanism (7e) is connected with the fixed arm (6a), institute The lower end for stating tensioning wheel telescoping mechanism (7e) is connected with the tensioning wheel (7f)；

The conveyer belt (9) is successively changed around the connection head sheave (8b), tensioning wheel (7f), the second commutation rollers (7b), first On way roller (7a) and free head sheave (8a).

4. more scene adaptive type conveyer belts according to claim 3, it is characterised in that: be equipped with length in the fixed arm (6a) Bar shaped sliding cavity is equipped with the open-ended of the sliding cavity in the free end of the fixed arm (6a), at the fixed arm (6a) Middle part below be equipped with the sliding cavity lower opening；

The travelling arm (6b) is sheathed in the sliding cavity, and the sliding cavity open-ended is stretched out from described in extension end；

Vertically be connected with the first strut (7c) below the connecting pin of the travelling arm (6b), the lower end of first strut (7c) from The lower opening of the sliding cavity is stretched out, and the lower end of first strut (7c) is equipped with first commutation rollers (7a)；

It vertically is connected with the second strut (7d) below the free end of the fixed arm (6a), the lower end connection of second strut (7d) There are second commutation rollers (7b), second commutation rollers (7b) are lower than first commutation rollers (7a)；

It is provided along its length clamping slot (6g) on the travelling arm (6b), corresponds to the card on the fixed arm (6a) Tight slot (6g), which is installed with, pushes against bolt (6h), and the abutting bolt (6h) connect with the outer wall thread of the sliding cavity, described to support Slot bottom of the stud end of tight bolt (6h) against the clamping slot (6g).

5. more scene adaptive type conveyer belts according to claim 4, it is characterised in that: the tensioning wheel telescoping mechanism (7e) Including tensioning nut and tensioning screw, the tensioning nut is fixedly arranged on the fixed arm (6a), the tensioning screw with it is described Tensioning nut is threadedly coupled, and the upper end of the tensioning screw penetrates in the fixed arm (6a), and the lower end of the tensioning screw connects It is connected to the tensioning wheel (7f), the periphery of the tensioning wheel (7f), which presses the conveyer belt (9), makes its tensioning.

6. more scene adaptive type conveyer belts according to claim 2, it is characterised in that: one end of the motion base (3) Affixed second lifting leg (2), the other end of motion base (3) are provided with rotating seat (13), and the rotating seat (13) is through bearing State the lower part of the second rotation of leg (4) in suit residence；

The pedestal universal wheel (14a) of strap brake arrestment mechanism is equipped with below the motion base (3).

7. more scene adaptive type conveyer belts according to claim 6, it is characterised in that: first lifting leg (1) upper end It is hinged through U-shaped frame and first free end (6c), first lifting leg (1) lower end is equipped with the branch of strap brake arrestment mechanism Leg universal wheel (14b)；

Second lifting leg (2) upper end is hinged through U-shaped frame and first connecting pin (6d)；

First rotation of leg (5) upper end is hinged through U-shaped frame and second free end (6e), first rotation of leg (5) Lower end is equipped with the rotation traction wheel (15) of strap brake arrestment mechanism；

Second rotation of leg (4) upper end is hinged through U-shaped frame and the second connection end (6f)；

First lifting leg (1) and the second lifting leg (2) are respectively arranged with lead screw lifting body.

8. more scene adaptive type conveyer belts according to claim 7, it is characterised in that: pacify in second lifting leg (2) Equipped with the first driving motor (16a), which is connected with first actively through the first transmission belt (17a) suit It takes turns (8c), the connection head sheave (8b) of first driving wheel (8c) and first conveyer belt (b) is coaxial；

The second driving motor (16b) is installed on second rotation of leg (4), second driving motor (16b) is through the second transmission Band (17b) suit is connected with the second driving wheel (8d), and the connecting pin of second driving wheel (8d) and second conveyer belt (b) is sliding It is coaxial to take turns (8b).

9. more scene adaptive type conveyer belts according to claim 7, it is characterised in that: on the second connection end (6f) Side is equipped with material-falling hopper (10)；

Telescopic deflector chute (11), the guide direction of the telescopic deflector chute (11) and institute are equipped at first connecting pin (6d) The feed direction for stating the first conveyer belt (a) is consistent, and the discharge port of the telescopic deflector chute (11) is located on the material-falling hopper (10) Side.

10. more scene adaptive type conveyer belts according to claim 9, it is characterised in that: the telescopic deflector chute (11) Including the first groove body (11a) and the second groove body (11b), it is equipped with and the second groove body (11b) shape in first groove body (11a) The adaptable hollow cavity of shape, the hollow cavity are opened on the discharge port end face of first groove body (11a), second groove body (11b) is slided in the hollow cavity, and the discharge end of second groove body (11b) stretches out the hollow cavity；

Regulating tank (11c) is offered along feed direction on the cell wall of first groove body (11a), in the regulating tank (11c) It is equipped with fastening bolt (11d), the screw head of the fastening bolt (11d) is located at the regulating tank (11c) outside, second groove body The fastening bolt (11d) is corresponded on the cell wall of (11b) is equipped with fastening screw hole, the fastening bolt (11d) and the fastening screw hole The screw head of cooperation, the fastening bolt (11d) presses on the outside of the cell wall of first groove body (11a), to lock second slot Body (11b)；

The two sides cell wall of first groove body (11a) respectively to the fixed arm (6a) of first conveyer belt (a) extend and and its It is affixed.