CN217675325U - Fish can production merging and converging conveying device - Google Patents

Abstract

The utility model discloses a fish can production and on-line confluence conveyor belongs to the conveyor field, including feeding conveyor mechanism, a differential conveyor mechanism, feeding conveyor mechanism with a differential conveyor mechanism sets up side by side, feeding conveyor mechanism includes that at least two locate the feeding web in the frame side by side, a differential conveyor mechanism includes that at least two locate the first differential conveyer belt in the frame side by side, is close to certainly feeding web is to keeping away from the conveying speed of the first differential conveyer belt of feeding web scales up in proper order, feeding web with be equipped with first confluence passageway between the first differential conveyer belt. The utility model discloses a set up first confluence passageway, realize the confluence of material on many conveyer belts, set up to progressively increasing progressively through the conveying speed with each conveyer belt on the first differential conveyer belt, utilize the speed difference to pull open the distance with the material on the conveyer belt, solved the problem of confluence strap jar, improved the efficiency that the material was carried.

Description

Fish can production merging and converging conveying device

Technical Field

The utility model relates to a conveyor field especially relates to a canned fish production merging confluence conveyor.

Background

The fish can is an instant can material prepared from fresh or frozen fish as raw material by processing, canning, adding flavoring, sealing, sterilizing, etc. In the actual production process, the canned fish pastes the mark and accomplishes the back on many conveyer belts, needs the confluence to enter into next vacuum test process, nevertheless takes place the card jar phenomenon easily when the confluence, leads to the confluence mouthful jam, has reduced production efficiency.

SUMMERY OF THE UTILITY MODEL

An object of the utility model is to provide a fish can production doubling confluence conveyor for solve the problem that exists among the prior art.

To achieve the purpose, the utility model adopts the following technical proposal: the utility model provides a fish can production doubling confluence conveyor, includes feeding conveyor, a differential conveying mechanism, feeding conveyor with a differential conveying mechanism sets up side by side, feeding conveyor includes that at least two locate the feeding conveyer belt in the frame side by side, a differential conveying mechanism includes that at least two locate the first differential conveyer belt in the frame side by side, is close to from feeding conveyer belt to keeping away from the conveying speed of the first differential conveyer belt of feeding conveyer belt scales up in proper order, feeding conveyer belt with be equipped with first confluence passageway between the first differential conveyer belt.

Further, the conveying device further comprises a guide plate, wherein the guide plate comprises an outer-side confluence guide plate and an inner-side confluence guide plate, the outer-side confluence guide plate and the inner-side confluence guide plate are arranged on the first confluence channel, one end of the outer-side confluence guide plate extends to the outer side of the first differential conveying belt far away from the feeding conveying belt, the other end of the outer-side confluence guide plate extends to the feeding conveying belt close to the first differential conveying belt, one end of the inner-side confluence guide plate extends to the inner side of the first differential conveying belt far away from the feeding conveying belt, and the other end of the inner-side confluence guide plate extends to the feeding conveying belt far away from the first differential conveying belt.

Further, still include second differential conveying mechanism, second differential conveying mechanism with first differential conveying mechanism sets up side by side, second differential conveying mechanism includes that at least two locate the second differential conveyer belt in the frame side by side, is close to certainly first differential conveyer belt to keeping away from the conveying speed of the second differential conveyer belt of first differential conveyer belt increases progressively in proper order, second differential conveyer belt with first differential conveying mechanism area is equipped with the reposition of redundant personnel passageway, the reposition of redundant personnel passageway with first confluence passageway intercommunication.

Further, the deflector still includes outside reposition of redundant personnel deflector, inboard reposition of redundant personnel deflector, the outside reposition of redundant personnel deflector inboard reposition of redundant personnel deflector is located on the reposition of redundant personnel passageway, the one end of outside reposition of redundant personnel deflector is to keeping away from the second differential conveyer belt the outside of first differential conveyer belt extends, and the other end is to being close to first differential conveyer belt the second differential conveyer belt extends, the one end of inboard reposition of redundant personnel deflector is to keeping away from the second differential conveyer belt the inboard of first differential conveyer belt extends, and the other end is to keeping away from first differential conveyer belt the second differential conveyer belt extends.

Furthermore, a second confluence channel is arranged on the second differential conveyor belt and communicated with the diversion channel.

Furthermore, the deflector still includes the slant deflector, the slant deflector is located on the second confluence passageway, the one end of slant deflector is to being close to the extension of the second differential conveyer belt of first differential conveyer belt, the other end is to keeping away from the extension of the second differential conveyer belt of first differential conveyer belt.

The driving device is in transmission connection with the first differential conveying belt and the second differential conveying belt respectively, and the frequency converter is electrically connected with the driving device.

Furthermore, the guide plate is provided with an anti-collision strip.

Furthermore, the device also comprises a supporting rod, wherein one end of the supporting rod is connected with the rack, and the other end of the supporting rod is connected with the guide plate.

Further, the adjusting device is used for adjusting the length of the supporting rod between the rack and the guide plate.

The utility model has the advantages that: through setting up first confluence passageway, realize the confluence of material on many conveyer belts, set up to progressively increase up through the conveying speed with each conveyer belt on the first differential conveyer belt, utilize the speed difference to pull open the distance with the material on the conveyer belt, solved the problem of confluence card jar, reduced the substandard product because of calorie jar causes, improved the efficiency that the material was carried.

Drawings

The accompanying drawings are provided to further illustrate the present invention, but the content in the accompanying drawings does not constitute any limitation to the present invention.

FIG. 1 is a schematic structural diagram of one embodiment of the present invention;

fig. 2 is a top view of fig. 1.

Wherein: the device comprises a feeding conveying mechanism 1, a feeding conveying belt 11, a first differential conveying mechanism 2, a first differential conveying belt 21, a second differential conveying mechanism 3, a second differential conveying belt 31, a frame 4, a guide plate 5, an outer confluence guide plate 51, an inner confluence guide plate 52, an outer diversion guide plate 53, an inner diversion guide plate 54, an oblique guide plate 55, a first confluence channel 6, a diversion channel 7, a first confluence channel 8 and a support rod 9.

Detailed Description

The technical solution of the present invention is further explained by the following embodiments with reference to the accompanying drawings.

Referring to fig. 1 and 2, the parallel-line confluence conveying device for canned fish production of this embodiment includes a feeding conveying mechanism 1 and a first differential conveying mechanism 2, where the feeding conveying mechanism 1 and the first differential conveying mechanism 2 are arranged side by side, the feeding conveying mechanism 1 includes at least two feeding conveying belts 11 arranged side by side on a rack 4, the first differential conveying mechanism 2 includes at least two first differential conveying belts 21 arranged side by side on the rack 4, the conveying speed from the position close to the feeding conveying belt 11 to the first differential conveying belt 21 away from the feeding conveying belt 11 increases in sequence, and a first confluence channel 6 is arranged between the feeding conveying belt 11 and the first differential conveying belt 21.

Through setting up first confluence passageway 6, realize the confluence of material from feeding conveying mechanism 1 to first differential conveying mechanism 2, set up to progressively increase up through the conveying speed with each conveyer belt on the first differential conveyer belt 11, utilize the difference in speed to pull open the distance with the material on the first differential conveyer belt 11, solved the problem of confluence card jar, reduced the substandard product because of the card jar causes, improved the efficiency that the material was carried.

Further, the present invention provides a guide plate 5, wherein the guide plate 5 includes an outer merging guide plate 51 and an inner merging guide plate 52, the outer merging guide plate 51 and the inner merging guide plate 52 are provided on the first merging passage 6, one end of the outer merging guide plate 51 extends to the outside of the first differential conveyer belt 21 away from the feed conveyer belt 11, the other end extends to the feed conveyer belt 11 close to the first differential conveyer belt 21, one end of the inner merging guide plate 52 extends to the inside of the first differential conveyer belt 21 away from the feed conveyer belt 11, and the other end extends to the feed conveyer belt 11 away from the first differential conveyer belt 21.

Observing along overlooking the direction, outside confluence deflector 51 slope extends and passes all first differential conveyer belt 21 in proper order, inside confluence deflector 52 slope extends and passes all feeding conveyer belt 11 in proper order, form first confluence passageway 6, through setting up outside confluence deflector 51 and inboard confluence deflector 52, change the direction of delivery of material on the feeding conveyer belt 11, increase the dislocation sequencing of material, let the material can pass through fast, reach the effect of supplementary confluence, the bottom of deflector 5 is higher than the upper surface of conveyer belt in this embodiment, be less than the height of material, prevent that the conveyer belt operation in-process from rubbing with deflector 5.

Further, still include second differential conveying mechanism 3, second differential conveying mechanism 3 with first differential conveying mechanism 2 sets up side by side, second differential conveying mechanism 3 includes at least two second differential conveyer belts 31 of locating in the frame side by side, and the delivery rate that is close to first differential conveyer belt 21 to the second differential conveyer belt 31 of keeping away from first differential conveyer belt 21 increases progressively in proper order, second differential conveyer belt 31 with first differential conveyer mechanism belt 21 is equipped with reposition of redundant personnel passageway 7, reposition of redundant personnel passageway 7 with first confluence passageway 6 intercommunication.

Because the next-stage vacuum detection process, the machine has a working interval, and in order to prevent the materials after confluence from not being accumulated, a second differential conveying mechanism 3 is arranged to realize the shunting of the materials after confluence, and the whole shunting section plays roles of buffering and transition.

Further, the guide plate 5 further includes an outer shunt guide plate 53 and an inner shunt guide plate 54, the outer shunt guide plate 53 and the inner shunt guide plate 54 are disposed on the shunt passage 7, one end of the outer shunt guide plate 53 extends to the outer side of the first differential conveyer belt 21 away from the second differential conveyer belt 31, the other end extends to the second differential conveyer belt 31 close to the first differential conveyer belt 21, one end of the inner shunt guide plate 54 extends to the inner side of the first differential conveyer belt 21 away from the second differential conveyer belt 31, and the other end extends to the second differential conveyer belt 31 away from the first differential conveyer belt 21.

As seen in a plan view, the outer diversion guide plates 53 extend obliquely and sequentially pass through all the first differential conveyor belts 21, and the inner diversion guide plates 54 extend obliquely and sequentially pass through the first differential conveyor belts 21 except for the outermost side and all the second differential conveyor belts 31, so as to form the diversion passages 7.

Further, a second confluence channel 8 is arranged on the second differential conveyor belt 31, and the second confluence channel 8 is communicated with the diversion channel 7.

The split materials are converged again by arranging a second converging passage 8 to prepare for entering a next stage process.

Further, the guide plate 5 further includes an oblique guide plate 55, the oblique guide plate 55 is disposed on the second merging channel 8, one end of the oblique guide plate 55 extends toward the second differential conveyor belt 31 close to the first differential conveyor belt 21, and the other end extends toward the second differential conveyor belt 31 far away from the first differential conveyor belt 21.

The outer diversion guide plates 53 extend obliquely and sequentially penetrate all the second differential conveyor belts 31 when viewed in a top view, and also play a role in changing the material conveying direction.

Further, the device comprises a frequency converter and a driving device, wherein the driving device is in transmission connection with the first differential conveying belt 21 and the second differential conveying belt 31 respectively, and the frequency converter is electrically connected with the driving device.

The frequency converters are arranged to control the working frequency of the driving devices of the first differential conveyor belt 21 and the second differential conveyor belt 31 respectively, so as to change the conveying speed of the conveyor belts.

Furthermore, an anti-collision strip is arranged on the guide plate 5.

Through setting up the anticollision strip, the protection material takes place the consume when preventing the material from colliding with deflector 5.

Furthermore, the device also comprises a supporting rod 9, wherein one end of the supporting rod 9 is connected with the rack 4, and the other end of the supporting rod 9 is connected with the guide plate 5.

Through setting up bracing piece 9, prevent the confluence in-process, the material collides with deflector 5 to lead to deflector 5 to shift, influence the confluence effect.

Further, the device also comprises an adjusting device which is used for adjusting the length of the supporting rod 9 between the machine frame 4 and the guide plate 5.

The length of the supporting rod 9 is adjusted by the adjusting device, and the position of the guide plate 5 is changed, so that the conveying path of the material is changed, and the confluence requirement of different conditions is met.

The utility model discloses a theory of operation: the material gets into first differential conveying mechanism 2 from feed conveyor 1 through first confluence passageway 6, and the first differential conveyer belt 21 that has the speed difference on the first differential conveying mechanism 2 exports the material after the confluence in order, gets into reposition of redundant personnel passageway 7, according to the operating time of next stage process machine, adjusts the conveying distance of material at reposition of redundant personnel passageway 7, and later the material gets into second confluence passageway 8 under the assistance of slant deflector 55 and second differential conveyer belt 31, later gets into next stage process.

The technical principle of the present invention is described above with reference to specific embodiments. The description is made for the purpose of illustrating the principles of the invention and should not be construed in any way as limiting the scope of the invention. Based on the explanations herein, those skilled in the art will be able to conceive of other embodiments of the present invention without any inventive effort, which would fall within the scope of the present invention.

Claims (10)

1. The utility model provides a canned fish production confluent conveyor of line that merges which characterized in that: including feeding conveyor mechanism, first differential conveying mechanism, feeding conveyor mechanism with first differential conveying mechanism sets up side by side, feeding conveyor mechanism includes that at least two locate the feeding conveyer belt in the frame side by side, first differential conveying mechanism includes that at least two locate the first differential conveyer belt in the frame side by side, is close to certainly feeding conveyer belt is to keeping away from the conveying speed of the first differential conveyer belt of feeding conveyer belt scales up in proper order, feeding conveyer belt with be equipped with first confluence passageway between the first differential conveyer belt.

2. The on-line converging and conveying device for fish can production according to claim 1, characterized in that: still include the deflector, the deflector includes outside confluence deflector, inboard confluence deflector, the outside confluence deflector inboard the confluence deflector is located on the first confluence passageway, the one end of outside confluence deflector is to keeping away from feeding web the outside of first differential conveyer belt extends, and the other end is to being close to first differential conveyer belt feeding web extends, the one end of inboard confluence deflector is to keeping away from feeding web the inboard of first differential conveyer belt extends, and the other end is to keeping away from first differential conveyer belt feeding web extends.

3. The on-line converging and conveying device for fish can production according to claim 2, characterized in that: still include second differential conveying mechanism, second differential conveying mechanism with first differential conveying mechanism sets up side by side, second differential conveying mechanism includes that at least two locate the second differential conveyer belt in the frame side by side, is close to certainly first differential conveyer belt is to keeping away from the conveying speed of the second differential conveyer belt of first differential conveyer belt increases progressively in proper order, second differential conveyer belt with first differential conveying mechanism area is equipped with the reposition of redundant personnel passageway, the reposition of redundant personnel passageway with first confluence passageway intercommunication.

4. The on-line converging and conveying device for fish can production according to claim 3, characterized in that: the deflector still includes outside reposition of redundant personnel deflector, inboard reposition of redundant personnel deflector, the outside reposition of redundant personnel deflector inboard reposition of redundant personnel deflector is located on the reposition of redundant personnel passageway, the one end of outside reposition of redundant personnel deflector is to keeping away from the second differential conveyer belt the outside of first differential conveyer belt is extended, and the other end is to being close to first differential conveyer belt the second differential conveyer belt extends, the one end of inboard reposition of redundant personnel deflector is to keeping away from the second differential conveyer belt the inboard of first differential conveyer belt is extended, and the other end is to keeping away from first differential conveyer belt the second differential conveyer belt extends.

5. The on-line converging and conveying device for fish can production according to claim 3, characterized in that: and a second confluence channel is arranged on the second differential conveying belt and is communicated with the diversion channel.

6. The on-line converging and conveying device for fish can production according to claim 5, characterized in that: the deflector still includes the slant deflector, the slant deflector is located on the second confluence passageway, the one end of slant deflector is to being close to first differential conveyer belt the second differential conveyer belt extends, and the other end is to keeping away from first differential conveyer belt the second differential conveyer belt extends.

7. The on-line converging and conveying device for fish can production according to claim 3, characterized in that: the driving device is in transmission connection with the first differential conveying belt and the second differential conveying belt respectively, and the frequency converter is electrically connected with the driving device.

8. The on-line converging and conveying device for fish can production according to claim 6, characterized in that: and the guide plate is provided with an anti-collision strip.

9. The on-line converging and conveying device for fish can production according to claim 6, characterized in that: the support rod is arranged on the frame, one end of the support rod is connected with the frame, and the other end of the support rod is connected with the guide plate.

10. The on-line converging and conveying device for fish can production according to claim 9, characterized in that: the length of the supporting rod between the rack and the guide plate is adjusted by the adjusting device.

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