CN215325333U - Anti-overflow prevents disconnected material automatic feeding machine - Google Patents

Abstract

The utility model relates to a feeding machine, in particular to an anti-overflow and anti-breaking automatic feeding machine. The storage bin of the utility model does not need to be watched by a special person after being filled. Preventing raw materials from overflowing the hopper when the production machine breaks down. Comprises a feeding bin, a spiral feeding machine and a production hopper; the feed inlet of the spiral feeding machine is communicated with the feeding bin, and the discharge outlet of the spiral feeding machine is positioned above the production hopper; an overflow-preventing sensor is arranged at the inlet of the production hopper and on the inner wall of the hopper; and the lower part of the production hopper and the inner wall of the hopper are provided with an anti-breaking inductor.

Description

Anti-overflow prevents disconnected material automatic feeding machine

Technical Field

The utility model relates to a feeding machine, in particular to an anti-overflow and anti-breaking automatic feeding machine.

Background

In actual production, a feeding stage usually needs supervision, and if the supervision is not in place, the phenomenon that production raw materials are conveyed too much and overflow from a hopper or are cut off easily occurs; bringing about certain troubles to the production. But also causes waste of raw materials and increases unnecessary production costs.

Disclosure of Invention

Aiming at the defects in the prior art, the utility model aims to solve the problems of material overflow and material breakage; an anti-overflow and anti-material-breaking automatic feeding machine is provided.

In order to achieve the purpose, the utility model adopts the following technical scheme that the device comprises a feeding bin, a spiral feeding machine and a production hopper; the device is characterized in that a feed port of the spiral feeding machine is communicated with a feeding bin, and a discharge port of the spiral feeding machine is positioned above a production hopper; an anti-overflow inductor is arranged at the inlet of the production hopper and on the inner wall of the hopper; and the lower part of the production hopper and the inner wall of the hopper are provided with a material breakage preventing sensor.

Furthermore, photoelectric sensors are adopted in the anti-overflow sensor and the anti-breaking sensor.

Furthermore, the number of the anti-overflow inductors is four, and the anti-overflow inductors are respectively arranged on the four inner walls of the production hopper; and the anti-overflow inductor is arranged along the central line of the inner wall where the anti-overflow inductor is arranged.

Furthermore, the number of the anti-material-breaking inductors is four, and the anti-overflow inductors are respectively arranged on the four inner walls of the production hopper; and the anti-overflow inductor is arranged along the central line of the inner wall where the anti-overflow inductor is arranged.

Further, set up the auger delivery pole in the spiral material loading machine, set up propeller blade on this auger delivery pole.

Further, a feed inlet of the spiral feeding machine is communicated with an outlet below the upper bin body.

Further, the spiral feeding machine is obliquely arranged through the rack, and an inclined included angle between the feeding machine and the horizontal direction is an acute angle after the feeding machine is erected.

Furthermore, the rack is erected in the middle of the spiral feeding machine.

Further, the production hopper is wide at the top and narrow at the bottom.

Compared with the prior art, the utility model has the beneficial effects.

1. The storage bin of the utility model does not need to be watched by a special person after being filled.

2. Preventing raw materials from overflowing the hopper when the production machine breaks down.

3. The occurrence of material breakage is prevented during production.

4. The production efficiency is high, and the production cost is saved.

Drawings

The utility model is further described with reference to the following figures and detailed description. The scope of the utility model is not limited to the following expressions.

Fig. 1-3 are schematic diagrams of the overall structure of the present invention.

Fig. 4-5 are enlarged partial schematic views of fig. 3.

Fig. 6 is a schematic illustration of the installation of sensors on a production hopper.

In the figure, 1, feeding a storage bin; 2. a spiral feeder; 3. a discharge port of the spiral feeding machine; 4. a speed-regulating motor; 5. the speed regulating motor fixes the frame; 6. a production hopper; 7. an anti-overflow sensor; 8. a material breakage preventing sensor; 9. material loading machine frame.

Detailed Description

The material loading machine must be observed by someone, if the production machine is shut down to break down, the production raw materials overflow the hopper very easily, if the material loading is untimely and the material is cut off easily, great uncertain factor has been brought for production, has still increased the human cost. The overflow-proof and material-breaking-proof automatic feeding machine solves the problems of similar feeding machines. As shown in fig. 1-6, the device specifically comprises a feeding bin 1, a spiral feeding machine 2 and a production hopper 6; the feed inlet of the spiral feeding machine 2 is communicated with the feeding bin 1, and the discharge outlet 3 of the spiral feeding machine 2 is positioned above the production hopper 6; an anti-overflow inductor 7 is arranged at the inlet of the production hopper 6 and on the inner wall of the hopper; and the lower part of the production hopper 6 and the inner wall of the hopper are provided with a material breakage preventing sensor.

Preferably, photoelectric sensors are adopted for the anti-overflow sensor 7 (sensor) and the anti-breaking sensor (sensor).

Preferably, the number of the anti-overflow sensors 7 is four, and the anti-overflow sensors 7 are respectively arranged on the four inner walls of the production hopper 6; and the anti-overflow inductor 7 is arranged along the central line of the inner wall. Four anti-breakage sensors are arranged, and an anti-overflow sensor 7 is arranged on each of the four inner walls of the production hopper 6; and the anti-overflow inductor 7 is arranged along the central line of the inner wall. In practice, mounting holes can be formed in the inner wall of the hopper for mounting the overflow prevention sensor 7 and the breakage prevention sensor; the anti-overflow inductor 7 and the anti-breaking inductor are fixed on the inner wall of the hopper through mounting holes.

Preferably, a spiral conveying rod is arranged in the spiral feeding machine 2, and a spiral blade is arranged on the spiral conveying rod; one end of the spiral conveying rod is connected with the speed regulating motor 4, and the other end of the conveying rod extends into the upper stock bin; the automatic feeding is convenient. Specifically, the speed regulating motor 4 is fixed on the shell of the feeding machine through a fixed frame 5 of the speed regulating motor 4; the speed regulating motor 4 drives the spiral conveying rod to rotate relative to the shell of the feeding machine, so that feeding is realized.

Preferably, the feed inlet of the spiral feeding machine 2 is communicated with an outlet below the upper bin 1. Specifically, the feed inlet of the feeding machine is fixedly connected with the outlet of the bin body of the feeding bin 1, and specifically, the feed inlet of the feeding machine is fixedly connected with a flange and a fastener.

Preferably, spiral material loading machine 2 sets up through material loading machine frame 9 slope, and material loading machine frame 9 establishes the back material loading machine and the slope contained angle of horizontal direction is the acute angle, the frame erects in spiral material loading machine 2 middle part. The shell of the feeding machine can be cylindrical, and the feeding machine is supported by the feeding machine frame 9 to be lifted off the ground and inclined at a certain angle. The feeding machine frame comprises supporting legs and a semicircular supporting head, and the spiral feeding machine is erected in the semicircular supporting head and is supported by the supporting head.

Specifically, this equipment spiral material loading machine 2 is through 1 even feeds to production hopper 6 of feed bin, and a set of four inductors are equipped with to 6 tops of production hopper, and the inductor is connected with motor power off switch and is closed spiral material loading machine 2 power at anti-overflow inductor 7 under the pressure effect of raw materials when the raw materials surpass above anti-overflow inductor 7, and spiral material loading machine 2 stops work. A set of four inductors are arranged below the production hopper 6 and connected with a starting power supply of a motor of the spiral feeding machine 2, and the spiral feeding machine feeds when the raw materials are lower than the material breakage preventing inductor 8.

It should be understood that the detailed description of the present invention is only for illustrating the present invention and is not limited by the technical solutions described in the embodiments of the present invention, and those skilled in the art should understand that the present invention can be modified or substituted equally to achieve the same technical effects; as long as the use requirements are met, the method is within the protection scope of the utility model.

Claims (9)

1. An anti-overflow and anti-material-breaking automatic feeding machine is characterized by comprising a feeding bin, a spiral feeding machine and a production hopper; the device is characterized in that a feed port of the spiral feeding machine is communicated with a feeding bin, and a discharge port of the spiral feeding machine is positioned above a production hopper; an anti-overflow inductor is arranged at the inlet of the production hopper and on the inner wall of the hopper; and the lower part of the production hopper and the inner wall of the hopper are provided with a material breakage preventing sensor.

2. The automatic anti-overflow and anti-material-breaking feeding machine as claimed in claim 1, characterized in that: photoelectric sensors are adopted for the anti-overflow sensor and the anti-breaking sensor.

3. The automatic anti-overflow and anti-material-breaking feeding machine as claimed in claim 1, characterized in that: the number of the overflow preventing inductors is four, and the overflow preventing inductors are respectively arranged on the four inner walls of the production hopper; and the anti-overflow inductor is arranged along the central line of the inner wall where the anti-overflow inductor is arranged.

4. The automatic anti-overflow and anti-material-breaking feeding machine as claimed in claim 1, characterized in that: the number of the anti-material-breaking inductors is four, and the anti-overflow inductors are respectively arranged on the four inner walls of the production hopper; and the anti-overflow inductor is arranged along the central line of the inner wall where the anti-overflow inductor is arranged.

5. The automatic anti-overflow and anti-material-breaking feeding machine as claimed in claim 1, characterized in that: the spiral feeding machine is internally provided with a spiral conveying rod, and the spiral conveying rod is provided with a spiral blade.

6. The automatic anti-overflow and anti-material-breaking feeding machine as claimed in claim 1, characterized in that: the feed inlet of the spiral feeding machine is communicated with an outlet below the upper bin body.

7. The automatic anti-overflow and anti-material-breaking feeding machine as claimed in claim 1, characterized in that: the spiral feeding machine is obliquely arranged through the rack, and an inclined included angle between the feeding machine and the horizontal direction is an acute angle after the feeding machine is erected.

8. The automatic material loading machine of claim 7, characterized in that: the frame is erected in the middle of the spiral feeding machine.

9. The automatic anti-overflow and anti-material-breaking feeding machine as claimed in claim 1, characterized in that: the production hopper is wide at the top and narrow at the bottom.

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