CN110899141A - Gas bomb weighing and defective product removing machine - Google Patents

Abstract

The invention relates to a removing machine, in particular to a gas bomb weighing and defective product removing machine, which has the technical scheme that: the inclined plate feeding machine is used for conveying the air bomb bottles arranged in a row; the input end of the second conveying track is connected with the output end of the inclined plate feeding machine; the output end of the second conveying track is connected with a third conveying track, and a sorting mechanism for sorting is arranged along one side of the third conveying track; the detection device is in signal connection with the weighing device and is used for detecting the weight information of the weighing device; the control unit is in signal connection with the detection device and the sorting mechanism and controls the sorting mechanism according to the weight information. The effect is as follows: one of them, utilize this material loading machine to make small-size gas bomb bottle arrange into one row and send out in feeding mechanism, make the management of weighing subsequent collection and the small-size gas bomb bottle more convenient. And secondly, classifying the defective product gas bomb bottle and the good product gas bomb bottle by full-automatic weighing.

Description

Gas bomb weighing and defective product removing machine

Technical Field

The invention relates to a removing machine, in particular to a gas bomb weighing and defective product removing machine.

Background

Small gas bomb bottles are commonly used for containing various gases or liquids, such as diffused gases for lung function, gases for blood gas measurement, portable medical oxygen and foaming agents, etc. in hospitals, and are generally mass-produced and delivered to customers.

After the existing manual inflator finishes inflation, the quality of the inflated balloon bottles needs to be detected, and due to the fact that manual inflation has inflation quality deviation, the quality of each balloon bottle is difficult to achieve the same. The existing gas bomb bottles which are completely inflated are placed on a weighing device through hands for weighing detection, unqualified boxes are placed on the bottles with unqualified quality, and qualified boxes are placed on the bottles with qualified quality. However, the weighing and rejecting mode is low in automation degree and long in time consumption, and is not suitable for large-batch weighing and rejecting of the gas bomb bottles.

Disclosure of Invention

Aiming at the defects in the prior art, the invention aims to provide a gas bomb weighing and defective product rejecting machine which has the advantage of fully automatically weighing and rejecting defective products.

The technical purpose of the invention is realized by the following technical scheme: the inclined plate feeding machine is used for arranging the air bomb bottles into a row for conveying;

the input end of the second conveying track is connected with the output end of the inclined plate feeding machine;

the output end of the second conveying track is connected with a third conveying track, and a sorting mechanism for sorting is arranged along one side of the third conveying track;

the detection device is in signal connection with the weighing device and is used for detecting weight information of the weighing device; the control unit is in signal connection with the detection device and the sorting mechanism and is used for receiving the weight information and controlling the sorting mechanism according to the weight information.

The invention is further configured to: the inclined plate feeding machine is characterized by further comprising a first slide way, the first slide way comprises an input end and an output end, the output end of the inclined plate feeding machine is connected to the input end of the first slide way, and the output end of the first slide way is connected to the input end of the second conveying track; the first slideway comprises a first supporting plate and a second supporting plate, the first supporting plate and the second supporting plate are connected at an obtuse angle, and a concave part is formed at the connecting part.

The invention is further configured to: the input end of the first slide way is higher than the output end of the first slide way.

The invention is further configured to: and baffles are arranged on two sides of the third conveying track.

The invention is further configured to: the inclined plate feeding machine further comprises a first conveying rail, and the first conveying rail and the first inclined plate are respectively arranged on two sides of the second fixing plate; the output end of the first conveying track is connected with the input end of the first slide way.

The invention is further configured to: the sorting mechanism is arranged as a push rod.

The invention is further configured to: the width of the first conveying track is matched with the diameter of the air bomb bottle.

The invention is further configured to: the width between the baffles on the two sides of the third conveying track is matched with the diameter of the gas bomb bottle.

In conclusion, the invention has the following beneficial effects:

one of them, utilize this material loading machine to make small-size gas bomb bottle arrange into a row and send out in feeding mechanism, make the management of weighing subsequent collection and the small-size gas bomb bottle more convenient.

And secondly, classifying the defective product gas bomb bottle and the good product gas bomb bottle by full-automatic weighing.

Thirdly, can handle the categorised of large batch gas bomb bottle weighing.

Drawings

FIG. 1 is a schematic structural diagram of a bomb weighing and reject machine according to the present embodiment;

fig. 2 is a schematic structural view of the sloping plate feeder in the embodiment;

fig. 3 is a schematic structural diagram of the first swash plate in the present embodiment;

FIG. 4 is a schematic structural diagram of a second fixing plate in the present embodiment;

FIG. 5 is a schematic view of the structure of the gas bomb;

fig. 6 is a schematic structural view of the bomb.

In the figure: 1. a first slideway; 101. a first pallet; 102. a second pallet; 2. a sloping plate feeding machine; 201. A feeding mechanism; 202. a second fixing plate; 2021. a second limiting side surface; 2022. a second upper side; 203. A first sloping plate; 2031. a first limit side surface; 2032. a first upper side; 3. a third conveying track; 4. A sorting mechanism; 5. a second conveying track; 6. a detection device; 7. a baffle plate; 8. a first conveying rail; 9. And a weighing device.

Detailed Description

The invention is described in detail below with reference to the figures and examples.

A gas bomb weighing and defective product rejecting machine, as shown in fig. 1, comprising: first slide 1 and swash plate material loading machine 2, swash plate material loading machine 2 is used for the gas bomb bottle to arrange into row and carries, and first slide 1 includes input and output, swash plate material loading machine 2's output connects in the input of first slide 1.

The input of first slide 1 is higher than the output of first slide 1 makes the gas bomb bottle that swash plate material loading machine 2 dropped first slide 1 can pass through one section gravity acceleration, makes the gas bomb bottle can drop next part with faster speed.

The first slideway 1 comprises a first supporting plate 101 and a second supporting plate 102, wherein the first supporting plate 101 and the second supporting plate 102 are connected at an obtuse angle, and a concave part is formed at the connection position. One end of the concave part is connected with the output end of the first conveying track 8 of the inclined plate feeding machine 2, and the other end of the concave part is connected with the input end of the second conveying track 3. Because the gas bomb bottle body is the cylinder, when the gas bomb bottle got into first slide 1, the gas bomb bottle was slided to the concave part and is passed through first slide 1 by the sliding force. The air bomb bottles falling into the first slide way 1 are all located at the same position, and the air bomb bottles are prevented from sliding out of the first slide way 1 due to the arrangement of the concave parts.

The inclined plate feeding machine 2 comprises a feeding mechanism 201, a second fixing plate 202 and a first inclined plate 203, wherein the feeding mechanism 201 can be set as a conveying belt line or a sliding plate. When the feeding mechanism 201 is configured as a sliding plate, one side of the sliding plate close to the first inclined plate 203 is lower than one side of the sliding plate far away from the first inclined plate 203, so that the bomb can slide down along the sliding plate. When the conveying belt line is arranged along the horizontal direction, the air bomb bottle is conveyed by the conveying force of the conveying belt line. In practical application, the feeding mechanism 201 can be selected according to requirements, and a sliding plate is preferably selected when the air bomb bottles are conveyed in large batches, so that the air bomb bottles can slide down quickly. When the preferred conveyor belt line that needs steady transport and prevent that the gas bomb bottle from colliding with, can steadily carry the gas bomb bottle.

The second fixed plate 202 of the sloping plate feeding machine 2 comprises a second limit side 2021 and a second upper side 2022, the second limit side 2021 of the second fixed plate 202 is arranged along the vertical direction, and the second upper side 2022 is inclined downwards by the left side to the right side, so that when the aeroelastic bottle is positioned on the second upper side 2022, the aeroelastic bottle can slide downwards to the right under the action of gravity of the aeroelastic bottle. As shown in fig. 3, three second fixing plates 202 are provided, each second fixing plate 202 is disposed in parallel, the second upper side 2022 of each second fixing plate 202 is located at a horizontal level with a different height, and the horizontal level of each second upper side 2022 is higher than the horizontal level of the output end of the feeding mechanism 201. The horizontal heights of the second upper surfaces 2022 of the three second fixing plates 202 are gradually increased from left to right.

The first swash plate 203 of swash plate material loading machine 2 includes first spacing side 2031 and first side 2032 of going up, and first spacing side 2031 all sets up along vertical direction, and first side 2032 of going up is by left side right side downward sloping, and when making the gas bomb bottle be in first side 2032 of going up, the gas bomb bottle received the action of gravity of self and can make the gas bomb bottle landing right.

The first inclined plate 203 is arranged between the feeding mechanism 201 and the second fixing plates 202, and the first inclined plate 203 is arranged between every two second fixing plates 202.

A first inclined plate 203 is arranged between the feeding mechanism 201 and the leftmost second fixing plate 202, and the first inclined plate 203 moves up and down to drive the first upper side 2032 to connect back and forth between the output end of the feeding mechanism 201 and the input end of the second upper side 2022. When the first inclined plate 203 is connected to the output end of the feeding mechanism 201, the aeroelastic bottle falls from the feeding mechanism 201 to the first inclined plate 203 between the feeding mechanism 201 and the second fixing plate 202, and then the first inclined plate 203 moves upward, because the first upper side surface 2032 of the first inclined plate 203 is inclined downward to the right, in the process of upward movement of the first inclined plate 203, the aeroelastic bottle slides downward to the right due to gravity and collides with the second limit side surface 2021 of the adjacent second fixing plate 202, until the first inclined plate 203 is connected to the input end of the second upper side surface 2022 of the second fixing plate 202, and the aeroelastic bottle falls into the second upper side surface 2022 of the second fixing plate 202.

The first inclined plate 203 and the second fixing plate 202 may be disposed on the inclined plate feeder 2 in multiple sets, so that the conveying efficiency of the inclined plate feeder 2 may be increased.

The inclined plate feeding machine 2 further comprises a first conveying rail 8, the first conveying rail 8 is a conveying belt, the width of the first conveying rail 8 is matched with the diameter of the aerial bomb bottle, and the orientation of the aerial bomb bottle is unchanged when the aerial bomb bottle is conveyed along the first conveying rail 8. The first conveying track 8 and the first inclined plate 203 are respectively arranged on two sides of the second fixing plate 202, when the aerobomb bottle passing through the second upper side 2022 of the second fixing plate 202 slides into the first conveying track 8, the height of the aerobomb bottle is conveyed in parallel with the conveying direction, the output end of the first conveying track 8 is connected with the input end of the first slideway 1, and the aerobomb bottle conveyed to the first slideway 1 is conveyed along the same direction.

The output end of the first slide way 1 is connected with a second conveying rail 5, the second conveying rail 5 is integrally arranged on a weighing device 9, the weighing device 9 is used for detecting the weight of the second conveying rail 5 and the aerobomb bottle, and then the weight weighed by the weighing device 9 is subtracted by the fixed weight of the second conveying rail 5 to measure the weight of the aerobomb bottle passing through the second conveying rail 5.

The output of second delivery track 5 is connected with third delivery track 3, 3 one side of third delivery track is provided with letter sorting mechanism 4, third delivery track 3 sets up to the conveyer belt, letter sorting mechanism 4 sets up the push rod that a cylinder control pushed, letter sorting mechanism 4 can transversely promote on third delivery track 3, letter sorting mechanism 4 can push away the gas bomb bottle from third delivery track 3 to the both sides position that falls, can set up the unqualified box of quality in 3 side positions of third delivery track earlier, set up the qualified box of quality in the output end position of third delivery track 3, letter sorting mechanism 4 detects that gas bomb bottle quality is unqualified can push the gas bomb bottle down the unqualified box of quality on one side of third delivery track 3.

The baffle 7 is arranged on two sides of the third conveying track 3, and the width of the baffle 7 is matched with the diameter of the bomb bottle, so that the bomb bottles passing through the third conveying track 3 can be pushed in the same direction all the time. The sorting mechanism 4 is provided at an end position of the flapper 7.

Detection device 6 and the control unit, detection device 6 signal connection in weighing device 9 for detect weighing device 9's weight information. The control unit is in signal connection with the detection device 6 and the sorting mechanism 4, and is used for receiving the weight information and controlling the pushing of the sorting mechanism 4 according to the weight information. When the detection device 6 detects that the weight of the air bomb bottle passing through the weighing device 9 is not enough, the detection device 6 controls the sorting mechanism 4 to transversely push the air bomb bottle down towards the third conveying track 3, and when the detection device 6 detects that the weight of the air bomb bottle passing through the weighing device 9 is enough, the control device controls the sorting mechanism 4 to be immobile, so that the air bomb bottle is conveyed along the third conveying track 3 all the time. And the air bomb bottle is all through the transport of first delivery track 8 and first slide 1, the speed that the air bomb bottle fell into third delivery track 3 is unanimous, and can confirm from second delivery track 5 to the distance that sorting mechanism 4 air bomb bottle need be drawn, so the time that the air bomb bottle that passes through weighing device 9 arrived sorting mechanism 4 can be confirmed through calculating, when detecting that weighing device 9 shows that air bomb bottle weight is not enough, detection device 6 feedback signal to sorting mechanism 6, sorting mechanism 6 receives feedback information and makes the reaction of promoting, push the air bomb bottle one side of third delivery track down.

The working process is as follows: the gas bomb bottle is input from the feeding mechanism 201 until abutting against the first limit side surface 2031 of the first sloping plate 203, when the first upper side surface 2032 of the first sloping plate 203 is shifted to the output end connected to the feeding mechanism 201, when the gravity center of the gas bomb bottle falls above the first sloping plate 203, the gas bomb bottle falls on the first upper side surface 2032 of the first sloping plate 203, and when the gravity center of the gas bomb bottle falls on the left side of the first sloping plate 203, the gas bomb bottle falls back to the feeding mechanism 201. The first sloping plate 203 with the gas bomb therein rises until being connected with the input end of the second fixing plate 202, the gas bomb slides down to the first conveying track 8 along the second upper side 2022 of the second fixing plate 202 by gravity, the first conveying track 8 is connected with the first slideway 1, the gas bomb passing through the first slideway 1 falls onto the second conveying track 5 by the action of gravity acceleration, the weighing device 9 weighs the second conveying track 5 and the gas bomb integrally, when the detection device 6 detects that the weight of the air bomb bottle passing through the weighing device 9 is insufficient, a signal is fed back to the detection device 6, the sorting mechanism 6 makes a pushing reaction after receiving the feedback information, the air bomb bottle is pushed to one side of the third conveying track 3, when the detection device 6 detects that the weight of the air bomb passing through the weighing device 9 is enough, the control device controls the sorting mechanism 4 to be fixed, so that the air bomb is conveyed along the third conveying track 3 all the time. The air bomb bottles pushed down by the sorting mechanism 4 are the air bomb bottles with insufficient quality, and the air bomb bottles with sufficient quality are conveyed along the third conveying track 3 all the time.

The above description is only a preferred embodiment of the present invention, and the protection scope of the present invention is not limited to the above examples, and all technical solutions belonging to the idea of the present invention belong to the protection scope of the present invention. It should be noted that modifications and embellishments within the scope of the invention may occur to those skilled in the art without departing from the principle of the invention, and such modifications and embellishments should also be considered as within the scope of the invention.

Claims (9)

1. The utility model provides a gas bomb is weighed and defective products reject machine which characterized in that includes: the inclined plate feeding machine is used for conveying the air bomb bottles arranged in a row;

the input end of the second conveying track is connected with the output end of the inclined plate feeding machine;

the output end of the second conveying track is connected with a third conveying track, and a sorting mechanism for sorting is arranged along one side of the third conveying track;

the detection device is in signal connection with the weighing device and is used for detecting the weight information of the weighing device; the detection control comprises a control unit which is in signal connection with the detection device and the sorting mechanism.

2. The aeroelastic weighing and defective product rejecting machine according to claim 1, wherein: the inclined plate feeding machine is characterized by further comprising a first slide way, wherein the first slide way comprises an input end and an output end, the output end of the inclined plate feeding machine is connected to the input end of the first slide way, and the output end of the first slide way is connected to the input end of the second conveying track; the first slideway comprises a first supporting plate and a second supporting plate, the first supporting plate and the second supporting plate are connected at an obtuse angle, and a concave part is formed at the connecting part.

3. The aeroelastic weighing and defective product rejecting machine according to claim 2, wherein: the input end of the first slide way is higher than the output end of the first slide way.

4. The aeroelastic weighing and defective product rejecting machine according to claim 1, wherein: the inclined plate feeding machine comprises a feeding mechanism, a second fixing plate and a first inclined plate;

the second fixing plate comprises a second limiting side surface and a second upper side surface, and the horizontal position of the second upper side surface is higher than that of the output end of the feeding mechanism;

the first inclined plate comprises a first limiting side surface and a first upper side surface, and the first inclined plate is arranged between the feeding mechanism and the second fixed plate; the first inclined plate can drive the first upper side surface to be connected to the output end of the feeding mechanism and the input end of the second upper side surface back and forth by vertical displacement;

the first upper side face and the second upper side face are both inclined downwards from one side close to the feeding mechanism to one side far away from the feeding mechanism;

wherein the width of first side sets up to fall into first side on with the width of direction of height parallel to first side on with the gas bomb bottle after, the gas bomb bottle can be followed first swash plate and is close to the side upset that is close to feed mechanism and fall onto feed mechanism.

5. The aeroelastic weighing and defective product rejecting machine according to claim 1, wherein: and baffles are arranged on two sides of the second conveying rail and the third conveying rail.

6. The aeroelastic weighing and defective product rejecting machine according to claim 2, wherein: the inclined plate feeding machine further comprises a first conveying rail, and the first conveying rail and the first inclined plate are respectively arranged on two sides of the second fixing plate; the output end of the first conveying track is connected with the input end of the first slide way.

7. The aeroelastic weighing and defective product rejecting machine according to claim 5, wherein: the sorting mechanism is arranged as a push rod.

8. The aeroelastic weighing and defective product rejecting machine according to claim 6, wherein: the width of the first conveying track is matched with the diameter of the air bomb bottle.

9. The aeroelastic weighing and defective product rejecting machine according to claim 5, wherein: the width between the baffles on the two sides of the third conveying track is matched with the diameter of the gas bomb bottle.

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