CN221068521U

CN221068521U - Bidirectional automatic quantitative packaging machine

Info

Publication number: CN221068521U
Application number: CN202323000748.5U
Authority: CN
Inventors: 沈剑; 刘裕洋; 倪超
Original assignee: Jiangyin Chaohui Construction Environmental Protection Machinery Co ltd
Current assignee: Jiangyin Chaohui Construction Environmental Protection Machinery Co ltd
Priority date: 2023-11-07
Filing date: 2023-11-07
Publication date: 2024-06-04
Anticipated expiration: 2033-11-07

Abstract

The utility model discloses a bidirectional automatic quantitative packaging machine, which comprises: the device comprises a frame, a filter cabin arranged on the frame, a sedimentation cabin arranged below the filter cabin, a material preparation cabin arranged below the sedimentation cabin, and a feeding cabin arranged below the material preparation cabin; the connection part of the frame and the sedimentation cabin is also provided with a vibrating screen, the feeding cabin comprises a spiral blade arranged in the feeding cabin, and a dust collection port, a discharge port and a discharge port are formed in the feeding cabin; according to the utility model, the vibration plate is used for screening the materials to avoid the entry of sundries, the sedimentation cabin is symmetrically arranged to detect the weight of the materials through the pressure sensors on the baffle plate and control the start/stop of the first cylinder and the vibration sieve, the dust collection cabin is used for collecting dust generated in the vibration and baffle plate opening state, the second cylinder is used for controlling the position of the movable plate according to the running states of the discharge port and the discharge port to avoid the opening of the movable plate, and the measured materials are mixed.

Description

Bidirectional automatic quantitative packaging machine

Technical Field

The utility model belongs to the technical field of material conveying of packaging machines, and particularly relates to a bidirectional automatic quantitative packaging machine.

Background

The automatic quantitative packing machine is a packing device which is controlled by a computer and integrates automatic feeding, automatic filling and automatic bag dropping, and the whole packing device is composed of a feeder, a weighing hopper, a blanking hopper, a frame and a control system, wherein the feeder is divided into a plurality of forms according to different materials: dead weight blanking, spiral, belt, vibration and other forms; the weighing hopper is used for weighing materials, can store the materials in a transitional manner, and can be used for emptying the materials conveniently; the blanking hopper has the functions of clamping bags and the effect similar to a funnel, so that materials can flow into the packaging bags from the weighing hopper conveniently; the frame is used for fixing the whole body, and the control system operates the whole mechanical part according to a set program;

At present, the automatic quantitative packaging machine on the market adopts a form of discharging by a single hopper, has lower efficiency, can not meet the requirement of rapid quantitative packaging, and can carry out the next operation after the materials are packaged, so that the packaging machine is in a waiting state in the packaging process, dust can be generated in the packaging, stirring and transferring processes of the materials, the processing environment is at risk, and the feeding mode of the packaging machine needs to be adjusted according to the packaging state.

Disclosure of utility model

The utility model aims to: the bidirectional automatic quantitative packaging machine is provided to solve the problems in the prior art.

The technical scheme is as follows: a bi-directional automatic quantitative packaging machine comprising:

The device comprises a frame, a filter cabin arranged on the frame, a sedimentation cabin arranged below the filter cabin, a material preparation cabin arranged below the sedimentation cabin, and a feeding cabin arranged below the material preparation cabin;

A vibrating screen is also arranged at the joint of the frame and the sedimentation cabin, a dust collection cabin is sleeved at the outer side of the sedimentation cabin, the dust collection cabin is in threaded connection with the material preparation cabin,

The sedimentation cabin is positioned at the position of the material preparation cabin and is also provided with a baffle, a pressure sensor is further arranged on the baffle, and a first cylinder is further arranged between the baffle and the sedimentation cabin;

the material preparation cabin is connected with the feeding cabin, and is also provided with a movable plate and a fixed plate, and a second cylinder is arranged between the movable plate and the fixed plate;

The feeding cabin comprises a spiral blade arranged in the feeding cabin, and a dust collection port, a discharge port and a discharge port which are formed in the feeding cabin.

In a further embodiment, the filter capsule is provided with a transparent observation port, the sedimentation capsule is provided with at least two filter capsule threaded connections, the transparent observation port can observe the storage condition of materials constantly, and the two sedimentation capsules are arranged side by side, so that the bearing and the release of the materials are alternately carried out.

In a further embodiment, the dust collection cabin is sleeved on the sedimentation cabin, a gap is formed between the dust collection cabin and the sedimentation cabin, dust generated in the process that materials in the sedimentation cabin fall into the material preparation cabin is collected by the dust collection cabin, and splashing of the dust and overflow from the dust collection cabin are avoided.

In a further embodiment, the baffle is in sliding fit with the sedimentation tank, the first cylinder is in threaded connection with the dust collection tank, the output end of the first cylinder is connected with the baffle, the baffle shields the material outlet of the sedimentation tank, and the operation of the first cylinder is used for controlling the opening/closing of the sedimentation tank.

In a further embodiment, the pressure sensor is connected in series with a control power supply for the vibrating screen and the first cylinder, and the operation of the vibrating screen and the first cylinder is controlled by a pressure parameter value set by the pressure sensor.

In a further embodiment, the movable plate is movably connected with the material preparation cabin, the fixed plate is fixedly connected with the material preparation cabin, the movable plate and the fixed plate manage materials falling into the material feeding cabin from the material preparation cabin, the positions of the movable plate are adjusted through the second air cylinder, so that the materials falling into the material feeding cabin have short time delay, and the materials are prevented from being mixed after being quantified and entering the material feeding cabin.

In a further embodiment, the spiral blade is in clearance fit with the feeding cabin, the discharge hole and the discharge hole are oppositely arranged at two ends of the spiral blade and are communicated with the feeding cabin, one end of the spiral blade is further provided with a motor, the motor is in threaded connection with the feeding cabin, the dust collection hole is respectively arranged at the positions of the discharge hole and is communicated with the feeding cabin, and the feeding cabin is in threaded connection with the frame; the spiral blade controls the output of materials at the discharge port or the discharge port according to the rotation direction of the motor, and the dust collection port collects dust generated by the discharge port or the discharge port and collects dust generated by the material bag separated from the discharge port or the discharge port.

The beneficial effects are that: the utility model discloses a bidirectional automatic quantitative packaging machine, which screens materials through a vibrating plate to avoid sundries from entering, wherein a sedimentation cabin is symmetrically arranged to detect the weight of the materials through pressure sensors on a baffle plate and control the start/stop of a first cylinder and the vibrating screen, a dust collection cabin is used for collecting dust generated in the state of vibrating and opening the baffle plate, a second cylinder is used for controlling the position of a movable plate according to the running state of a discharge hole and a discharge hole to avoid opening the movable plate, the measured materials are mixed, the quantitative materials are inaccurate, the dust collection hole is used for collecting the dust generated by the discharge hole and the discharge hole to avoid leakage, and in addition, the switching of the quantitative materials output through the discharge hole or the discharge hole is controlled according to the running direction of a motor, so that the waiting time of the packaging machine is reduced.

Drawings

Fig. 1 is a schematic diagram of the front view structure of the present utility model.

Fig. 2 is a left-hand structural schematic of the present utility model.

Fig. 3 is a schematic diagram of a front view splitting structure of the present utility model.

Fig. 4 is a left-view split structure schematic diagram of the present utility model.

The reference numerals are: 1. a filter chamber; 2. a sedimentation cabin; 3. a material preparation cabin; 4. a feeding cabin; 11. a vibrating screen; 21. a dust collection cabin; 22. a baffle; 23. a first cylinder; 31. a second cylinder; 32. a movable plate; 33. a fixing plate; 41. a motor; 42. a discharge port; 43. a helical blade; 44. a discharge port; 45. a dust collection port; 100. a frame.

Detailed Description

According to the bidirectional automatic quantitative packaging machine, materials are screened through the vibrating plate to avoid sundries entering, the sedimentation cabin is symmetrically arranged to detect the weight of the materials through the pressure sensors on the baffle plate, the first cylinder and the vibrating screen are controlled to start/stop, dust generated in the vibrating state and the baffle plate opening state is collected by the dust collection cabin, and a scheme is specifically described through specific embodiments.

Referring to fig. 1-4, a bi-directional automatic quantitative packing machine, comprising:

The device comprises a frame 100 and a filter cabin 1 arranged on the frame 100, wherein the filter cabin 1 is provided with a transparent observation port, the transparent observation port can observe the storage condition of materials at any time, a sedimentation cabin 2 arranged below the filter cabin 1 is provided with at least two sedimentation cabins 2 which are in threaded connection with the filter cabin 1, and the two sedimentation cabins 2 are arranged side by side so as to alternately carry out bearing and release of the materials; a preparation cabin 3 arranged below the sedimentation cabin 2, and a feeding cabin 4 arranged below the preparation cabin 3, wherein the feeding cabin 4 is in threaded connection with the frame 100.

The vibration sieve 11 is further arranged at the joint of the frame 100 and the sedimentation tank 2, the dust collection tank 21 is sleeved on the outer side of the sedimentation tank 2, a gap is arranged between the dust collection tank 21 and the sedimentation tank 2, and the dust collection tank 21 collects dust generated in the process that the material of the sedimentation tank 2 falls into the preparation tank 3, so that the dust is prevented from splashing and overflowing from the dust collection tank 21; the dust collection cabin 21 is in threaded connection with the stock cabin 3.

The sedimentation tank 2 is located the position department of preparing the cabin 3 and still is equipped with baffle 22, baffle 22 and sedimentation tank 2 sliding fit, still is equipped with pressure sensor on the baffle 22, and pressure sensor carries out series connection with the control power of shale shaker 11 and first cylinder 23, controls the operation of shale shaker 11 and first cylinder 23 through the pressure parameter value that pressure sensor set for.

A first air cylinder 23 is arranged between the baffle 22 and the sedimentation tank 2; the first cylinder 23 is in threaded connection with the dust collection cabin 21, the output end of the first cylinder 23 is connected with the baffle 22, the baffle 22 shields the material outlet of the sedimentation cabin 2, and the opening/closing control is carried out through the operation of the first cylinder 23.

The material preparation cabin 3 is connected with the feeding cabin 4 and is also provided with a movable plate 32 and a fixed plate 33, and a second cylinder 31 is arranged between the movable plate 32 and the fixed plate 33; the movable plate 32 is movably connected with the material preparation cabin 3, the fixed plate 33 is fixedly connected with the material preparation cabin 3, the movable plate 32 and the fixed plate 33 manage the materials falling into the material feeding cabin 4 from the material preparation cabin 3, the positions of the movable plate 32 are adjusted through the second air cylinder 31, so that the materials falling into the material feeding cabin 4 have short time delay, and the materials are prevented from being mixed after being quantified and entering the material feeding cabin 4.

The feeding cabin 4 includes installing at the inside helical blade 43 of feeding cabin 4, helical blade 43 and feeding cabin 4 clearance fit, helical blade 43's one end still is equipped with motor 41, motor 41 and feeding cabin 4 threaded connection, open dust absorption mouth 45 on feeding cabin 4, discharge opening 42 and discharge gate 44, discharge gate 44 and discharge opening 42 set up at helical blade 43's both ends relatively and with feeding cabin 4 intercommunication, dust absorption mouth 45 sets up respectively in discharge opening 44 and discharge opening 42 positions and with feeding cabin 4 intercommunication, helical blade 43 is according to motor 41's rotation direction, the output at discharge opening 44 or discharge opening 42 of control material, dust collection mouth 45 collects the dust that discharge opening 44 or discharge opening 42 produced, and the dust that collection material bag breaks away from discharge opening 44 or discharge opening 42 produced.

Description of working principle: firstly, the materials to be packaged are conveyed to a filter cabin 1, at the moment, the filter cabin 1 and a sedimentation cabin 2 are in a non-communicated state, then the detection value of a pressure sensor is set, after the setting is finished, a material bag is sleeved at a discharge port 44 and a discharge port 42,

When the pressure sensor does not detect the materials, the vibrating screen 11 is controlled to run at the moment, so that the materials fall into the sedimentation cabin 2, dust generated in the falling process is collected through the dust collection cabin 21, when the weight of the materials reaches the set value of the pressure sensor, the vibrating screen 11 stops at the moment, and then whether the materials exist in the material preparation cabin 3 is detected;

when materials exist, the baffle 22 is in a closed state;

When no material exists and the movable plate 32 and the fixed plate 33 are in a door closing state, the first air cylinder 23 controls the baffle 22 to be opened at the moment, so that quantitative materials fall into the material preparation cabin 3, the first air cylinder 23 resets after the quantitative materials fall into the material preparation cabin, and the materials are screened again into the sedimentation cabin 2;

At this time, the motor 41 is operated, the second cylinder 31 is started to enable the material to fall into the spiral blade 43, the second cylinder 31 is reset after the material falls into the spiral blade 43, the material is conveyed to the discharge port 44 by the spiral blade 43, dust generated by the discharge port 44 is collected by the dust collection port 45, splashing of the dust is avoided, the material is packaged after being packaged in bags, and the material is output through the discharge port 42 after being reversed by the motor 41 in the process of replacing the material bags, so that the packaging speed of the material is improved.

The preferred embodiments of the present utility model have been described in detail above with reference to the accompanying drawings, but the present utility model is not limited to the specific details of the above embodiments, and various equivalent changes can be made to the technical solutions of the present utility model within the scope of the technical concept of the present utility model, and these equivalent changes all fall within the protection scope of the present utility model.

Claims

1. A bi-directional automatic quantitative packaging machine comprising: the device comprises a frame, a filter cabin arranged on the frame, a sedimentation cabin arranged below the filter cabin, a material preparation cabin arranged below the sedimentation cabin, and a feeding cabin arranged below the material preparation cabin;

It is characterized in that a vibrating screen is also arranged at the joint of the frame and the sedimentation cabin, a dust collection cabin is sleeved at the outer side of the sedimentation cabin, the dust collection cabin is in threaded connection with the material preparation cabin,

2. The bi-directional automatic quantitative packing machine according to claim 1, wherein: the filter capsule is provided with a transparent observation port, and the sedimentation capsule is provided with at least two filter capsules which are in threaded connection.

3. The bi-directional automatic quantitative packing machine according to claim 1, wherein: the dust collection cabin is sleeved on the sedimentation cabin, and a gap is arranged between the dust collection cabin and the sedimentation cabin.

4. The bi-directional automatic quantitative packing machine according to claim 1, wherein: the baffle with precipitation cabin sliding fit, first cylinder with dust absorption cabin threaded connection, the output of first cylinder with the baffle is connected.

5. The bi-directional automatic quantitative packing machine according to claim 1, wherein: the pressure sensor is connected in series with the vibrating screen and a control power supply of the first cylinder.

6. The bi-directional automatic quantitative packing machine according to claim 1, wherein: the movable plate is movably connected with the material preparation cabin, and the fixed plate is fixedly connected with the material preparation cabin.

7. The bi-directional automatic quantitative packing machine according to claim 1, wherein: the screw blade with pay-off cabin clearance fit, the discharge gate with the discharge opening sets up relatively at screw blade's both ends and with pay-off cabin intercommunication, screw blade's one end still is equipped with the motor, the motor with pay-off cabin threaded connection, the dust absorption mouth set up respectively the discharge gate with discharge opening position and with pay-off cabin intercommunication, the pay-off cabin with frame threaded connection.