CN206841740U - Automatic powder packaging system - Google Patents

Abstract

The utility model discloses a kind of automatic powder packaging system, belong to package packing machine field, including buffering chamber (1), feeding device (2), weighing device (3), splicing depassing unit (4), output device (5) and the dust collecting system (6) being located in frame (8), also include control device (7), buffering chamber (1) is located at the top of feeding device (2), the charging aperture airtight connection of its discharging opening and feeding device (2)；Feeding device (2) is located above weighing device (3), the charging aperture airtight connection of its discharging opening and weighing device (3)；Splicing depassing unit (4) is located at the lower section of weighing device (3), the charging aperture of splicing depassing unit (4) and the discharging opening airtight connection of weighing device (3)；Output device (5) is located at below splicing depassing unit (4).The utility model can realize the automatic degasification packaging to gassiness powder, it is possible to increase the packaging efficiency of gassiness powder, automaticity is high, precision is high.

Description

Automatic powder packaging system

Technical field

A kind of packaging system is the utility model is related to, more particularly to a kind of automatic powder packaging system, belongs to packing machine Tool technical field.

Background technology

Many industries can produce or using special material, the fine original of such as starch, talcum powder, carbon dust, chemical industry additive Material or superfine powder, substantial amounts of air is often carried in these materials.Currently for the packaging of these easy gassiness granular materials, Main still rely on manually is packed.Because these are easily carried the granular material of air, influenceed by air content, material is close Degree and mobility are there is larger difference, even if the material characteristic change that identical material is shown in the different phase of weighing and bagging Also very big, conventional automated packaging equipment can not be handled effectively, therefore limit the automaticity of its packaging, it is difficult to be realized high-precision The automatic packaging of degree.

The content of the invention

In order to solve the above problems, the utility model provides a kind of automatic powder packaging system, can realize to gassiness powder The automatic degasification packaging of material, it is possible to increase the packaging efficiency of gassiness powder, the system automaticity is high, precision is high.

In order to achieve the above object, the utility model uses following technical scheme：A kind of automatic powder packaging system, including Buffering chamber, feeding device, weighing device, splicing depassing unit, output device and the dust collecting system being located in frame, in addition to control Device processed, described buffering chamber are located at the top of feeding device, the discharging opening of buffering chamber and the closed company of the charging aperture of feeding device Connect；Described feeding device is located above weighing device, the discharging opening of feeding device and the charging aperture airtight connection of weighing device； Described splicing depassing unit is located at the lower section of weighing device, and the charging aperture of splicing depassing unit and the discharging opening of weighing device are close Close connection；Described output device is located at below splicing depassing unit；Described dust collecting system is filled by pipeline and splicing degasification Put connection；Described control device is used to be controlled the electrical equipment in system；

Further, described buffering chamber includes feed bin, feed bin agitator, discharging agitator, arch breaking apparatus and material of weighing Position meter, the agitating shaft of described feed bin agitator pass through feed bin, and the agitating shaft of described discharging agitator passes through feed bin bottom Discharging opening, described arch breaking apparatus is located on feed bin is located at the lower section of feed bin close to discharge outlet, described level-sensing device of weighing；

Further, described feeding device includes DWG, degasification chimney filter and blowback air bag, described double spiral shells The double-screw shaft of rotation conveyer is located in shell two, and double-screw shaft connects close to one end of two enterprising material mouth of shell and motor transmission Connect, described degasification chimney filter is located between double-screw shaft and shell two, has micropore thereon, and described blowback air bag is located at shell two Outside simultaneously connects with the inside of shell two；The tail end discharging opening of described DWG is provided with the bin gate being driven by the cylinder；

Further, described weighing device includes weigh hopper, weighing sensor and the pneumatic hammer in shell three, institute The shell three stated is fixedly connected with frame, and described weigh hopper is fixedly connected with shell three, and described weighing sensor is located at In weigh hopper, described pneumatic hammer pedestal is fixedly connected with shell three, and tup is close to weigh hopper；

Further, described splicing depassing unit includes charging aperture, folder bag seat, degasification filter stick and folder bag arm, described Folder bag seat is fixedly connected with frame, and folder bag seat is provided with the lift cylinder of vertical direction, and the lower end of lift cylinder is connected with described Degasification filter stick；Described folder bag arm is located at the lower end of folder bag seat, is driven by folder bag cylinder；

Further, described dust collecting system by the dust-collecting pipe that is located on folder bag seat with connecting inside splicing depassing unit It is logical；

Further, the discharging opening of described weigh hopper is made up of discharging cylinder and two reclaiming plates, and reclaiming plate is to turn Arm configuration, two reclaiming plates are oppositely arranged, and both ends and the reclaiming plate upper end of discharging cylinder are hinged, and the flex point of reclaiming plate is outer with being located at Support in shell three is hinged；

Further, described control device includes controller and control loop；

Further, described charging aperture is feed hopper.

The utility model sets buffering chamber, first carries out standing, gas removal to material before weighing；Set and remove in feeding device Air filter pipe, realize the further degasification during charging；By setting degasification filter stick in splicing depassing unit, thing is realized Expect the last degasification in pouring process；Floating dust recovery is carried out by dust collecting system, avoids pollution and the dust explosion of environment It is dangerous；The operation of whole system can be controlled realization by control device, without artificial excessive intervention, automate journey Degree is high, is effectively improved the quantitative accuracy and packaging efficiency of gassiness powder.

Brief description of the drawings

Fig. 1 is overall structure diagram of the present utility model.

Fig. 2 is dimensional structure diagram of the present utility model.

Fig. 3 is the structural representation of the feeding device in the utility model.

Fig. 4 is the structural representation of the weighing device in the utility model.

Fig. 5 is the structural representation of the splicing depassing unit in the utility model.

In figure：1st, buffering chamber, 1.1, feed bin, 1.2, feed bin agitator, 1.3, discharging agitator, 1.4 arch breaking apparatus, 1.5, Weigh level-sensing device, 2, feeding device, 2.1, motor, 2.2, degasification chimney filter, 2.3, bin gate, 2.4, blowback air bag, 2.5, double helix Axle, 2.6, shell two, 3, weighing device, 3.1, weighing sensor, 3.2, weigh hopper, 3.3, pneumatic hammer, 3.4, shell three, 3.5 Discharging cylinder, 3.6, reclaiming plate, 4, splicing depassing unit, 4.1, charging aperture, 4.2, folder bag seat, 4.3, degasification filter stick, 4.4, folder Bag arm, 4.5, dust-collecting pipe, 4.6, folder bag cylinder, 5, output device, 6, dust collecting system, 7, control device, 8, frame.

Embodiment

The utility model is described in further detail below in conjunction with the accompanying drawings.

As shown in figure 1, a kind of automatic powder packaging system, including buffering chamber 1, feeding device 2, the title being located in frame 8 3, splicing depassing unit 4, output device 5 and dust collecting system 6, in addition to control device 7 are put in refitting, and described buffering chamber 1 is located at The top of feeding device 2, for carrying out the standing, gas removal at initial stage, the discharging opening of buffering chamber 1 and the charging of feeding device 2 to material Mouth airtight connection；Described feeding device 2 is located at the top of weighing device 3, for being fed to weighing device 3, feeding device 2 Discharging opening and weighing device 3 charging aperture airtight connection；Described splicing depassing unit 4 is located at the lower section of weighing device 3, uses In the filling material into pocket and final degasification is carried out, the discharging opening of the charging aperture and weighing device 3 of splicing depassing unit 4 is closed Connection；Described output device 5 is located at the lower section of splicing depassing unit 4, for the pocket of canned material to be transported into sealed station Transported after sealing；Described dust collecting system 6 is connected by pipeline with splicing depassing unit 4, for reclaiming caused floating dust；It is described Control device 7 be used for the electrical equipment in system is controlled.

As depicted in figs. 1 and 2, described buffering chamber 1 include feed bin 1.1, feed bin agitator 1.2, discharging agitator 1.3, Arch breaking apparatus 1.4 and level-sensing device 1.5 of weighing, the agitating shaft of described feed bin agitator 1.2 are described horizontal through feed bin 1.1 For the agitating shaft of discharging agitator 1.3 horizontal through the discharging opening of the bottom of feed bin 1.1, described arch breaking apparatus 1.4 is located at feed bin 1.1 It is upper to be located at the lower section of feed bin 1.1 close to discharge outlet, described level-sensing device 1.5 of weighing.Material to be packaged is put into feed bin 1.1 Interior standing, gas removal, start feed bin agitator 1.2 and be stirred, mixing filling can be carried out to material, increase the effective of feed bin 1.1 Volume；When being fed into feeding device 2, the valve of the discharging opening of feed bin 1.1 is opened in control, and starts the convection current of discharging agitator 1.3 Material through the discharging opening of feed bin 1.1 is stirred, and material can be made successfully to be flowed into feeding device 2, if material knot encircles, is opened Dynamic arch breaking apparatus 1.4 carries out broken arch, ensures that material smoothly flows out；Weigh the material of material in the real-time detecting material storehouse 1.1 of level-sensing device 1.5 Position to carry out packing control exactly.

As shown in figures 1 and 3, described feeding device 2 includes DWG, degasification chimney filter 2.2 and blowback air bag 2.4, the double-screw shaft 2.5 of described DWG is located in shell 2 2.6, and double-screw shaft 2.5 is on shell 2 2.6 One end of charging aperture is connected with motor 2.1, described degasification chimney filter 2.2 be located at double-screw shaft 2.5 and shell 2 2.6 it Between, have micropore thereon, described blowback air bag 2.4 is located at the outside of shell 2 2.6 and connected with the inside of shell 2 2.6；It is described The tail end discharging opening of DWG be provided with the bin gate 2.3 that is driven by the cylinder.Material in buffering chamber 1 passes through shell two Charging aperture on 2.6 is entered inside shell 2 2.6, starts motor 2.1, and material moves to the discharging opening of DWG, At the same time, the negative pressure system being connected with shell 2 2.6 is started, except the gas in decapsidate 2 2.6；Bin gate is controlled by cylinder 2.3 opening and closing, you can whether the material in control feeding device 2 enters weighing device 3；To prevent on degasification chimney filter Micropore is blocked, and the timing of blowback air bag 2.4 carries out blowback to degasification chimney filter 2.2, maintains its venting capability.

As shown in Figure 1 and Figure 4, described weighing device 3 includes weigh hopper 3.2, biography of weighing in shell 3 3.4 Sensor 3.1 and pneumatic hammer 3.3, described shell 3 3.4 are fixedly connected with frame 8, described weigh hopper 3.2 and shell 3 3.4 It is fixedly connected, described weighing sensor 3.1 is located in weigh hopper 3.2, and the described pedestal of pneumatic hammer 3.3 is solid with shell 3 3.4 Fixed connection, tup is close to weigh hopper 3.2.Material in weigh hopper 3.2 is added to by weighing sensor by feeding device 2 3.1 are weighed, and the interval of pneumatic hammer 3.3 beats weigh hopper 3.2, prevents material wall built-up, so as to further improve weighing precision.

As shown in Figure 1 and Figure 5, described splicing depassing unit 4 includes charging aperture 4.1, folder bag seat 4.2, degasification filter stick 4.3 With folder bag arm 4.4, described folder bag seat 4.2 is fixedly connected with frame 8, and folder bag seat 4.2 is provided with the lift cylinder of vertical direction (being not drawn into figure), the lower end of lift cylinder are connected with described degasification filter stick 4.3；Described folder bag arm 4.4 is located at folder bag seat 4.2 lower end, driven by folder bag cylinder 4.6.During filling material, empty bag is enclosed on the discharging opening of the lower end of folder bag seat 4.2, started Pocket is clamped on folder bag seat 4.2 by folder bag cylinder 4.6, folder bag arm 4.4, starts lift cylinder, and lift cylinder drives and removes air filter Rod 4.3 moves into empty bag, restarts negative pressure system, at the same time, passes through folder bag seat 4.2 into the material in material receiving port 4.1 Discharging opening it is filling enter in pocket, in filling process, degasification filter stick 4.3 can remove the air in pocket and in material, really Protect material smoothly to encapsulate, after the completion of filling, lift cylinder drives degasification filter stick 4.3 to be moved upward to above material.

As shown in Figure 1 and Figure 5, described dust collecting system 6 is removed by the dust-collecting pipe 4.5 being located on folder bag seat 4.2 with splicing The inside of device of air 4 connects, and can absorb caused floating dust during filling material, avoids filling and package workshop floating floating dust, Both the production safety in workshop had been can guarantee that, and can avoids polluting environment.

Described output device 5 is belt conveyor, and the pocket of canned material is delivered to sealed station by output device 5 Transported after being sealed, it is easy to install using belt conveyor, purchase.

Described control device 7 includes controller and control circuit, and whole packaging system is controlled, and is weighed with realizing The automation of packaging.

As shown in figure 4, the discharging opening of described weigh hopper 3.2 is made up of discharging cylinder 3.5 and two reclaiming plates 3.6, Reclaiming plate 3.6 is crank arm structure, and two reclaiming plates 3.6 are oppositely arranged, and both ends and the upper end of reclaiming plate 3.6 of discharging cylinder 3.5 are cut with scissors Connect, the flex point of reclaiming plate 3.6 is hinged with the support being located in shell 3 3.4.When the piston rod of discharging cylinder 3.5 stretches out, two are driven The individual lower end of reclaiming plate 3.6 relative movement can not flow out up to the material in contact closure, weigh hopper 3.2；Discharging cylinder 3.5 is lived When stopper rod is retracted, two lower ends of reclaiming plate 3.6 are driven to move towards, the material in weigh hopper 3.2 can flow out.Using this knot Structure is easy to the rate of outflow of control material.

Described charging aperture 4.1 is feed hopper, had both been easy to the discharging opening with weighing device 3 to connect, and had also allowed for splicing.

Operation principle of the present utility model：Material to be installed is put into standing, gas removal in buffering chamber 1, empty pocket is enclosed on splicing Folder bag seat 4.2 on depassing unit 4 simultaneously clamps, and control device 7 controls the discharging opening of feed bin 1.1 to be discharged into feeding device 2, adds Expect that the material in device 2 is flowed into weighing device 3, when the material in weighing device 3 reaches setting weight value, stop to weighing Feed in device 3, control the material in weighing device 3 to flow into progress into splicing depassing unit 4 filling, after, by pocket Remove and carry out sealing transhipment；Continue next bag of material of filling and package according to above-mentioned steps.

Claims (9)

1. a kind of automatic powder packaging system, it is characterised in that including buffering chamber (1), the feeding device being located in frame (8) (2), weighing device (3), splicing depassing unit (4), output device (5) and dust collecting system (6), in addition to control device (7), institute The buffering chamber (1) stated is located at the top of feeding device (2), and the charging aperture of the discharging opening and feeding device (2) of buffering chamber (1) is closed Connection；Described feeding device (2) is located above weighing device (3), discharging opening and the weighing device (3) of feeding device (2) Charging aperture airtight connection；Described splicing depassing unit (4) is located at the lower section of weighing device (3), and splicing depassing unit (4) are entered Material mouth and the discharging opening airtight connection of weighing device (3)；Described output device (5) is located at below splicing depassing unit (4)；Institute The dust collecting system (6) stated is connected by pipeline with splicing depassing unit (4)；Described control device (7) is used in system Electrical equipment is controlled.

2. a kind of automatic powder packaging system according to claim 1, it is characterized in that：Described feeding device (2) includes DWG, degasification chimney filter (2.2) and blowback air bag (2.4), the double-screw shaft (2.5) of described DWG are set In shell two (2.6), double-screw shaft (2.5) connects close to one end of the enterprising material mouth of shell two (2.6) and motor (2.1) transmission Connect, described degasification chimney filter (2.2) is located between double-screw shaft (2.5) and shell two (2.6), has micropore thereon, and described is anti- Air blowing capsule (2.4) is located at shell two (2.6) outside and connected with the inside of shell two (2.6)；Described DWG Tail end discharging opening is provided with the bin gate (2.3) being driven by the cylinder.

3. a kind of automatic powder packaging system according to claim 1 or 2, it is characterized in that：Described splicing depassing unit (4) include charging aperture (4.1), folder bag seat (4.2), degasification filter stick (4.3) and folder bag arm (4.4), described folder bag seat (4.2) with Frame (8) is fixedly connected, and folder bag seat (4.2) is provided with the lift cylinder of vertical direction, and the lower end of lift cylinder is connected with described Degasification filter stick (4.3)；Described folder bag arm (4.4) is located at the lower end of folder bag seat (4.2), is driven by folder bag cylinder (4.6).

4. a kind of automatic powder packaging system according to claim 3, it is characterized in that：Described buffering chamber (1) includes material Storehouse (1.1), feed bin agitator (1.2), discharging agitator (1.3), arch breaking apparatus (1.4) and level-sensing device of weighing (1.5), it is described The agitating shaft of feed bin agitator (1.2) passes through feed bin (1.1), and the agitating shaft of described discharging agitator (1.3) passes through feed bin (1.1) discharging opening of bottom, described arch breaking apparatus (1.4) are located on feed bin (1.1) close to discharge outlet, described material of weighing Position meter (1.5) is located at the lower section of feed bin (1.1).

5. a kind of automatic powder packaging system according to claim 4, it is characterized in that：Described weighing device (3) includes Weigh hopper (3.2), weighing sensor (3.1) and pneumatic hammer (3.3) in shell three (3.4), described shell three (3.4) It is fixedly connected with frame (8), described weigh hopper (3.2) is fixedly connected with shell three (3.4), described weighing sensor (3.1) it is located in weigh hopper (3.2), described pneumatic hammer (3.3) pedestal is fixedly connected with shell three (3.4), and tup is close to title Heavy burder bucket (3.2).

6. a kind of automatic powder packaging system according to claim 5, it is characterized in that：Described dust collecting system (6) passes through The dust-collecting pipe (4.5) being located on folder bag seat (4.2) inside splicing depassing unit (4) with connecting.

7. a kind of automatic powder packaging system according to claim 6, it is characterized in that：Described weigh hopper (3.2) Discharging opening is made up of discharging cylinder (3.5) and two reclaiming plates (3.6), and reclaiming plate (3.6) is crank arm structure, two reclaiming plates (3.6) it is oppositely arranged, both ends and reclaiming plate (3.6) upper end of discharging cylinder (3.5) are hinged, and the flex point of reclaiming plate (3.6) is with setting Support in shell three (3.4) is hinged.

8. a kind of automatic powder packaging system according to claim 7, it is characterized in that：Described control device (7) includes Controller and control loop.

9. a kind of automatic powder packaging system according to claim 8, it is characterized in that：Described charging aperture (4.1) be into Hopper.