CN209337023U - A kind of superfine powder packing machine - Google Patents

Abstract

The utility model relates to a kind of superfine powder packing machines, feed hopper including being mounted on frame top, its bottom connects lateral dedusting set by transverse sleeves, transverse screw is installed simultaneously in transverse sleeves and lateral dedusting set, lateral dedusting covers one end and connects longitudinal dedusting set by longitudinal sleeve, longitudinal screw, the installation discharging capping of longitudinal dedusting set bottom, the mechanism of docking entrainment below are installed simultaneously in longitudinal sleeve and longitudinal dedusting set；It further include sealing plate, the synchronous belt parallel with sealing plate is installed in rack by belt wheel on rear side of sealing plate, sealing plate front surface passes through the fixed entrainment mechanism of sensor wrap, the weighing sensor that installation is connect with entrainment mechanism in sensor wrap, the sliding rail for being equipped with sliding block is installed at the sealing plate back side, and sliding block passes through connecting plate and the synchronous band connection；The utility model be evacuated powder in conveying, automatic packaging efficiency height of weighing, and solves the problems, such as in superfine powder packaging process bale broken in fugitive dust and transportational process.

Description

A kind of superfine powder packing machine

Technical field

The utility model relates to powder packaging equipment technical field, especially a kind of superfine powder packing machine.

Background technique

With the continuous improvement of industrial automation level, packaging quality and packaging speed of the modern industry for superfine powder There is higher requirement, the packaging robot of automation can increase substantially the quality of production and production efficiency of enterprise, mitigate The labor intensity of worker in Traditional Packing industry, improves the working environment of worker, mitigates dust for polluting brought by environment, Traditional packaging robot is all also to be hoisted in package stability and reliability, especially for the packaging of superfine powder Often cause fugitive dust, dust leakage, material air content is excessively high, and then causes environmental pollution or during transportation bale broken Phenomena such as, increase the unstability and insecurity of production.

Utility model content

The applicant provides a kind of structurally reasonable superfine powder packaging for the disadvantage in above-mentioned existing production technology Machine, thus the problems such as solving environmental pollution present in conventional packaging process, dust leakage, bale broken, and high degree of automation, it mentions High efficiency.

Technical solution used by the utility model is as follows:

A kind of superfine powder packing machine, including the rack at mount structure, frame top installs feed hopper, and feeding funnel bottom part is logical It crosses the transverse sleeves being horizontally mounted and connects lateral dedusting set, a lateral spiral shell is installed simultaneously in transverse sleeves and lateral dedusting set Bar, lateral dedusting covers one end and connects longitudinal dedusting set by vertically-mounted longitudinal sleeve, in longitudinal sleeve and longitudinal dedusting set A longitudinal screw is installed simultaneously, longitudinal dedusting set bottom is equipped with discharging capping, and discharging capping lower section is to being connected to clamping belt conveyer Structure；It further include the sealing plate being installed in longitudinal dedusting set rear side rack, the rack upper and lower on rear side of sealing plate respectively installs a band It takes turns, the synchronous belt parallel with sealing plate is installed between two belt wheels, the front surface of sealing plate passes through the fixed clamping belt conveyer of sensor wrap Structure, the weighing sensor that the interior installation of sensor wrap is connect with entrainment mechanism, the back side of sealing plate is equipped with sliding rail, is equipped on sliding rail The sliding block slid along, sliding block pass through connecting plate and the synchronous band connection.

Its further technical solution is:

Pacify between the transverse direction dedusting set inner wall and transverse screw, and between longitudinal dedusting set inner wall and longitudinal screw Equipped with microporous pipe, and lateral dedusting set and longitudinal dedusting are covered and are mounted between respective internal microporous pipe and be each formed with cavity, The tube wall of microporous pipe is equipped with several perforative micropores, is equipped with the external pumping of connection on lateral dedusting set and longitudinal dedusting set side The suction interface of device of air.

The top of longitudinal screw is connected to the output end of longitudinal feeding motor, and longitudinal feeding motor is installed on feed hopper side The top of rack, longitudinal feeding motor top are equipped with discharging cylinder, the piston rod end of discharging cylinder by mounting rack support It is connected with discharging cylinder connecting shaft, discharging cylinder connecting shaft is connected through longitudinal screw, and with discharging capping.

One end of transverse screw is connected to the output end of lateral feeding motor, and lateral feeding motor is fixed on one end of rack On face.

The mounting structure of the entrainment mechanism includes: hollow cavity, and hollow cavity bottom is equipped with two block baffles, two pieces of gears The upper end of plate is separately fixed in a shaft, and mechanism is carried in a stretching of two shafts secretly, and respectively be mounted on clamping belt conveyer The clamping jaw of structure one side connects, and the lower end of two block baffles is opened and closed by two clamping jaw movements, two clamping jaw forming V-shape structures, Clamping jaw cylinder wherein is installed on a clamping jaw；Entrainment actuator base positioned at two block baffle two sides is separately installed with a rectangle Sponge cushion block is mounted on the outer wall of pawl, rectangle pawl and two block baffles；It is also equipped with and stirs out on entrainment mechanism one side It closes.

Sensor fixation plate is separately installed on the inner wall of the sensor wrap two sides, two pieces of sensor fixation plates, which stretch out, to be passed Pass through sealing plate after sensor cover, and be bonded respectively with the two sides of sliding block, the end face of two pieces of sensor fixation plates be each attached to one piece and The slider connecting plate that slider end face paste is closed, slider connecting plate are connect with the cage plate being socketed on synchronous belt.

Belt wheel on the downside of synchronous belt is driven by being mounted on the lifting motor of frame lower.

The circumferentially spaced about of dedusting set outer wall is equipped with more sweep-up pipes along longitudinal direction.

Sealing ring is mounted between transverse sleeves and lateral dedusting set and between longitudinal sleeve and longitudinal dedusting set.

Charging motor is installed in feed hopper upper surface, and the feed screw of output end connection stretches to inside feed hopper.

The beneficial effects of the utility model are as follows:

The utility model is compact-sized, reasonable, easy to operate, has the function of automatic filling, automatic gauge etc., packaging speed Fastly, sealing effect is good, using negative pressure remove powder contained in air, solve superfine powder packaging process in fugitive dust it is larger and In transportational process the problems such as bale broken.The utility model has the further advantage that simultaneously

1, the utility model carries out superfine powder by the conveying twice of horizontal and vertical both direction and pumping process It is evacuated in conveying, guarantees that the powder air content into before packaging bag is in minimum state；The utility model is ingenious be utilized it is negative Principle is pressed, forms negative pressure cavity using the spatia body formed between lateral dedusting set and longitudinal dedusting set and respective microporous pipe Body is evacuated the cavity (cavity where powder) between microporous pipe and screw rod, due to the design of micropore in microporous pipe, guarantees The isolation of powder and air.

2, present invention discharging capping is controlled by discharging cylinder connecting shaft by discharging cylinder, can cooperate load control discharging Speed.

3, the entrainment mechanism of the utility model can be realized automatic title under the driving of synchronous belt by weighing sensor Amount, automated packing, and packaging bag can be fixed and according to blowing amount to entrainment mechanism go up and down, prevent drain hole with Packaging bag causes fugitive dust apart from excessive, while cooperating longitudinal dedusting to cover outer sweep-up pipe and carrying out dust suction to the fugitive dust in packaging process, Effectively control fugitive dust maintains cleaned in situ.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the left view of Fig. 1.

Fig. 3 is the mounting structure schematic diagram of the utility model longitudinal direction microporous pipe and lateral microporous pipe.

Fig. 4 is the cross-sectional view of the utility model longitudinal direction microporous pipe or lateral microporous pipe.

Fig. 5 is the mounting structure schematic diagram that the utility model carries mechanism and belt secretly.

Wherein: 1, longitudinal sleeve；2, longitudinal dedusting set；3, sweep-up pipe；4, discharging capping；5, mechanism is carried secretly；6, sealing plate；7, Synchronous belt；8, lateral dedusting set；9, transverse sleeves；10, transverse screw；11, lateral feeding motor；12, rack；13, feed hopper； 14, feed screw；15, charging motor；16, discharging cylinder；17, discharging cylinder connecting shaft；18, longitudinal feeding motor；19, longitudinal spiral shell Bar；20, lifting motor；21, belt wheel；22, sensor wrap；23, sensor fixation plate；24, cage plate；25, sliding rail；26, sliding block； 27, slider connecting plate；28, clamping jaw cylinder；29, microporous pipe；30, suction interface；51, hollow cavity；52, baffle；53, shaft； 54, toggle switch；55, clamping jaw；56, rectangle pawl；291, micropore.

Specific embodiment

With reference to the accompanying drawing, illustrate specific embodiment of the present utility model.

As depicted in figs. 1 and 2, the superfine powder packing machine of the present embodiment, including the rack 12 at mount structure, rack 12 is pushed up Feed hopper 13 is installed in portion, and 13 bottom of feed hopper passes through the transverse sleeves 9 being horizontally mounted and connects lateral dedusting set 8,9 He of transverse sleeves A piece transverse screw 10 is installed simultaneously, lateral dedusting covers 8 one end and passes through vertically-mounted longitudinal sleeve 1 in lateral dedusting set 8 Longitudinal dedusting set 2 is connected, a longitudinal screw 19, longitudinal dedusting set 2 are installed simultaneously in longitudinal sleeve 1 and longitudinal dedusting set 2 Bottom is equipped with discharging capping 4, and 4 lower section of discharging capping is to being connected to clamping belt conveyer structure 5；It further include being installed on longitudinal 2 rear side of dedusting set Sealing plate 6 in rack 12,12 upper and lower of rack of the rear side of sealing plate 6 respectively install a belt wheel 21, between two belt wheels 21 installation with The front surface of the parallel synchronous belt 7 of sealing plate 6, sealing plate 6 passes through 22 fixing clamp of sensor wrap band mechanism 5, the interior installation of sensor wrap 22 With the weighing sensor that connect of entrainment mechanism 5, the back side of sealing plate 6 is equipped with sliding rail 25, is equipped with and slides along on sliding rail 25 Sliding block 26, sliding block 26 are connect by connecting plate with synchronous belt 7.

As shown in Figure 3 and Figure 4, lateral dedusting covers between 8 inner walls and transverse screw 10, and longitudinal dedusting cover 2 inner walls with Be mounted on microporous pipe 29 between longitudinal screw 19, and lateral dedusting set 8 and longitudinal dedusting set 2 be mounted on the micro- of respective inside Cavity is each formed between hole pipe 29, the tube wall of microporous pipe 29 is equipped with several perforative micropores 291, and lateral dedusting covers 8 and indulges It is covered to dedusting and is equipped with the suction interface 30 for connecting external air extractor on 2 sides.

As depicted in figs. 1 and 2, the top of longitudinal screw 19 is connected to the output end of longitudinal feeding motor 18, longitudinal feeding Motor 18 is installed on the top of 13 1 side frame 12 of feed hopper, is equipped with out above longitudinal feeding motor 18 by mounting rack support Expect cylinder 16, the piston rod end of discharging cylinder 16 is connected with discharging cylinder connecting shaft 17, and discharging cylinder connecting shaft 17 is through longitudinal direction The motor shaft and longitudinal screw 19 of feeding motor 18, and be connected with discharging capping 4.

One end of transverse screw 10 is connected to the output end of lateral feeding motor 11, and lateral feeding motor 11 is fixed on rack On 12 end face.

As shown in Figure 1, Figure 2 and shown in Fig. 5, the mounting structure of entrainment mechanism 5 includes: hollow cavity 51,51 bottom of hollow cavity Two block baffles 52 are installed, the upper end of two block baffles 52 is separately fixed in a shaft 53, a stretching of two shafts 53 It carries mechanism 5 secretly, and is connect respectively with the clamping jaw 55 for being mounted on entrainment 5 one side of mechanism, the lower end of two block baffles 52 passes through two The movement of clamping jaw 55 is opened and closed, two 55 forming V-shape structures of clamping jaw, wherein being equipped with clamping jaw cylinder 28 on a clamping jaw 55；It is located at 5 bottom of entrainment mechanism of two block baffles, 52 two sides is separately installed with a rectangle pawl 56, rectangle pawl 56 and two block baffles 52 Sponge cushion block is mounted on outer wall；Toggle switch 54 is also equipped on entrainment 5 one side of mechanism.

Sensor fixation plate 23 is separately installed on the inner wall of 22 two sides of sensor wrap, two pieces of sensor fixation plates 23 stretch out Sealing plate 6 is passed through after sensor wrap 22, and is bonded respectively with the two sides of sliding block 26, and the end face of two pieces of sensor fixation plates 23 is fixed In the slider connecting plate 27 that one piece is bonded with 26 end face of sliding block, slider connecting plate 27 connects with the cage plate 24 being socketed on synchronous belt 7 It connects.

Belt wheel 21 positioned at 7 downside of synchronous belt is driven by being mounted on the lifting motor 20 of 12 lower part of rack.

Dedusting covers the circumferentially spaced about equipped with more sweep-up pipes 3 of 2 outer walls along longitudinal direction.

Sealing is mounted between transverse sleeves 9 and lateral dedusting set 8 and between longitudinal sleeve 1 and longitudinal dedusting set 2 Circle.

Charging motor 15 is installed in 13 upper surface of feed hopper, and the feed screw 14 of output end connection stretches in feed hopper 13 Portion.

The implementation process of the utility model is as follows:

Packaging bag is placed on to two baffles, 52 outside of entrainment mechanism 5, stirs toggle switch 54, clamping jaw cylinder 28 is dynamic Make, two clamping jaws 55 is driven to move, while driving and being opened respectively to two sides by two block baffle 52 connected to it of shaft 53, i.e., Packaging bag is strutted, two baffles 52 are clamped the bag with two cooperations of rectangle pawl 56 respectively after strutting certain angle, are started Lifting motor 20 drives synchronous belt 7 to rotate, and cage plate 24 thereon is slided with movable slider 26 along sliding rail 25 by slider connecting plate 27, Entrainment mechanism 5 and packaging bag are risen into 4 lower section of discharging capping, so that it is just contacted the position of the bottom of packaging bag, goes up and down at this time Motor 20 stops operating；

Then, charging motor 15 drives the feed screw 14 in feed hopper 13 to be fed, and powder, which enters to be located at, laterally to be removed It in microporous pipe 29 in dirt set 8, and is conveyed by lateral feeding motor 11 by transverse screw 10, enters back into and be located at longitudinal dedusting set In microporous pipe 29 in 2, it is further continued for being conveyed by longitudinal feeding motor 18 by the driving of longitudinal screw 19, it, will be horizontal in transmission process Suction interface 30 on dedusting set 8 and longitudinal direction dedusting set 2 is connect with external negative pressure device, is removed in lateral dedusting set 8 and longitudinal direction Negative pressure cavity is formed in gap between dirt set 2 and respective microporous pipe 29, the air warp contained in powder in two microporous pipes 29 Entered negative pressure cavity by the micropore 291 on 29 tube wall of microporous pipe and taken away by suction interface 30, realizes the function for becoming the pumping of conveying side Energy；

Powder reaches longitudinal dedusting and covers 2 bottom discharges capping, 4 opening, and powder enters in packaging bag, while lifting motor 20 Movement, entrainment mechanism 5 are gradually decreased with increasing for material in packaging bag, to control discharge port and carry the height of mechanism 5 secretly Difference avoids causing fugitive dust, while sweep-up pipe 3 accesses negative pressure, by caused fugitive dust is extracted out in packaging bag when discharging.Discharging capping 4 are driven by discharging cylinder connecting shaft 17, and control its aperture by discharging cylinder 16, to control discharging speed and load.

The powder material weighing mode of superfine powder packaging robot is as follows:

By taking 10Kg material packaging as an example: settable 9Kg is quickly thick feed way charging, and remaining small end 1Kg is accurate Blanking, when weighing sensor, which detects, has fed 9Kg, control PLC adjusts blanking velocity and precision, and which improves packagings Mass accuracy；When material reaches setting value, discharging cylinder 16 is acted, and discharge port is closed in discharging capping 4, is delayed 1-2 seconds, is risen Drop motor 20 drives entrainment mechanism 5 and packaged material to return to initial position by synchronous belt 7, then is delayed 1-2 seconds, clamping jaw gas Cylinder 28 acts, and unclamps packaging bag, and primary packaging is completed.

Above description is the explanation to the utility model, is not the restriction to utility model, defined by the utility model Range is within the protection scope of the utility model referring to claim, can make any type of modification.

Claims (6)

1. a kind of superfine powder packing machine, it is characterised in that: including the rack (12) at mount structure, be installed at the top of rack (12) Hopper (13), feed hopper (13) bottom pass through the transverse sleeves (9) being horizontally mounted and connect lateral dedusting set (8), transverse sleeves (9) With a transverse screw (10) is installed simultaneously in lateral dedusting set (8), lateral dedusting set (8) one end passes through vertically-mounted vertical Longitudinal dedusting set (2) is connected to sleeve (1), interval is equipped with more sweep-up pipes (3), longitudinal sleeve on longitudinal dedusting set (2) outer wall In cylinder (1) and longitudinal dedusting set (2) while a longitudinal screw (19) being installed, longitudinal dedusting set (2) bottom part down is to being connected to It carries secretly mechanism (5)；It further include the sealing plate (6) being installed on rear side of longitudinal dedusting set (2) in rack (12), the machine on rear side of sealing plate (6) Frame (12) upper and lower respectively installs a belt wheel (21), installs the synchronous belt (7) parallel with sealing plate (6) between two belt wheels (21), The front surface of sealing plate (6) passes through sensor wrap (22) the fixed entrainment mechanism (5), the interior installation of sensor wrap (22) and clamping belt conveyer The weighing sensor of structure (5) connection, the back side of sealing plate (6) is equipped with sliding rail (25), is equipped with and slides along on sliding rail (25) Sliding block (26), sliding block (26) are connect by connecting plate with the synchronous belt (7).

2. a kind of superfine powder packing machine as described in claim 1, it is characterised in that: the top of longitudinal screw (19) is connected to The output end of longitudinal feeding motor (18), longitudinal feeding motor (18) are installed on the top of (13) one side frame (12) of feed hopper.

3. a kind of superfine powder packing machine as described in claim 1, it is characterised in that: one end of transverse screw (10) is connected to The output end of lateral feeding motor (11), lateral feeding motor (11) are fixed on an end face of rack (12).

4. a kind of superfine powder packing machine as described in claim 1, it is characterised in that: sensor wrap (22) two sides it is interior It is separately installed on wall sensor fixation plate (23), two pieces of sensor fixation plates (23) stretch out sensor wrap (22) and pass through sealing plate afterwards (6), it and is respectively bonded with the two sides of sliding block (26), the end face of two pieces of sensor fixation plates (23) is each attached to one piece and sliding block (26) slider connecting plate (27) of end face fitting, slider connecting plate (27) are connect with the cage plate (24) being socketed on synchronous belt (7).

5. a kind of superfine powder packing machine as described in claim 1, it is characterised in that: the belt wheel being located on the downside of synchronous belt (7) (21) it is driven by being mounted on the lifting motor (20) of rack (12) lower part.

6. a kind of superfine powder packing machine as described in claim 1, it is characterised in that: the installation charging of feed hopper (13) upper surface Motor (15), it is internal that the feed screw (14) of output end connection stretches to feed hopper (13).