CN113665857A

CN113665857A - Copper powder catalyst packing plant

Info

Publication number: CN113665857A
Application number: CN202110948732.3A
Authority: CN
Inventors: 李钢; 张拥军; 钟芳; 杨丛红
Original assignee: Hunan Tianxin Boli Technology Co ltd
Current assignee: Hunan Tianxin Boli Technology Co ltd
Priority date: 2021-08-18
Filing date: 2021-08-18
Publication date: 2021-11-19
Anticipated expiration: 2041-08-18
Also published as: CN113665857B

Abstract

The invention is suitable for the technical field of packaging, and provides a copper powder catalyst packaging device, which comprises: the material box is provided with a discharge pipe, and the discharge pipe is provided with a discharge connecting pipe; the workbench is provided with a packing box; the packaging circulating ejection mechanism is connected with the workbench and used for ejecting the packaging box; the linkage telescopic discharging mechanism is arranged on the discharging connecting pipe and is used for driving the discharging pipe to extend; the driving equipment drives the linkage telescopic discharging mechanism to drive the discharging connecting pipe to descend while driving the packaging circulation ejection mechanism to eject the packaging box, and drives the packaging box and the discharging connecting pipe to be close to each other. The invention is provided with a packaging circulating ejection mechanism and a linkage telescopic discharging mechanism, drives the discharging connecting pipe and the packaging box to be close to each other, reduces the height difference of the copper powder catalyst during blanking, and avoids dust in the air.

Description

Copper powder catalyst packing plant

Technical Field

The invention belongs to the technical field of packaging, and particularly relates to a copper powder catalyst packaging device.

Background

The copper powder catalyst is a novel catalyst and widely applied to organic synthesis, and can increase the contact area between raw materials and the catalyst due to the special shape of the copper powder catalyst, thereby improving the catalytic performance.

When packing the copper powder catalyst, because the copper powder particle diameter is less, there is the dust to produce at packing transportation process, and has the distance between blanking structure and the packaging container, at blanking packaging in-process, the copper powder can fly away and form the dust in the air, and the easy polluted environment is unfavorable for staff's on every side healthy.

Disclosure of Invention

The embodiment of the invention aims to provide a copper powder catalyst packaging device, and aims to solve the problem that in the prior art, a distance exists between a blanking structure and a packaging container, and copper powder can be scattered in air to form dust in the blanking and packaging process.

The embodiment of the invention is realized in such a way that the packaging device for the copper powder catalyst comprises:

the material box is provided with a discharge pipe, and the discharge pipe is provided with a discharge connecting pipe;

the workbench is provided with a packing box, and the packing box corresponds to the discharge connecting pipe and is used for blanking and packing; further comprising:

the packaging circulating ejection mechanism is arranged on the base, connected with the workbench and used for ejecting the packaging box and reducing the distance between the packaging box and the discharge pipe;

the linkage telescopic discharging mechanism is arranged on the discharging connecting pipe and used for driving the discharging pipe to extend and reducing the distance between the packing box and the discharging pipe;

the driving equipment is installed on the base and is respectively connected with the packaging circulating ejection mechanism and the linkage telescopic discharging mechanism, and the linkage telescopic discharging mechanism is driven to drive the discharge connecting pipe to descend when the packaging circulating ejection mechanism is driven to eject the packaging box, so that the packaging box and the discharge connecting pipe are driven to be close to each other.

The embodiment of the invention provides a copper powder catalyst packaging device, aiming at the problems that the copper powder catalyst in the prior art is easy to scatter in the air to form dust during packaging and blanking and is not beneficial to the environment and the health of surrounding workers, the device is provided with a packaging circulating ejection mechanism and a linkage telescopic discharging mechanism, and is improved from two aspects, on one hand, a packaging box is uniformly clamped on a workbench and serves as a packaging container, the packaging box is used as a packaging container, the packaging circulating ejection mechanism is driven to drive the packaging box to jack upwards by starting a driving device, on the other hand, a discharging pipe and a discharging connecting pipe serve as a blanking structure of a material box, the driving device drives the linkage telescopic discharging mechanism to drive the discharging connecting pipe to stretch downwards while driving the packaging box to jack upwards, so that the discharging connecting pipe and the packaging box are driven to be close to each other, the height difference of the copper powder catalyst during blanking is reduced, and the dust in the air is avoided, the purpose of protecting the environment and the health of surrounding workers is achieved.

Drawings

FIG. 1 is a schematic structural diagram of a copper powder catalyst packaging device according to an embodiment of the present invention;

FIG. 2 is a top plan view of a table in a copper powder catalyst packaging apparatus according to an embodiment of the present invention;

FIG. 3 is a schematic structural diagram of a reciprocating ejection assembly in a copper powder catalyst packaging device according to an embodiment of the present invention;

FIG. 4 is a top view of a rotating assembly of a copper powder catalyst packaging unit according to an embodiment of the present invention;

fig. 5 is a schematic structural diagram of a telescopic discharging assembly in the copper powder catalyst packaging device according to the embodiment of the invention.

In the drawings: 1. a material box; 2. a base; 3. a work table; 4. packing cases; 5. a drive device; 6. a cam; 7. actively rotating the plate; 8. a spring; 9. a first connecting plate; 10. a connecting rod; 11. a second connecting plate; 12. a passive rotating plate; 13. a first movable seat; 14. a second movable seat; 15. a lifting plate; 16. a retractable plate; 17. a fixed seat; 18. a reciprocating swing assembly; 19. a connecting assembly; 20. swinging the lifting assembly; 21. ejecting the assembly; 22. a reciprocating ejection assembly; 23. a first bevel gear; 24. a second bevel gear; 25. an active turntable; 26. rotating the plate; 27. a slider; 28. a passive turntable; 29. a chute; 30. rotating the rod; 31. a first transmission assembly; 32. a rotating assembly; 33. an intermittent rotation assembly; 34. a packaging circulating ejection mechanism; 35. a third bevel gear; 36. a fourth bevel gear; 37. a transmission belt; 38. a discharge pipe; 39. a discharge connecting pipe; 40. an incomplete gear; 41. moving the frame; 42. a rack; 43. discharging telescopic pipes; 44. a second transmission assembly; 45. a telescopic drive assembly; 46. a telescopic discharging component; 47. linkage flexible discharge mechanism.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Specific implementations of the present invention are described in detail below with reference to specific embodiments.

As shown in fig. 1, a packaging apparatus for copper powder catalyst according to an embodiment of the present invention comprises:

the device comprises a material box 1, wherein a material discharging pipe 38 is arranged on the material box 1, and a material discharging connecting pipe 39 is arranged on the material discharging pipe 38;

the workbench 3 is provided with a packing box 4, and the packing box 4 corresponds to the discharge connecting pipe 39 and is used for blanking and packing; further comprising:

the packaging circulating ejection mechanism 34 is arranged on the base 2, connected with the workbench 3 and used for ejecting the packaging box 4 and reducing the distance between the packaging box 4 and the discharge pipe 38;

the linkage telescopic discharging mechanism 47 is arranged on the discharging connecting pipe 39 and used for driving the discharging pipe 38 to extend and reducing the distance between the packing box 4 and the discharging pipe 38;

and the driving device 5 is installed on the base 2 and is respectively connected with the packaging circulating ejection mechanism 34 and the linkage telescopic discharging mechanism 47, and drives the linkage telescopic discharging mechanism 47 to drive the discharging connecting pipe 39 to descend while driving the packaging circulating ejection mechanism 34 to eject the packaging box 4, so as to drive the packaging box 4 and the discharging connecting pipe 39 to be close to each other.

In one embodiment of the invention, the copper powder catalyst packaging device aims at the problems that the copper powder catalyst in the prior art is easy to scatter in the air to form dust during packaging and blanking, and is not beneficial to the environment and the health of surrounding workers, a packaging circulation ejection mechanism 34 and a linkage telescopic discharging mechanism 47 are arranged, the improvement is carried out from two aspects, on one hand, a packaging box 4 is uniformly clamped on a worktable 3, the packaging box 4 is used as a packaging container, the packaging circulation ejection mechanism 34 is driven to drive the packaging box 4 to jack up by starting a driving device 5, on the other hand, a discharging pipe 38 and a discharging connecting pipe 39 are used as a blanking structure of a material box 1, the driving device 5 drives the linkage telescopic discharging mechanism 47 to drive the discharging connecting pipe 39 to stretch downwards while driving the packaging box 4 to jack up, and further drives the discharging connecting pipe 39 and the packaging box 4 to approach each other, the height difference of the copper powder catalyst during blanking is reduced, dust in the air is avoided, and the purposes of protecting the environment and the health of surrounding workers are achieved.

As shown in fig. 1 to 2, as a preferred embodiment of the present invention, the package circulating ejection mechanism 34 includes:

the intermittent rotating assembly 33 is mounted on the base 2 and connected with an output shaft of the driving device 5, the workbench 3 is connected with the intermittent rotating assembly 33, and the intermittent rotating assembly 33 is used for driving the workbench 3 to rotate intermittently and driving the packing boxes 4 on the workbench 3 to correspond to the discharging connecting pipe 39 in sequence;

and the reciprocating ejection assembly 22 is installed on the base 2, is connected with an output shaft of the driving device 5, and is used for reciprocating ejection to sequentially drive the packing boxes 4 corresponding to the discharging connecting pipe 39 to be ejected.

The worktable 3 is provided with a through groove, the packing cases 4 are clamped in the through groove, the number of the packing cases 4 is preferably four, when the driving device 5 is started, the driving device 5 can be a servo motor or a pneumatic motor, the driving device 5 drives the intermittent rotating component 33, the intermittent rotating component 33 drives the worktable 3 to rotate intermittently, the worktable 3 is set to rotate a quarter of a circle each time, the packing cases 4 at different positions on the worktable 3 can be driven to rotate to correspond to the position of the discharging connecting pipe 39 in sequence, the purpose of continuous discharging and packaging is realized, the driving device 5 drives the intermittent rotating component 33 and also drives the reciprocating ejection component 22, the reciprocating ejection component 22 has upward lifting upward jacking force on the packing cases 4, the packing cases 4 can be driven to lift, the reciprocating ejection component 22 applies reciprocating jacking force, the packing cases 4 which rotate in sequence can be driven to lift to correspond to the discharging connecting pipe 39, carrying out blanking and packaging; in addition, the packaging circulation ejection mechanism 34 can also be arranged in a transmission belt structure, a plurality of packaging boxes 4 are uniformly arranged on the transmission belt, the transmission belt is started to drive the packaging boxes 4 to move, and then the packaging boxes are sequentially packaged corresponding to the discharging connecting pipe 39.

As shown in fig. 1 to 4, as another preferred embodiment of the present invention, the intermittent rotation assembly 33 includes:

the workbench 3 is connected with the rotating rod 30, and the rotating rod 30 is rotatably installed on the base 2;

the first transmission assembly 31 is connected with an output shaft of the driving device 5 and used for changing the rotating direction of the driving device 5 and transmitting rotating force;

rotating assembly 32, with first transmission assembly 31 links to each other, rotates through the turning force of first transmission assembly 31's transmission, dwang 30 and rotating assembly 32 fixed connection for drive dwang 30 intermittent type rotates.

The first transmission component 31 can be the matching of a first bevel gear 23 and a second bevel gear 24, the first bevel gear 23 is fixed on the output shaft of the driving device 5, the second bevel gear 24 is continuously meshed with the first bevel gear 23, the second bevel gear 24 is driven to rotate by the driving device 5, the rotating component 32 can be the matching of a driving turntable 25, a rotating plate 26, a sliding block 27, a driven turntable 28 and a sliding slot 29, wherein the driving turntable 25 is fixedly connected with the second bevel gear 24, the rotating plate 26 is fixed on the driving turntable 25, the sliding block 27 is installed on the rotating plate 26, the driven turntable 28 is fixed on the rotating rod 30, the concave locking arc of the driven turntable 28 is matched with the concave locking arc of the driving turntable 25, the driven turntable 28 is provided with four sliding slots 29 which are evenly distributed, the sliding block 27 is slidably installed in the sliding slot 29, when the second bevel gear 24 rotates to drive the driving turntable 25 to rotate, the rotating plate 26 rotates along with the rotating plate, when the rotating plate 26 is not matched with the sliding groove 29, the concave locking arc of the driven rotating disc 28 is clamped by the concave locking arc of the driving rotating disc 25, the driven rotating disc 28 does not move, when the rotating plate 26 rotates to the state that the sliding block 27 corresponds to the sliding groove 29, the sliding block 27 slides into the sliding groove 29, the concave locking arc of the driven rotating disc 28 and the concave locking arc of the driving rotating disc 25 are separated, under the rotating force of the driving rotating disc 25, the driven rotating disc 28 is driven to rotate through the matching of the sliding block 27 and the sliding groove 29, the sliding block 27 slides out of the sliding groove 29 after the driven rotating disc 28 rotates for a quarter circle, the concave locking arc of the driven rotating disc 28 is further clamped by the concave locking arc of the driving rotating disc 25, the driven rotating disc 28 does not move, the driving rotating disc 25 continues to rotate, the process is repeated, the sliding block 27 is driven to be matched with the other sliding groove 29, the driven rotating disc 28 continues to rotate for a quarter circle, the workbench 3 is driven to rotate intermittently by the intermittent rotation of the driven turntable 28, so that the packing boxes 4 can be rotated to correspond to the discharging connecting pipes 39 in sequence to complete the discharging and packing process; in addition, the first transmission assembly 31 can also be a worm and gear matched structure, the rotating assembly 32 can also be a ratchet structure and comprises a ratchet wheel and a pawl, the teeth of the ratchet wheel adopt one-way teeth, the pawl is hinged on the rocker, and when the rocker swings, the driving pawl is inserted into the teeth of the ratchet wheel to push the ratchet wheel to rotate in the same direction, so that one-way intermittent motion is realized.

As shown in fig. 3, as a preferred embodiment of the present invention, the reciprocating ejection assembly 22 includes:

a reciprocating swing assembly 18 connected to an output shaft of the driving device 5 to convert a rotational force of the driving device 5 into a reciprocating swing;

a connecting assembly 19 connected with the reciprocating swing assembly 18 and used for transmitting the swing of the reciprocating swing assembly 18;

and the ejection assembly 21 is connected with the connecting assembly 19, corresponds to the workbench 3, and performs reciprocating lifting action through the reciprocating swing of the reciprocating swing assembly 18 to drive the packing box 4 to be ejected upwards.

The reciprocating swing component 18 can be the matching of the cam 6, the driving rotating plate 7 and the spring 8, the cam 6 is fixed on the output shaft of the driving device 5, one end of the driving rotating plate 7 is rotatably installed on a supporting frame, the other end of the driving rotating plate 7 is connected with the supporting frame through the spring 8, the driving device 5 is started to drive the cam 6 to rotate, when the protruding part of the cam 6 rotates to correspond to the driving rotating plate 7, downward pressure can be applied to the driving rotating plate 7, one end of the driving rotating plate 7 rotates downward, the spring 8 is compressed, when the cam 6 continues to rotate, the driving rotating plate 7 gradually loses the downward pressure, the original position can be recovered under the action of the spring 8, the connecting component 19 can be the matching of the first connecting plate 9, the connecting rod 10 and the second connecting plate 11, the first connecting plate 9 and one end of the driving rotating plate 7 far away from the spring 8 are fixedly connected, the connecting rod 10 is fixed on the first connecting plate 9, one end of a second connecting plate 11 is fixedly connected with a connecting rod 10, the other end of the second connecting plate 11 is rotatably installed on another supporting frame, when the driving rotating plate 7 is pressed down by one end under the action of a cam 6, the other end can swing upwards, the first connecting plate 9 also swings upwards along with the driving rotating plate, the second connecting plate 11 is driven to swing upwards under the transmission of the connecting rod 10, an ejection assembly 21 is connected with the second connecting plate 11, the ejection assembly 21 is driven to swing upwards through the second connecting plate 11, and the ejection assembly 21 penetrates through a through groove in the workbench 3 to apply upward thrust to the packing box 4 so as to drive the packing box 4 to eject upwards; in addition, the reciprocating swing component 18 can also be a crank connecting rod structure to drive the driving rotating plate 7 to swing in a reciprocating mode, and the connecting component 19 can also be matched with a rotating wheel and a transmission belt to transmit the reciprocating swing power of the driving rotating plate 7.

As shown in fig. 3, as a preferred embodiment of the present invention, the ejection assembly 21 includes:

the swinging lifting assembly 20 is connected with the connecting assembly 19 and swings through the reciprocating swinging of the reciprocating swinging assembly 18;

fixing base 17 installs on base 2, movable mounting has expansion plate 16 in the fixing base 17, swing lifting unit 20 links to each other with expansion plate 16, expansion plate 16 carries out the lift action through swing lifting unit 20's swing for it is ejecting to drive packing box 4.

The swing lifting assembly 20 can be a driven rotating plate 12, a first movable seat 13, a second movable seat 14 and a lifting plate 15, one end of the driven rotating plate 12 is fixedly connected with one end of a second connecting plate 11 far away from the connecting rod 10, a first movable seat 13 is movably mounted at the other end of the driven rotating plate 12, the second movable seat 14 is fixedly connected with the first movable seat 13, a lifting plate 15 is movably mounted on the second movable seat 14, one end of the lifting plate 15 is rotatably mounted on another supporting frame, the other end of the lifting plate 15 is slidably hinged on a telescopic plate 16, when the second connecting plate 11 is driven to swing, the driven rotating plate 12 swings along with the second movable seat, so as to drive the first movable seat 13 to ascend, the first movable seat 13 drives the second movable seat 14 to ascend, so as to drive the lifting plate 15 to ascend, because one end of the lifting plate 15 is limited on the supporting frame, the other end of the lifting plate 15 can swing upwards, further, the expansion plate 16 is pulled up, the expansion plate 16 is driven to slide out of the fixed seat 17, and the expansion plate 16 is driven to penetrate through the through groove to apply jacking force to the packing box 4; in addition, the swing lifting assembly 20 can also be an electric push rod installed between the passive rotating plate 12 and the lifting plate 15, the lifting plate 15 is driven to move upwards through the extension and contraction of the electric push rod, the ejection assembly 21 can also be replaced through the matching of a screw rod and a sliding sleeve, the sliding sleeve is driven to move upwards through the rotation of the screw rod, and then the packaging box 4 is driven to eject upwards.

As shown in fig. 1, as a preferred embodiment of the present invention, the linked telescopic discharging mechanism 47 includes:

a second transmission assembly 44 connected to the output end of the driving device 5 for transmitting the rotating force of the driving device 5 and changing the rotating force direction of the driving device 5;

and the telescopic discharging assembly 46 is installed on the discharging connecting pipe 39, is connected with the second transmission assembly 44, rotates by the rotating force transmitted by the second transmission assembly 44, and changes the rotation into linear motion to drive the discharging connecting pipe 39 to stretch.

The second transmission assembly 44 can be a combination of a third bevel gear 35, a fourth bevel gear 36 and a transmission belt 37, the third bevel gear 35 is fixed on an output shaft of the driving device 5, the fourth bevel gear 36 is continuously engaged with the third bevel gear 35, a rotating wheel is fixedly installed on the fourth bevel gear 36, the transmission belt 37 is sleeved between the rotating wheel and the telescopic discharging assembly 46, the second transmission assembly 44 is utilized to transmit the rotating force of the driving device 5 to drive the telescopic discharging assembly 46 while the driving device 5 is started to drive the upper top of the packing box 4, the rotating force direction is changed through the third bevel gear 35 and the fourth bevel gear 36, the rotating force is transmitted to the telescopic discharging assembly 46 to drive the telescopic discharging assembly 46 to rotate, the telescopic discharging assembly 46 changes the rotation into linear motion, and the discharging connecting pipe 39 is driven to descend to be close to the packing box 4; additionally, the second drive assembly 44 may also be a worm gear and sprocket chain arrangement.

As shown in fig. 5, as a preferred embodiment of the present invention, the telescopic discharging assembly 46 includes:

a discharge extension tube 43 connected between the discharge tube 38 and the discharge connecting tube 39;

and the telescopic driving component 45 is arranged on the discharge pipe 38, is connected with the discharge connecting pipe 39 and is in transmission connection with the second transmission component 44, is driven to rotate through the rotation of the second transmission component 44, changes the rotation into linear motion, drives the discharge telescopic pipe 43 to stretch and regulate the positions of the discharge connecting pipe 39 and the packing box 4.

The telescopic driving component 45 can be an incomplete gear 40, the movable frame 41 is matched with a rack 42, the incomplete gear 40 is installed on the discharge pipe 38, the incomplete gear 40 is sleeved in the transmission belt 37 and is driven to rotate through the second transmission component 44, the movable frame 41 is installed on the outer side of the incomplete gear 40, one end of the movable frame 41 is slidably installed in the discharge pipe 38, the bottom of the movable frame 41 is fixedly connected with the discharge connecting pipe 39, the racks 42 continuously meshed with the incomplete gear 40 are arranged on the left inner wall and the right inner wall of the movable frame 41, when the incomplete gear 40 is driven to rotate, the incomplete gear 40 is continuously meshed with the racks 42, the movable frame 41 can be driven to carry out a lifting process, in the lifting process of the movable frame 41, the discharge telescopic pipe 43 is telescopic, the position of the discharge connecting pipe 39 is driven to be adjusted, and blanking and packaging is facilitated; in addition, the telescopic driving assembly 45 can also be matched with a screw rod and a moving block, the screw rod is driven to rotate through the second transmission assembly 44, and then the moving block is driven to perform linear motion, so that the discharging connecting pipe 39 can be driven to adjust the position and is close to the packing box 4 during packing, and the copper powder catalyst dust is prevented from floating in the air.

The working principle is as follows: the copper powder catalyst packaging device is characterized in that a through groove is formed in a workbench 3, a packaging box 4 is clamped in the through groove, a driving device 5 is started, the driving device 5 can be a servo motor or a pneumatic motor, a first transmission component 31 can be matched with a first bevel gear 23 and a second bevel gear 24, the second bevel gear 24 is driven to rotate through the driving device 5, a rotating component 32 can be matched with an active turntable 25, a rotating plate 26, a sliding block 27, a passive turntable 28 and a sliding groove 29, when the second bevel gear 24 rotates to drive the rotating plate 26 to rotate, when the rotating plate 26 rotates to enable the sliding block 27 to correspond to the sliding groove 29, the sliding block 27 slides into the sliding groove 29, under the rotating force of the active turntable 25, the passive turntable 28 is driven to rotate through the matching of the sliding block 27 and the sliding groove 29, the passive turntable 28 rotates by a quarter of a circle, and the workbench 3 is driven to intermittently rotate through the intermittent rotation of the passive turntable 28, so that the packing boxes 4 can be rotated to correspond to the discharging connecting pipes 39 in sequence to complete the blanking and packing process; in addition, the first transmission assembly 31 can also be a worm and gear fit, and the rotating assembly 32 can also be a ratchet structure;

the reciprocating swing component 18 can be the matching of the cam 6, the driving rotating plate 7 and the spring 8, the driving device 5 is started to drive the cam 6 to rotate, when the protruding part of the cam 6 rotates to correspond to the driving rotating plate 7, downward pressure is applied to the driving rotating plate 7, one end of the driving rotating plate 7 rotates downward, the spring 8 is compressed, the connecting component 19 can be the matching of the first connecting plate 9, the connecting rod 10 and the second connecting plate 11, when one end of the driving rotating plate 7 is pressed downward under the action of the cam 6, the other end can swing upward, the first connecting plate 9 also swings upward to drive the second connecting plate 11 to swing upward, the second connecting plate 11 drives the ejection component 21 to swing upward, and the ejection component 21 passes through the through groove on the workbench 3 to apply upward thrust to the packing box 4 so as to drive the packing box 4 to eject upward; in addition, the reciprocating swing assembly 18 can also be a crank connecting rod structure;

the swing lifting assembly 20 can be a combination of the driven rotating plate 12, the first movable seat 13, the second movable seat 14 and the lifting plate 15, when the second connecting plate 11 is driven to swing, the driven rotating plate 12 swings along with the second connecting plate, so that the first movable seat 13 is driven to ascend, the first movable seat 13 drives the second movable seat 14 to ascend, so that the lifting plate 15 is driven to ascend, the telescopic plate 16 is pulled upwards, the telescopic plate 16 is driven to slide out of the fixed seat 17, and the lifting plate passes through the through groove to apply jacking force to the packing box 4; in addition, the swing lifting assembly 20 can also be an electric push rod, and the ejection assembly 21 can also be matched with a sliding sleeve through a screw rod;

the second transmission assembly 44 can be the matching of the third bevel gear 35, the fourth bevel gear 36 and the transmission belt 37, when the driving device 5 is started to drive the top of the packing box 4, the second transmission assembly 44 is used for transmitting the rotating force of the driving device 5 to drive the telescopic discharging assembly 46, the telescopic driving assembly 45 can be the matching of the incomplete gear 40, the moving frame 41 and the rack 42, when the incomplete gear 40 is driven to rotate, the incomplete gear 40 is continuously meshed with the rack 42 to drive the moving frame 41 to carry out the lifting process, in the lifting process of the moving frame 41, the telescopic discharging pipe 43 stretches out and draws back, the position of the discharging connecting pipe 39 is driven to be adjusted, and the blanking and the packing are convenient; in addition, the telescopic driving assembly 45 can also be matched with a screw rod and a moving block.

The above description is only for the purpose of illustrating the preferred embodiments of the present invention and is not to be construed as limiting the invention, and any modifications, equivalents and improvements made within the spirit and principle of the present invention are intended to be included within the scope of the present invention.

Claims

1. A copper powder catalyst packaging apparatus, said packaging apparatus comprising:

the workbench is provided with a packing box, and the packing box corresponds to the discharge connecting pipe and is used for blanking and packing; it is characterized by also comprising:

2. The copper powder catalyst packaging apparatus of claim 1, wherein said packaging cycle ejection mechanism comprises:

the intermittent rotating assembly is arranged on the base and connected with an output shaft of the driving device, the workbench is connected with the intermittent rotating assembly, and the intermittent rotating assembly is used for driving the workbench to rotate intermittently and driving the packing boxes on the workbench to correspond to the discharging connecting pipe in sequence;

and the reciprocating ejection assembly is arranged on the base, is connected with an output shaft of the driving device and is used for reciprocating ejection to sequentially drive the packaging boxes corresponding to the discharge connecting pipe to be ejected.

3. The copper powder catalyst packaging apparatus of claim 2, wherein said intermittent rotation assembly comprises:

the workbench is connected with the rotating rod, and the rotating rod is rotatably arranged on the base;

the first transmission assembly is connected with an output shaft of the driving device and used for changing the rotating direction of the driving device and transmitting rotating force;

the rotating assembly is connected with the first transmission assembly, the rotating force transmitted by the first transmission assembly rotates, and the rotating rod is fixedly connected with the rotating assembly and used for driving the rotating rod to rotate intermittently.

4. The copper powder catalyst packaging apparatus of claim 2, wherein said reciprocating ejection assembly comprises:

the reciprocating swing assembly is connected with an output shaft of the driving device and converts the rotating force of the driving device into reciprocating swing;

the connecting assembly is connected with the reciprocating swing assembly and is used for transmitting the swing of the reciprocating swing assembly;

and the ejection assembly is connected with the connecting assembly, corresponds to the workbench, and performs reciprocating lifting action through the reciprocating swing of the reciprocating swing assembly so as to drive the packaging box to be ejected upwards.

5. The copper powder catalyst packaging apparatus of claim 4, wherein said ejector assembly comprises:

the swinging lifting assembly is connected with the connecting assembly and swings through the reciprocating swinging of the reciprocating swinging assembly;

the fixing base is installed on the base, movable mounting has the expansion plate in the fixing base, swing lifting unit links to each other with the expansion plate, the expansion plate carries out the action of going up and down through swing lifting unit's swing for it is ejecting to drive the packing box.

6. The copper powder catalyst packaging apparatus of claim 1, wherein the linked telescoping discharge mechanism comprises:

the second transmission assembly is connected with the output end of the driving device and is used for transmitting the rotating force of the driving device and changing the rotating force direction of the driving device;

the telescopic discharging assembly is installed on the discharging connecting pipe, is connected with the second transmission assembly, rotates through the rotating force transmitted by the second transmission assembly, and changes the rotation into linear motion to drive the discharging connecting pipe to stretch.

7. The copper powder catalyst packaging apparatus of claim 6, wherein the telescoping take-off assembly comprises:

the discharging telescopic pipe is connected between the discharging pipe and the discharging connecting pipe;

the telescopic driving assembly is installed on the discharging pipe, connected with the discharging connecting pipe and connected with the second transmission assembly in a transmission mode, is driven to rotate through the rotation of the second transmission assembly, and rotates to become linear motion, so that the discharging telescopic pipe is driven to stretch out and draw back, and the position of the discharging connecting pipe and the position of the packaging box are adjusted.