CN214108130U - Cleaning mechanism of three-axis automatic material suction system - Google Patents

Cleaning mechanism of three-axis automatic material suction system Download PDF

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Publication number
CN214108130U
CN214108130U CN202023343975.4U CN202023343975U CN214108130U CN 214108130 U CN214108130 U CN 214108130U CN 202023343975 U CN202023343975 U CN 202023343975U CN 214108130 U CN214108130 U CN 214108130U
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axis
suction
negative pressure
suction nozzle
cleaning
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CN202023343975.4U
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Chinese (zh)
Inventor
陈明真
刘铮
朱明�
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Hunan Huatong Powder Equipment Technology Co ltd
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Hunan Huatong Powder Equipment Technology Co ltd
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Abstract

The utility model relates to an automatic clean mechanism of inhaling material system of triaxial, it is including setting up in suction nozzle one and the negative pressure drainage piece of Y axle mechanism both sides, suction nozzle one is in X axle mechanism top, be connected with drainage tube one between negative pressure drainage piece and the suction nozzle one, drainage tube one is made for soft material. This application has the risk that reduces to damage the powder circulation and reach next production processes, helps guaranteeing the effect of finished product quality.

Description

Cleaning mechanism of three-axis automatic material suction system
Technical Field
The application relates to the field of powder conveying, in particular to a cleaning mechanism of a three-axis automatic suction system.
Background
Currently, granular or dust materials are generally conveyed by a vacuum feeding machine, and before powder enters the vacuum feeding machine, the powder in a bin needs to be connected with the vacuum feeding machine through a pipeline.
Generally, a three-axis displacement mechanism is utilized to drive the pipeline to displace along an X axis, a Y axis and a Z axis relative to the material box, so that the pipeline can change along with different material levels in the material box to make different position changes, the pipeline can continuously keep the contact area similar to that of the material, and the stable conveying of the material is ensured.
In view of the above-mentioned related technologies, the inventor thinks that the dust is conveyed by using a vacuum feeder which mainly depends on wind airflow, so when the pipeline displaces in the material box and sucks the material, the phenomenon that the dust in the material box generates dust raising under the action of the airflow cannot be avoided, and the raised dust falls on the surface of the displacement mechanism, and along with the displacement of the X axis, the Y axis and the Z axis, the dust which generates friction with the dust on the surface of the displacement mechanism and causes damage to the surface material, and the dust with the damaged surface of the mechanism may fall into the material box again under the action of the wind force, enter into the subsequent production and processing, and affect the quality of the subsequent produced products.
Disclosure of Invention
In order to improve impaired powder and get into next production processes, influence the defect of finished product quality, this application provides a clean mechanism of automatic material system of inhaling of triaxial.
The application provides a clean mechanism of automatic material system of inhaling of triaxial adopts following technical scheme:
the utility model provides a clean mechanism of automatic material system of inhaling of triaxial, is including setting up in suction nozzle one and the negative pressure drainage piece of Y axle mechanism both sides, suction nozzle one is in X axle mechanism top, be connected with drainage tube one between negative pressure drainage piece and the suction nozzle one, drainage tube one is made for soft material.
By adopting the technical scheme, in the material suction process of the material suction system, the Y-axis mechanism does X-axis displacement work, the X-axis mechanism is started by using the negative pressure drainage piece, and the suction force is generated on the upper end of the X-axis mechanism through the drainage tube and the suction nozzle, so that powder falling on the X-axis mechanism can be discharged in time, the powder is prevented from being damaged by friction with the powder in the displacement process of the Y-axis mechanism, the risk of damaging the powder to be transferred to the next production process can be reduced, and the effect of ensuring the quality of finished products is facilitated;
in the process, the Y-axis mechanism needs to move along with the X-axis, so that the first drainage tube is made of soft materials and can move along with the Y-axis mechanism without influencing the dust collection operation.
Optionally, two suction nozzles are respectively arranged on two sides of the Y axis of the first suction nozzle, and the two suction nozzles on the same side are positioned on two sides of the Y axis mechanism along the X axis.
By adopting the technical scheme, the first suction nozzle is positioned on two sides of the Y-axis mechanism along the X axis, so that when the Y-axis mechanism moves in two linear reciprocating directions along the X axis, the first suction nozzle can remove powder in front of the movement direction of the Y-axis mechanism, and the damage to the powder caused by the operation friction of the Y-axis mechanism is further reduced.
Optionally, a supporting tube is further connected between the first drainage tube and the negative pressure drainage piece, the supporting tube is connected to the frame, and one section of the supporting tube is located on the side of the X-axis mechanism; one end of the drainage tube I is communicated with the middle of the support tube at one section of the X-axis side.
By adopting the technical scheme, the supporting tube is connected with the rack, the distance between the negative pressure drainage piece and the suction nozzle I can be compensated, the length of the drainage tube I can be shortened, one section of the supporting tube is further utilized to be positioned at the side of the X-axis mechanism, one end of the drainage tube I is communicated with the middle part of the supporting tube, the length of the drainage tube I only needs to meet the moving distance of one half of the X-axis, the length of the drainage tube I is further shortened, the phenomenon that the drainage tube I is bent and blocked due to too long movement can be reduced, and the stable dust collection work of the drainage tube I can be guaranteed.
Optionally, an opening of the suction nozzle faces downward vertically, and the opening end is flat and wider than the width of the belt conveying member.
Through adopting above-mentioned technical scheme, the opening of platykurtic helps concentrating suction more, and opening width is greater than belt conveying spare simultaneously, can be to the more comprehensive absorption of powder on X axle mechanism surface.
Optionally, each group of suction nozzles is correspondingly connected with a mounting plate, and the mounting plate is connected with the Y-axis mechanism through a bolt.
Through adopting above-mentioned technical scheme, realize the relative Y axle detachable connection of mechanism of suction nozzle, conveniently change or overhaul suction nozzle one.
Optionally, the material collecting plate is connected below the Y-axis mechanism, the material collecting plate is arranged in parallel with the Y-axis mechanism, one end of the material collecting plate extends to the position below the Z-axis mechanism, and a baffle is vertically connected to one end, far away from the Y-axis mechanism, of the material collecting plate.
Through adopting above-mentioned technical scheme, because Z axle mechanism is vertical setting, the powder raise dust can drop under the action of gravity when gluing in Z axle mechanism, so utilize the album flitch that sets up in Y axle mechanism below, can keep in the powder that Z axle mechanism dropped, follow-up recovery processing that carries on, further reduce the probability that impaired powder flows into next production processes.
Optionally, the device further comprises two second suction nozzles positioned on the Z-axis mechanism, wherein openings of the two second suction nozzles are positioned on the Y-axis mechanism and are respectively connected to two sides of the Z-axis mechanism along the Y axis; and a second drainage tube is communicated between the second suction nozzle and the negative pressure drainage piece.
Through adopting above-mentioned technical scheme, Z axle mechanism is along the reciprocal displacement in-process of Y axle straight line, and suction nozzle two homoenergetic can be got rid of the damage powder that is located Z axle motion the place ahead, further reduces because Z axle mechanism running friction produces.
Optionally, the negative pressure drainage piece adopts a negative pressure suction pump.
In summary, the present application includes at least one of the following beneficial technical effects:
1. the negative pressure drainage piece absorbs and removes powder on the surfaces of the X-axis mechanism and the Y-axis mechanism through the first suction nozzle, the two pairs of suction nozzles and the Y-axis mechanism, so that the Y-axis mechanism/the Z-axis mechanism are not contacted with the powder in the running process, the damaged powder is prevented from flowing into the next production process, and the effect of ensuring the quality of the produced product is facilitated;
2. one section of the supporting tube is arranged on the side of the X-axis mechanism, one end of the first drainage tube is communicated with the middle of the supporting tube, the length of the first drainage tube can be shortened, the bending probability of the first drainage tube in the displacement process can be reduced, and the stable dust collection work of the cleaning mechanism can be guaranteed.
Drawings
Fig. 1 is an overall structural diagram of the related art.
Fig. 2 is a schematic overall structure diagram of an embodiment of the present application.
Fig. 3 is a partial structural view from another perspective in fig. 2.
Fig. 4 is a schematic structural diagram of the material collecting plate and the Y-axis mechanism in fig. 2.
Description of reference numerals: 1. a frame; 2. an X-axis mechanism; 3. a Y-axis mechanism; 4. a Z-axis mechanism; 5. a first suction nozzle; 6. a first drainage tube; 7. a negative pressure suction pump; 8. supporting a tube; 9. mounting a plate; 10. a second suction nozzle; 11. a second drainage tube; 12. a dust collection pipe; 13. a main pipe; 14. a material collecting plate; 15. a baffle plate; 16. a mounting seat; 17. a suction pipeline; 18. and (7) positioning the plate.
Detailed Description
The present application is described in further detail below with reference to figures 1-3.
A three-axis automatic material suction system refers to fig. 1 and comprises a rack 1, wherein two sides of the rack 1 are respectively provided with a belt conveying piece parallel to an X axis, and a Y-axis mechanism 3 is connected between the belt conveying pieces at the two sides to realize the linear reciprocating displacement of the Y-axis mechanism 3 along the X axis; the Y-axis mechanism 3 is vertically connected with a Z-axis mechanism 4, and a lead screw conveying piece is arranged in the Y-axis mechanism 3 to realize the linear reciprocating displacement of the Z-axis mechanism 4 along the Y axis; the Z-axis mechanism 4 is provided with a mounting seat 16, the material suction pipeline 17 is limited on the mounting seat 16, and a screw rod transmission piece connected with the mounting seat 16 is arranged in the Z-axis mechanism 4, so that the Z-axis linear displacement work of the mounting seat 16 and the material suction pipeline 17 is realized.
The embodiment of the application discloses a cleaning mechanism of a three-axis automatic material suction system, which comprises a negative pressure drainage piece arranged on one side of a rack 1, wherein the negative pressure drainage piece is connected with two supporting tubes 8, one sections of the two supporting tubes 8 are respectively connected to two sides of the rack 1, are respectively positioned below an X-axis mechanism 2 and are parallel to the X-axis mechanism 2; the middle part of one section of the support tube 8 parallel to the X-axis mechanism 2 is communicated with two drainage tubes I6, and the other ends of the two drainage tubes I6 are connected with a suction nozzle I5; two sides of the Y-axis mechanism 3 along the length direction are respectively connected with two mounting plates 9 through bolts, the two mounting plates 9 on the same side are respectively positioned on two sides of the Y-axis mechanism 3 along the X axis, each suction nozzle one 5 is correspondingly fixed on the mounting plates 9, and the opening of the suction nozzle one 5 is positioned above the X-axis mechanism 2. Wherein, the negative pressure drainage piece adopts a negative pressure suction pump 7. When the Y-axis mechanism 3 moves along the X axis, the negative pressure suction pump 7 works to provide suction to the supporting tube 8 and the drainage tube I6, and powder above the X-axis mechanism 2 is driven to be sucked through the suction nozzle I5.
Two groups of suction nozzles two 10 are arranged on one side of the Z-axis mechanism 4 facing the Y-axis mechanism 3, the two groups of suction nozzles two 10 are positioned on two sides of the Z-axis mechanism 4 along the Y axis, two groups of positioning plates 18 are connected to the Z-axis mechanism 4 through bolts, the two groups of suction nozzles two 10 are correspondingly connected with the positioning plates 18, and openings of the two groups of suction nozzles two 10 are positioned above the Y-axis mechanism 3. A main pipe 13 is connected to the suction port of the negative pressure suction pump 7, and one ends of the two support pipes 8 are connected to the main pipe 13; the main pipe 13 is also communicated with a dust suction pipe 12, one section of the dust suction pipe 12 is arranged in parallel with the Y-axis mechanism 3, the middle part of the dust suction pipe 12 in the Y-axis mechanism 3 is communicated with two drainage pipes 11, and the other ends of the drainage pipes 11 are correspondingly communicated with the suction nozzles 10. When the Z-axis mechanism 4 moves along the Y-axis direction, the negative pressure suction pump 7 gives suction to the second suction nozzle 10 to absorb and remove powder above the Y-axis mechanism 3.
In this embodiment, the first drainage tube 6 and the second drainage tube 11 are made of PVC, so that the first drainage tube 6 and the second drainage tube 11 can work along with the displacement of the Y-axis mechanism 3/Z-axis mechanism 4.
The opening of the first suction nozzle 5/the second suction nozzle 10 faces downwards vertically, and the opening ends are both arranged in a flat shape; wherein, the opening width of the first suction nozzle 5 is not less than the width of the X-axis mechanism 2; the opening width of the second suction nozzle 10 is not less than the width of the Y-axis mechanism 3.
Referring to fig. 2 and 4, a material collecting plate 14 is further fixed on one side of the Y-axis mechanism 3 facing the Z-axis mechanism 4, the material collecting plate 14 is arranged in parallel along the length direction of the Y-axis mechanism 3, and the lower section of the material collecting plate is bent to form a vertical section extending to the lower side of the Z-axis, the width of the vertical section is greater than the thickness of the Z-axis mechanism 4, a baffle 15 is vertically fixed at one end of the vertical section far away from the Y-axis mechanism 3, and the upper end of the baffle 15 is higher than the lower end of the Z-axis mechanism 4; the powder on the Z-axis mechanism 4 can directly fall onto the vertical section of the material collecting plate 14.
The implementation principle of the cleaning mechanism of the three-axis automatic material suction system in the embodiment of the application is as follows: when the material suction system works to perform X, Y, Z-axis displacement motion, the negative pressure suction pump 7 works to give negative pressure suction to the first suction nozzle 5 and the second suction nozzle 10, and the first suction nozzle 5/the second suction nozzle 10 absorb and remove powder at the upper ends of the X-axis mechanism 2 and the Y-axis mechanism 3 along with the motion of the Y-axis mechanism 3 and the Z-axis mechanism 4, so as to finish the surface cleaning work of the X-axis mechanism 2 and the Y-axis mechanism 3; meanwhile, powder on the Z-axis mechanism 4 falls on the material collecting plate 14 under the automatic action, and the material collecting plate 14 can be cleaned manually subsequently, so that the cleaning work of the material suction system is completed.
The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims (8)

1. The utility model provides a clean mechanism of automatic material system of inhaling of triaxial which characterized in that: the X-axis drainage device is characterized by comprising a first suction nozzle (5) and a negative pressure drainage piece, wherein the first suction nozzle (5) and the negative pressure drainage piece are arranged on two sides of the Y-axis mechanism (3), the first suction nozzle (5) is located above the X-axis mechanism (2), a first drainage tube (6) is connected between the negative pressure drainage piece and the first suction nozzle (5), and the first drainage tube (6) is made of soft materials.
2. The cleaning mechanism of the three-axis automatic material suction system according to claim 1, wherein: two suction nozzles (5) are arranged on two sides of the Y axis respectively, and the two suction nozzles (5) on the same side are located on two sides of the Y axis mechanism (3) along the X axis.
3. The cleaning mechanism of the three-axis automatic suction system according to claim 1 or 2, characterized in that: a supporting tube (8) is further connected between the first drainage tube (6) and the negative pressure drainage piece, the supporting tube (8) is connected to the rack (1), and one section of the supporting tube is located on the side of the X-axis mechanism (2); one end of the drainage tube I (6) is communicated with the middle of the section of the support tube (8) in the X-axis side direction.
4. The cleaning mechanism of the three-axis automatic suction system according to claim 1 or 2, characterized in that: the opening of the first suction nozzle (5) faces downwards vertically, and the opening end is flat and wider than the width of the belt conveying piece.
5. The cleaning mechanism of the three-axis automatic material suction system according to claim 1, wherein: every group suction nozzle (5) are correspondingly connected with a mounting plate (9), and the mounting plate (9) is connected with the Y-axis mechanism (3) through a bolt.
6. The cleaning mechanism of the three-axis automatic material suction system according to claim 1, wherein: the Y-axis mechanism is characterized by further comprising a material collecting plate (14) connected below the Y-axis mechanism (3), wherein the material collecting plate (14) is arranged in parallel with the Y-axis mechanism (3), one end of the material collecting plate extends to the position below the Z-axis mechanism (4), and one end, far away from the Y-axis mechanism (3), of the material collecting plate (14) is vertically connected with a baffle (15).
7. The cleaning mechanism of the three-axis automatic material suction system according to claim 1, wherein: the two second suction nozzles (10) are positioned on the Z-axis mechanism (4), and openings of the two second suction nozzles (10) are positioned on the Y-axis mechanism (3) and are respectively connected to two sides of the Z-axis mechanism (4) along the Y axis; a second drainage tube (11) is communicated between the second suction nozzle (10) and the negative pressure drainage piece.
8. The cleaning mechanism of the three-axis automatic material suction system according to claim 3, wherein: the negative pressure drainage piece adopts a negative pressure suction pump (7).
CN202023343975.4U 2020-12-31 2020-12-31 Cleaning mechanism of three-axis automatic material suction system Active CN214108130U (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CN202023343975.4U CN214108130U (en) 2020-12-31 2020-12-31 Cleaning mechanism of three-axis automatic material suction system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CN202023343975.4U CN214108130U (en) 2020-12-31 2020-12-31 Cleaning mechanism of three-axis automatic material suction system

Publications (1)

Publication Number Publication Date
CN214108130U true CN214108130U (en) 2021-09-03

Family

ID=77493148

Family Applications (1)

Application Number Title Priority Date Filing Date
CN202023343975.4U Active CN214108130U (en) 2020-12-31 2020-12-31 Cleaning mechanism of three-axis automatic material suction system

Country Status (1)

Country Link
CN (1) CN214108130U (en)

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