CN209905799U

CN209905799U - Moxa stick unloader

Info

Publication number: CN209905799U
Application number: CN201920429685.XU
Authority: CN
Inventors: 徐景远; 马涛; 袁朵; 魏文博; 梁炎飞; 蒋宗冰; 姚硕
Original assignee: Nanyang Punova Automation Equipment Co Ltd
Current assignee: Nanyang Punova Automation Equipment Co Ltd
Priority date: 2019-04-01
Filing date: 2019-04-01
Publication date: 2020-01-07
Anticipated expiration: 2029-04-01

Abstract

The utility model discloses a moxa roll blanking device, which comprises a frame, wherein a transmission mechanism for moving a bracket is arranged along the upper part of the frame, a supporting plate is fixed on the surface of the bracket, and a plurality of moxa roll grooves matched with the outline of moxa rolls are arranged on the surface of the supporting plate; a blanking cavity is arranged above the supporting plate, and a pneumatic vibration mechanism for lowering moxa sticks is arranged at the upper part of the blanking cavity; a moxa stick discharging channel is arranged below the pneumatic vibration mechanism, a chute is correspondingly arranged at the outlet of the moxa stick discharging channel, and the outlet of the chute corresponds to the moxa stick groove at one end, close to the surface of the supporting plate. Compared with the prior art, the utility model discloses convenient to use can realize quick unloading to the moxa stick, has realized the automation, and is efficient, has saved the manual work, has reduced workman's the amount of labour.

Description

Moxa stick unloader

Technical Field

The utility model relates to a moxa stick processing technology field, concretely relates to moxa stick unloader.

Background

Moxibustion is popular with consumers at present, and as a traditional Chinese medicine heritage, the popularity of the moxa industry in the market is increased year by year. The small section moxa stick used in the moxibustion process is formed by cutting the manufactured long moxa stick in a segmented mode, when the long moxa stick is manufactured, the whole body is wrapped by paper, and the cut small section moxa stick faces the market again. When long moxa stick was fed on cutting equipment, generally will pass through the sequencing, make it level and smooth fall on the layer board, later push to cutting mechanism and cut, but in the actual work, the unloading is unstable often appears easily, can not unloading in order, appears blocking up easily, leads to the unloading smoothly, falls on the layer board after, and the shape of moxa stick self leads to can not steadily put on the layer board, causes the unstability when follow-up cutting.

SUMMERY OF THE UTILITY MODEL

In order to solve the defects, the utility model aims at providing a moxa stick unloader not only can realize quick unloading, and the layer board of placing the moxa stick after the unloading can effectively keep the moxa stick in a steady state, the subsequent cutting of being convenient for moreover.

In order to achieve the above purpose, the utility model adopts the technical scheme that: the utility model provides a moxa stick unloader, includes a frame, its characterized in that: a transmission mechanism for moving the bracket is arranged along the upper part of the frame, the surface of the bracket is fixed with a support plate, and the surface of the support plate is provided with a plurality of moxa stick grooves matched with the outline of the moxa stick; a blanking cavity is arranged above the supporting plate, and a pneumatic vibration mechanism for lowering moxa sticks is arranged at the upper part of the blanking cavity; the moxa stick feeding device is characterized in that a moxa stick feeding channel is arranged below the pneumatic vibrating mechanism, a chute is correspondingly arranged at the outlet of the moxa stick feeding channel, the chute outlet corresponds to the moxa stick groove close to one end on the surface of the supporting plate, a pneumatic jacking mechanism is further arranged on one side of the outlet of the moxa stick feeding channel, a pneumatic sealing plate mechanism is further arranged at the outlet of the chute, and after the moxa stick groove on the supporting plate is full of moxa sticks, the moxa sticks are not fed any more through the pneumatic sealing plate mechanism.

Further, drive mechanism is including locating the driving belt on frame upper portion, driving belt is in frame one end is connected with step motor, is connected with the bearing roller at the other end, just driving belt is last to be fixed with the sliding block, the bracket is fixed in on the sliding block.

The pneumatic vibration mechanism comprises a vibration seat, the vibration seat is of a splayed structure consisting of two vibration plates, a rotating shaft is fixed at the center of each vibration plate, one end of the rotating shaft is hinged to the side wall of the blanking cavity, the other end of the rotating shaft stretches out of the outer wall of the blanking cavity and is connected with a vibration arm, the vibration arm is connected with the telescopic end of the first air cylinder, and the rotating shaft is driven to rotate through the telescopic end of the first air cylinder, so that the vibration seat realizes vibration.

Moxa stick unloading passageway is that the V font slope forms through two flitchs that connect, and one of them connects the flitch bottom to be equipped with the backup pad, the backup pad is close to moxa stick unloading passageway exit and is fixed with the second cylinder, the flexible end of second cylinder is equipped with the kicking block, and the kicking block forms pneumatic jack-up mechanism through being connected of second cylinder and kicking block towards moxa stick unloading direction jack-up under the effect of second cylinder.

The chute is formed by two chutes at a certain distance.

Pneumatic shrouding mechanism is including being fixed in the third cylinder of layer board top, the fixed shrouding of third cylinder flexible end, after moxa stick groove on the layer board is covered with the moxa stick, the third cylinder stretches out and drives shrouding shutoff chute export.

When the utility model is used, a large amount of moxa sticks are placed on the vibration seat, the first air cylinder stretches back and forth to drive the vibration seat to rock up and down, the moxa sticks move down from two sides of the vibration seat and enter the chute through the moxa stick blanking channel, the second air cylinder works at the moment to drive the jacking block to realize intermittent jacking at the chute inlet, so that the moxa sticks are prevented from being blocked in the blanking channel, and finally the moxa sticks are distributed in the chute, and the sealing plate at the moment is in a stretching state, so that the moxa sticks cannot flow out of the chute; the operation of step motor is started, driving belt passes through the layer board removal that the slider drove on the bracket, treat that the first moxa stick groove of layer board front end is when entering the chute export soon, the work of third cylinder, the shrouding withdrawal, the moxa stick gets into first moxa stick groove, move forward along with the layer board lasts, moxa stick in the chute is covered with the moxa stick groove on the whole layer board through the whereabouts gradually, after last moxa stick groove has the moxa stick, the shrouding stretches out, the moxa stick no longer flows from the chute export, the layer board that is covered with the moxa stick continues to move forward, after sending into next process with the moxa stick, the layer board returns to be covered with the moxa stick again.

Compared with the prior art, the utility model discloses convenient to use can realize quick unloading to the moxa stick, satisfies the needs of production, and the layer board that uses in addition can keep the moxa stick to send into the stability when next process, has realized the automation, and is efficient, has saved the manual work, has reduced workman's the amount of labour.

Drawings

The structure and features of the present invention will be further described with reference to the accompanying drawings and examples.

Fig. 1 is a schematic structural diagram of the present invention.

FIG. 2 is a schematic view of the structure I in FIG. 1.

Fig. 3 is a schematic structural diagram of the support plate of the present invention.

In the attached drawings 1, 2 and 3, 1 is a frame, 2 is a stepping motor, 3 is a transmission belt, 4 is a supporting plate, 5 is a first air cylinder, 6 is a vibrating arm, 7 is a rotating shaft, 8 is a moxa stick, 9 is a vibrating plate, 10 is a blanking cavity, 11 is a material receiving plate, 12 is a chute, 13 is a slide carriage, 14 is a supporting plate, 15 is a second air cylinder, 16 is a moxa stick groove, 17 is a third air cylinder, 18 is a sealing plate, and 19 is a bracket.

Detailed Description

Fig. 1, fig. 2 and fig. 3 show an embodiment of the present invention, which discloses a moxa stick feeding device, comprising a frame 1, a transmission mechanism for moving a bracket 19 is arranged along the upper portion of the frame 1, the transmission mechanism comprises a transmission belt 3, one end of the frame 1 of the transmission belt 3 is connected with a stepping motor 2, the other end of the frame is connected with a carrier roller, a sliding block is fixed on the transmission belt 3, and the bracket 19 is fixed on the sliding block;

the surface of the bracket 19 is fixed with a support plate 4, and the surface of the support plate 4 is provided with a plurality of moxa stick grooves 16 matched with the outline of moxa sticks;

a blanking cavity 10 is arranged above the supporting plate 4, and a pneumatic vibration mechanism for lowering moxa sticks is arranged at the upper part of the blanking cavity 10; the pneumatic vibration mechanism comprises a vibration seat, the vibration seat is of a splayed structure consisting of two vibration plates 9, a rotating shaft 7 is fixed at the center of each vibration plate 9, one end of each rotating shaft 7 is hinged to the side wall of the blanking cavity 10, the other end of each rotating shaft extends out of the outer wall of the blanking cavity 10 and is connected with a vibration arm 6, each vibration arm 6 is connected with the telescopic end of the first air cylinder 5, and the rotating shaft 7 is driven to rotate through the telescopic end of the first air cylinder 5, so that the vibration seat can vibrate;

a moxa stick blanking channel is arranged below the pneumatic vibration mechanism, the moxa stick blanking channel is formed by two material receiving plates 11 inclining in a V shape, and a supporting plate 14 is arranged at the bottom of one material receiving plate 11;

a chute 12 is correspondingly arranged at the outlet of the moxa stick feeding channel, the chute 12 is formed by two chutes 13 at a certain distance, the outlet of the chute 12 corresponds to the moxa stick groove 16 at one end of the surface of the supporting plate 4, which is close to the outlet, a pneumatic jacking mechanism is further arranged at one side of the outlet of the moxa stick feeding channel, the pneumatic jacking mechanism comprises a second air cylinder 15, the second air cylinder 15 is fixed at the position, which is close to the outlet of the moxa stick feeding channel, of the supporting plate 14, a jacking block is arranged at the telescopic end of the second air cylinder 15, and the jacking block jacks towards the moxa stick feeding direction under the action of the second air cylinder 15;

the outlet of the chute 12 is also provided with a pneumatic sealing plate mechanism, the pneumatic sealing plate mechanism comprises a third cylinder 17 fixed above the supporting plate 4, a sealing plate 18 is fixed at the telescopic end of the third cylinder 17, and after moxa sticks are fully distributed in the moxa stick grooves 16 on the supporting plate 4, the third cylinder 17 extends out to drive the sealing plate 18 to seal the outlet of the chute 12.

In the attached drawing 1, the unloading chamber that the number is 10, in order to express the unloading process of unloading intracavity portion, figure 1 has only expressed the back plate in unloading chamber, and the unloading chamber still has front bezel and two curb plates in addition, first cylinder 5 and vibrating arm 6 set up the front bezel in unloading chamber, and the vibrating arm is connected with the one end that the front bezel was stretched out to pivot 7, and at first cylinder during operation, drive vibrating arm linkage pivot vibrates the vibration seat.

When the utility model is used, a large amount of moxa sticks are placed on the vibration seat, the first air cylinder stretches back and forth to drive the vibration seat to rock up and down, the moxa sticks move down from two sides of the vibration seat and enter the chute through the moxa stick blanking channel, the second air cylinder works at the moment to drive the jacking block to realize intermittent jacking at the chute inlet, and finally the moxa sticks are fully distributed in the chute, and the sealing plate is in a stretching state at the moment to prevent the moxa sticks from flowing out of the chute; the operation of step motor is started, driving belt passes through the layer board removal that the slider drove on the bracket, treat that the first moxa stick groove of layer board front end is when entering the chute export soon, the work of third cylinder, the shrouding withdrawal, the moxa stick gets into first moxa stick groove, move forward along with the layer board lasts, moxa stick in the chute is covered with the moxa stick groove on the whole layer board through the whereabouts gradually, after last moxa stick groove has the moxa stick, the shrouding stretches out, the moxa stick no longer flows from the chute export, the layer board that is covered with the moxa stick continues to move forward, after sending into next process with the moxa stick, the layer board returns to be covered with the moxa stick again.

The aforesaid is only a plurality of concrete implementation manners of the utility model, nevertheless the utility model discloses a design concept is not limited to this, and the ordinary use of this design is right the utility model discloses carry out immaterial change, all should belong to the act of infringement the protection scope of the utility model.

Claims

1. The utility model provides a moxa stick unloader, includes a frame, its characterized in that: a transmission mechanism for moving the bracket is arranged along the upper part of the frame, the surface of the bracket is fixed with a support plate, and the surface of the support plate is provided with a plurality of moxa stick grooves matched with the outline of the moxa stick; a blanking cavity is arranged above the supporting plate, and a pneumatic vibration mechanism for lowering moxa sticks is arranged at the upper part of the blanking cavity; the moxa stick feeding device is characterized in that a moxa stick feeding channel is arranged below the pneumatic vibrating mechanism, a chute is correspondingly arranged at the outlet of the moxa stick feeding channel, the chute outlet corresponds to the moxa stick groove close to one end on the surface of the supporting plate, a pneumatic jacking mechanism is further arranged on one side of the outlet of the moxa stick feeding channel, a pneumatic sealing plate mechanism is further arranged at the outlet of the chute, and after the moxa stick groove on the supporting plate is full of moxa sticks, the moxa sticks are not fed any more through the pneumatic sealing plate mechanism.

2. The moxa stick feeding device according to claim 1, wherein: drive mechanism includes a driving belt, driving belt is in frame one end is connected with step motor, is connected with the bearing roller at the other end, just driving belt is last to be fixed with the sliding block, the bracket is fixed in on the sliding block.

3. The moxa stick feeding device according to claim 1, wherein: the pneumatic vibration mechanism comprises a vibration seat, the vibration seat is of a splayed structure consisting of two vibration plates, a rotating shaft is fixed at the center of each vibration plate, one end of the rotating shaft is hinged to the side wall of the blanking cavity, the other end of the rotating shaft stretches out of the outer wall of the blanking cavity and is connected with a vibration arm, the vibration arm is connected with the telescopic end of the first air cylinder, and the rotating shaft is driven to rotate through the telescopic end of the first air cylinder, so that the vibration seat realizes vibration.

4. The moxa stick feeding device according to claim 1, wherein: moxa stick unloading passageway is that the V font slope forms through two flitchs that connect, and one of them connects the flitch bottom to be equipped with the backup pad, the backup pad is close to moxa stick unloading passageway exit and is fixed with the second cylinder, the flexible end of second cylinder is equipped with the kicking block, and the kicking block forms pneumatic jack-up mechanism through being connected of second cylinder and kicking block towards moxa stick unloading direction jack-up under the effect of second cylinder.

5. The moxa stick feeding device according to claim 1, wherein: the chute is formed by two chutes at a certain distance.

6. The moxa stick feeding device according to claim 1, wherein: pneumatic shrouding mechanism is including being fixed in the third cylinder of layer board top, the fixed shrouding of third cylinder flexible end, after moxa stick groove on the layer board is covered with the moxa stick, the third cylinder stretches out and drives shrouding shutoff chute export.