CN210959726U

CN210959726U - Fungus sack filling machine

Info

Publication number: CN210959726U
Application number: CN201921765949.5U
Authority: CN
Inventors: 杨新庆; 陈园; 孟丽君
Original assignee: Shaanxi Qingruifeng Food And Medicinal Fungus Technology Co ltd
Current assignee: Shaanxi Qingruifeng Food And Medicinal Fungus Technology Co ltd
Priority date: 2019-10-21
Filing date: 2019-10-21
Publication date: 2020-07-10
Anticipated expiration: 2029-10-21

Abstract

The utility model relates to a fungus sack filling machine, which relates to the field of edible fungus equipment, in particular to a fungus sack filling machine, comprising a sack filling machine body, wherein a material injection cylinder is arranged on the sack filling machine body, an auger is arranged in the material injection cylinder, and an opening at one end of the material injection cylinder, which is far away from the sack filling machine body, is a discharge hole; the temporary storage device is provided with a plurality of columnar temporary storage grooves in a circular ring shape, and the temporary storage grooves are connected with the discharge hole through chute arranged obliquely; the utility model discloses the chute that utilizes the slope to set up is with the fungus bag water conservancy diversion after the bagging-off is accomplished to keeping in the inslot, the groove setting of keeping in is on the rotary disk, the rotary disk rotates under rotary drive's effect, make the groove of keeping in under the chute be the groove of keeping in of not adorning the fungus bag all the time, be used for accepting the fungus bag that the water conservancy diversion got off from the chute, the fungus bag after operating personnel operation bagging-off is accomplished, can directly go on to the operation of follow-up fungus bag simultaneously, remove loaded down with trivial details of transporting from, the production efficiency who improves greatly.

Description

Fungus sack filling machine

Technical Field

The utility model relates to an edible mushroom equipment field, concretely relates to fungus kind sack filling machine.

Background

The edible fungus culture enriches the types of agricultural products and occupies a certain position, the fungus bagging machine is mechanical equipment for mixing and bagging the fungus and the culture material well 38473, and is widely applied to the field of industrial processing, after bagging is completed by the conventional fungus bagging machine in the bagging process, next step of inserting pipe and upper ring upper cover are required, in the process, the fungus bags after bagging are required to be placed together, operators need to prevent the placed fungus bags from toppling over to enable the well-packaged fungus and culture material in the fungus bags to flow out when operating the bagging machine, and finally the fungus bags are transported to an operation station of a subsequent step to be carried out, and the fungus bagging machine is always in an operation state in the process, so that the production efficiency is low, and the production cost is improved.

SUMMERY OF THE UTILITY MODEL

In order to solve the problem, the utility model provides a simple structure, convenient to use can improve production efficiency's a bacterial sack filling machine greatly.

The utility model relates to a strain bagging machine, which comprises a bagging machine body, wherein a material injection cylinder is arranged on the bagging machine body, an auger is arranged in the material injection cylinder, an opening at one end of the material injection cylinder, which is far away from the bagging machine body, is a discharge port, and the material injection cylinder is horizontally arranged; the temporary storage device is provided with a plurality of columnar temporary storage grooves in a circular ring shape, the temporary storage grooves are connected with a discharge port through chute arranged obliquely, and the chute is fixedly connected with the bag filling machine body;

the height of one end of the chute, which is connected with the discharge hole, in the vertical direction is greater than that of the other end of the chute in the direction;

the chute is arranged in an area between the temporary storage device and the material injection barrel, and the distance between the chute and the material injection barrel is at least 2 cm; after the strains are bagged, the strains slide into the columnar temporary storage tank from the chute;

the temporary storage device comprises a base, a vertically arranged stepped shaft is fixedly connected to the base, a rotating disc is sleeved on the stepped shaft, a temporary storage groove is formed in the rotating disc, and the rotating disc abuts against a shaft shoulder on the stepped shaft through a bearing sleeved on the stepped shaft;

the rotating disc is provided with a rotating driving device.

Preferably, the rotary driving device comprises a vertically arranged power output shaft, one end of the power output shaft is connected with a stepping motor, the other end of the power output shaft is connected with a gear, the stepping motor is fixedly arranged on the base, one surface of the rotating disc, facing the base, is fixedly provided with a gear ring, and the gear ring is connected with the gear in a matching manner;

the central axis of the gear ring and the central axis of the stepped shaft are on the same straight line.

Preferably, the step shaft is further provided with an anti-overturning device, the anti-overturning device is fixedly sleeved on the step shaft, and the rotating disc is sleeved on the step shaft between the anti-overturning device and the bearing.

Preferably, the overturn preventing device comprises an annular overturn preventing disc, an annular columnar first sleeve and an overturn preventing bearing, the first sleeve, the overturn preventing bearing and the overturn preventing disc are all sleeved on the stepped shaft and are sequentially overlapped up and down, and the central axes of the overturn preventing disc and the first sleeve and the central axis of the stepped shaft are on the same straight line;

the anti-overturning plate is pressed on the rotating plate, one end of the first sleeve, which is far away from the anti-overturning bearing, is connected with an end cover, and the end cover is connected with the shaft end of the stepped shaft through a screw;

the rotating disk is a circular rotating disk, and the outer diameter of the overturn-preventing disk is at least 15cm larger than the inner diameter of the rotating disk.

Preferably, the bearing and the overturn-preventing bearing are both thrust bearings, the inner diameter of the first sleeve is smaller than the outer diameter of the overturn-preventing bearing, and the inner diameter of the rotating disc is smaller than the outer diameter of the bearing.

Or preferably, the temporary storage tanks comprise columnar cylinders with openings at two ends, the columnar cylinders are vertically arranged, one ends of the columnar cylinders, far away from the rotating disc, are fixedly connected with bell-mouth-shaped flow guide ports, and the other ends of the columnar cylinders are connected with bottom plugging devices;

the rotary disc is provided with a circular ring-shaped fixing frame on the surface far away from the base, and the cylindrical barrel and the bottom plugging device are fixedly connected with the circular ring-shaped fixing frame.

Preferably, the bottom plugging device comprises a transverse rod and a longitudinal rod, the central axes of the transverse rod and the longitudinal rod are perpendicular to each other and are located in the same horizontal plane, and the transverse rod and the longitudinal rod are fixedly connected with the annular fixing frame.

Preferably, the distance between the bottom plugging devices of the diversion ports is 3/5 the length of the strain tape.

The utility model discloses simple structure, high durability and convenient use, the fungus bag water conservancy diversion after utilizing the chute that the slope set up to accomplish the bagging-off to keeping in the inslot, the groove of keeping in sets up on the rotary disk, the rotary disk rotates under rotary drive's effect, make the groove of keeping in under the chute be the groove of keeping in of not bagging-off fungus bag all the time, a fungus bag for accepting from the chute water conservancy diversion and getting off, the fungus bag after the operation bagging-off is accomplished to operating personnel, can directly go on to the operation of follow-up fungus bag simultaneously, remove loaded down with trivial details of transporting from, the production efficiency who improves greatly, and the production cost is reduced simultaneously.

Drawings

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

Fig. 2 is a top view of the rotating disk.

Reference numerals: 1-material injection barrel, 2-chute, 3-flow guide port, 4-barrel, 5-first sleeve, 6-overturn-preventing bearing, 7-bearing, 8-rotating disk, 9-base, 10-stepped shaft, 11-stepping motor, 12-gear, 13-gear ring, 14-overturn-preventing disk and 15-end cover.

Detailed Description

The utility model relates to a strain bagging machine, which comprises a bagging machine body, wherein a material injection cylinder 1 is arranged on the bagging machine body, an auger is arranged in the material injection cylinder 1, an opening at one end, far away from the bagging machine body, of the material injection cylinder 1 is a discharge port, and the material injection cylinder 1 is horizontally arranged; the temporary storage device is provided with a plurality of columnar temporary storage grooves in a circular ring shape, the temporary storage grooves are connected with a discharge hole through chute 2 which is obliquely arranged, and the chute 2 is fixedly connected with the bag filling machine body;

the height of one end of the chute 2 connected with the discharge hole in the vertical direction is greater than that of the other end of the chute 2 in the direction;

the chute 2 is arranged in the area between the temporary storage device and the material injection barrel 1, and the distance between the chute 2 and the material injection barrel 1 is at least 2 cm; after the strains are bagged, the strains slide into the columnar temporary storage tank from the chute 2;

the temporary storage device comprises a base 9, a vertically arranged stepped shaft 10 is fixedly connected to the base 9, a rotating disc 8 is sleeved on the stepped shaft 10, the temporary storage groove is formed in the rotating disc 8, and the rotating disc 8 abuts against a shaft shoulder on the stepped shaft 10 through a bearing 7 sleeved on the stepped shaft 10;

the rotating disc 8 is provided with a rotary driving device.

The rotary driving device comprises a power output shaft which is vertically arranged, one end of the power output shaft is connected with a stepping motor 11, the other end of the power output shaft is connected with a gear 12, the stepping motor 11 is fixedly arranged on the base 9, one surface, facing the base 9, of the rotary disc 8 is fixedly provided with a gear ring 13, and the gear ring 13 is connected with the gear 12 in a matching manner; the stepping motor 11 drives the rotating disc 8 to rotate for a certain angle every time, so that the temporary storage groove connected with the chute 2 is always in a state of not loading the strain bags;

the central axis of the ring gear 13 is collinear with the central axis of the stepped shaft 10.

The stepped shaft 10 is also provided with an anti-overturning device which is fixedly sleeved on the stepped shaft 10, and the rotating disk 8 is sleeved on the stepped shaft 10 between the anti-overturning device and the bearing 7.

The anti-overturning device comprises an annular anti-overturning plate 14, an annular columnar first sleeve 5 and an anti-overturning bearing 6, wherein the first sleeve 5, the anti-overturning bearing 6 and the anti-overturning plate 14 are sleeved on the stepped shaft 10 and are sequentially overlapped up and down, and the central axes of the anti-overturning plate 14 and the first sleeve 5 are on the same straight line with the central axis of the stepped shaft 10;

the overturn preventing disc 14 is pressed on the rotating disc 8, one end of the first sleeve 5, which is far away from the overturn preventing bearing 6, is connected with an end cover 15, and the end cover 15 is connected with the shaft end of the stepped shaft 10 through a screw;

the rotary disk 8 is a circular rotary disk 8, the outer diameter of the overturn-preventing disk 14 is at least 15cm larger than the inner diameter of the rotary disk 8, and the overturn-preventing disk 14 is used for preventing one side of the rotary disk 8 from being filled with the strain bags and the other side of the rotary disk 8 from being overturned when the strain bags are not filled.

The bearing 7 and the overturn-preventing bearing 6 are both thrust bearings 7, the inner diameter of the first sleeve 5 is smaller than the outer diameter of the overturn-preventing bearing 6, and the inner diameter of the rotating disc 8 is smaller than the outer diameter of the bearing 7.

The temporary storage tanks comprise columnar cylinder bodies 4 with openings at two ends, the columnar cylinder bodies 4 are vertically arranged, one ends of the columnar cylinder bodies 4 far away from the rotating disc 8 are fixedly connected with a bell-mouth-shaped flow guide port 3, and the other ends of the columnar cylinder bodies 4 are connected with a bottom plugging device;

the rotary disc 8 is provided with a circular ring-shaped fixing frame on the surface far away from the base 9, and the cylindrical barrel 4 and the bottom plugging device are fixedly connected with the circular ring-shaped fixing frame.

The bottom plugging device comprises a transverse rod and a longitudinal rod, the central axes of the transverse rod and the longitudinal rod are perpendicular to each other and are located in the same horizontal plane, and the transverse rod and the longitudinal rod are fixedly connected with the annular fixing frame.

The distance between the bottom plugging devices of the diversion openings 3 is 3/5 the length of the strain zone.

When in use, an operator sleeves the strain bag on the charging barrel 1, after strains and culture materials are filled in the charging barrel, the strain bag slides down along the chute 2 towards the temporary storage device, and then enters the temporary storage groove which is positioned at the lower end of the chute 2 and is fixedly arranged on the rotating disk 8, the stepping motor 11 drives the gear 12 to rotate, the gear 12 is meshed with the gear ring 13, thereby driving the rotating disc 8 to rotate, and after the rotating disc 8 rotates a certain angle by controlling the stepping motor 11, the temporary storage groove under the chute 2 is always the temporary storage groove without the strain bag, after the strain bags fall into the temporary storage groove, the stepping motor 11 drives the rotating disc 8 to rotate to carry out the next strain bag carrying, and after the strain bags enter the temporary storage groove, the subsequent operation of the strain bags, such as intubation, thereby remove the operation of transporting from, also provide simultaneously also bacterial sack filling machine operating personnel's work efficiency.

The utility model discloses simple structure, high durability and convenient use, the fungus bag water conservancy diversion after chute 2 that utilizes the slope to set up accomplishes the bagging-off is to keeping in the inslot, the groove of keeping in sets up on rotary disk 8, rotary disk 8 rotates under rotary drive's effect, make the groove of keeping in under chute 2 be the groove of keeping in of not adorning the fungus bag all the time, a fungus bag for accepting from chute 2 goes up the water conservancy diversion and gets off, the fungus bag after the operation personnel operation bagging-off is accomplished, simultaneously can directly go on to the operation of follow-up fungus bag, remove the loaded down with trivial details of transporting from, the production efficiency who improves greatly, and the production cost is reduced simultaneously.

Claims

1. A strain bagging machine comprises a bagging machine body, wherein a material injection cylinder (1) is arranged on the bagging machine body, a packing auger is arranged in the material injection cylinder (1), an opening in one end, far away from the bagging machine body, of the material injection cylinder (1) is a discharge hole, and the material injection cylinder (1) is horizontally arranged; the device is characterized by further comprising a temporary storage device, wherein a plurality of columnar temporary storage grooves are annularly arranged on the temporary storage device, the temporary storage grooves are connected with a discharge port through chute (2) which is obliquely arranged, and the chute (2) is fixedly connected with the bagging machine body;

the height of one end, connected with the discharge hole, of the chute (2) in the vertical direction is greater than that of the other end of the chute (2) in the vertical direction;

the chute (2) is arranged in an area between the temporary storage device and the material injection barrel (1), and the distance between the chute (2) and the material injection barrel (1) is at least 2 cm; after the strains are bagged, the strains slide into the columnar temporary storage tank from the chute (2);

the temporary storage device comprises a base (9), a vertically arranged stepped shaft (10) is fixedly connected to the base (9), a rotating disc (8) is sleeved on the stepped shaft (10), a temporary storage groove is formed in the rotating disc (8), and the rotating disc (8) abuts against a shaft shoulder on the stepped shaft (10) through a bearing (7) sleeved on the stepped shaft (10);

the rotating disc (8) is provided with a rotating driving device.

2. The strain bagging machine according to claim 1, wherein the rotary driving device comprises a vertically arranged power output shaft, one end of the power output shaft is connected with a stepping motor (11), the other end of the power output shaft is connected with a gear (12), the stepping motor (11) is fixedly arranged on the base (9), one surface, facing the base (9), of the rotary disc (8) is fixedly provided with a gear ring (13), and the gear ring (13) is connected with the gear (12) in a matching manner;

the central axis of the gear ring (13) and the central axis of the stepped shaft (10) are on the same straight line.

3. The strain bagging machine according to claim 2, wherein the step shaft (10) is further provided with an overturn preventing device which is fixedly sleeved on the step shaft (10), and the rotating disc (8) is sleeved on the step shaft (10) between the overturn preventing device and the bearing (7).

4. The strain bagging machine according to claim 3, wherein the overturn preventing device comprises an annular overturn preventing disc (14), an annular first sleeve (5) and an overturn preventing bearing (6), the first sleeve (5), the overturn preventing bearing (6) and the overturn preventing disc (14) are sleeved on the stepped shaft (10) and are sequentially overlapped up and down, and the central axes of the overturn preventing disc (14) and the first sleeve (5) are on the same straight line with the central axis of the stepped shaft (10);

the overturn preventing disc (14) is pressed on the rotating disc (8), one end, far away from the overturn preventing bearing (6), of the first sleeve (5) is connected with an end cover (15), and the end cover (15) is connected with the shaft end of the stepped shaft (10) through a screw;

the rotating disk (8) is a circular rotating disk (8), and the outer diameter of the overturn-preventing disk (14) is at least 15cm larger than the inner diameter of the rotating disk (8).

5. The strain bagging machine according to claim 4, wherein the bearing (7) and the overturn-preventing bearing (6) are thrust bearings (7), the inner diameter of the first sleeve (5) is smaller than the outer diameter of the overturn-preventing bearing (6), and the inner diameter of the rotating disk (8) is smaller than the outer diameter of the bearing (7).

6. The strain bagging machine according to any one of claims 1 to 5, wherein each temporary storage tank comprises a cylindrical barrel (4) with two open ends, the cylindrical barrels (4) are vertically arranged, one end of each cylindrical barrel (4) far away from the rotating disc (8) is fixedly connected with a bell-mouth-shaped flow guide opening (3), and the other end of each cylindrical barrel (4) is connected with a bottom plugging device;

the rotary disc (8) is provided with a circular ring-shaped fixing frame on the surface far away from the base (9), and the cylindrical barrel body (4) and the bottom plugging device are fixedly connected with the circular ring-shaped fixing frame.

7. The strain bagging machine according to claim 6, wherein the bottom blocking devices each comprise a transverse rod and a longitudinal rod, the central axes of the transverse rod and the longitudinal rod are perpendicular to each other and are located in the same horizontal plane, and the transverse rod and the longitudinal rod are fixedly connected with the annular fixing frame.

8. The strain bagging machine according to claim 7, wherein the distance between the bottom blocking devices at the diversion port (3) is 3/5 of the length of the strain tape.