CN204272734U - A kind of sack filling machine for edible fungi culture stuff - Google Patents

Abstract

The utility model discloses a kind of sack filling machine for edible fungi culture stuff, comprise base, binder helical axis, air damping pressurizer and the second base, the left upper end of described base is provided with frame, motor is provided with in frame, motor is fixed on base by motor base, the left side of motor is provided with driving pulley, the top of frame is installed with feed helical axis, the left end of feed helical axis is provided with the first driven pulley and the second driven pulley from left to right successively, first driven pulley is connected by belt with between driving pulley, right section of feed helical axis is arranged with discharge nozzle, and feed helical axis in discharge nozzle is provided with discharging spiral.Structure of the present utility model is simple, easy to operate, cost of manufacture is low; Solve the problem that pine was expected in sack filling machine pack, the degree of packing of pack is regulated by the producer oneself, more meets need of production; Meanwhile, the deuterostrophies feeding device of setting, further by composts or fertilisers of cultivating compacting, can improve operating rate.

Description

A kind of sack filling machine for edible fungi culture stuff

Technical field

The utility model relates to Edible Fungi processing equipment, specifically a kind of sack filling machine for edible fungi culture stuff.

Background technology

Current, all need first to be packed by composts or fertilisers of cultivating in most of Edible Fungi, the bagging method of composts or fertilisers of cultivating mushroom generally has manual and machinery two kinds.During manual pack by composts or fertilisers of cultivating with pack with compacting, the composts or fertilisers of cultivating degree of tightness appropriateness in bag, had both been beneficial to mycelia and had grown in material, be also beneficial to later stage code bag fruiting, but artificial pack speed is comparatively slow, consumes manually more, is not suitable for large-scale production.Adopt mechanical sack-filling device, pack speed improves greatly, be conducive to expanding the scale of production, but in the prior art of machinery pack, sack filling machine roughly has two classes, the equipment that one class is complex structure, automaticity is high, the composts or fertilisers of cultivating degree of tightness of this kind of bagging equipment filling is more modest, and for the later stage, the cultivation of edible mushroom is laid a good foundation, but this kind of device structure is complicated, production cost is high, is unwell to middle-size and small-size scale Edible Fungi business and uses.Another kind of is easy sack filling machine for edible fungi culture stuff, general structure is fairly simple, processing cost is low, semi-mechanization operation, the Edible Fungi business being suitable for middle-size and small-size scale uses, from result of use, expected the problem of pine in ubiquity bag, this problem can cause there are some adverse influences to the code bag in mycelial growth and fruiting stage.

Utility model content

The purpose of this utility model is to provide a kind of structure relatively easy sack filling machine for edible fungi culture stuff, to solve the problem proposed in above-mentioned background technology.

For achieving the above object, the utility model provides following technical scheme:

A kind of sack filling machine for edible fungi culture stuff, comprise base, binder helical axis, air damping pressurizer and the second base, the left upper end of described base is provided with frame, motor is provided with in frame, motor is fixed on base by motor base, the left side of motor is provided with driving pulley, the top of frame is installed with feed helical axis, the left end of feed helical axis is provided with the first driven pulley and the second driven pulley from left to right successively, first driven pulley is connected by belt with between driving pulley, right section of feed helical axis is arranged with discharge nozzle, and feed helical axis in discharge nozzle is provided with discharging spiral, the left side vertical of discharge nozzle is provided with coupled the second logical feeding warehouse, second feeding warehouse is provided with observation window, first feeding warehouse of the upper left-hand vertical connecting of the second feeding warehouse, the right side of the first feeding warehouse bottom is connected with the left side on the second feeding warehouse top, the left end of described binder helical axis is provided with the 3rd driven pulley, 3rd driven pulley is connected by belt with between the second driven pulley, the right-hand member of binder helical axis is provided with the first gear, binder helical axis is through the first feeding warehouse and the second feeding warehouse, the binder helical axis being positioned at the first feeding warehouse is provided with binder spiral, and left section of binder helical axis is fixed on the first feeding warehouse by left fixed block, the right-hand member of binder helical axis is fixed on the second feeding warehouse by right fixed block, in addition, hopper is provided with in the upper end of the first described feeding warehouse, the top of the first feeding warehouse is provided with the turning cylinder running through its inside, be located on the turning cylinder in the first feeding warehouse and be laid with several rod for stiring materials, the right side of turning cylinder is provided with the 3rd gear, and the 3rd gear is connected by gears meshing with between the first gear, cylinder is provided with in described air damping pressurizer, air cylinder base, cylinder head, air admission hole, piston, piston rod, wireway, exhaust nozzle, suction nozzle, ball, spring, top board and resistance are caught, cylinder is located on the second fixed mount, second fixed mount is located at the left side of base upper end, air cylinder base and wireway are a single-casting, piston and cylinder inner wall are combined closely, the bottom of piston rod is connected with piston, the top of piston rod connects top board, cylinder head at the top of cylinder with screw thread compact siro spinning technology, spring is arranged on the periphery of piston rod, and spring is between cylinder head and top board, exhaust nozzle and suction nozzle entirety are copper fitting, the ball that a rigid plastics is made is provided with in the porch of suction nozzle air inlet, be provided with resistance on the right side of ball to be caught.

As further program of the utility model: described air admission hole is circumferentially with 2-4 in cylinder head.

As further program of the utility model: described cylinder and air cylinder base are tightly connected.

Compared with prior art, structure of the present utility model is simple, easy to operate, cost of manufacture is low, power saving, laborsaving; Solve the problem that pine expect in sack filling machine pack, only need regulate the control screw of exhaust nozzle, the elasticity namely can arbitrarily expected in regulation bags, the degree of packing of pack by the producer oneself adjustment, instead of is determined when design by designer, more meets need of production; Top board reset speed regulates intake velocity to realize by the screw controlling suction nozzle, can ensure the safety of operating personnel, also can avoid the collision of top board and guide cylinder, thus the service life of prolonged mechanical; Meanwhile, the deuterostrophies feeding device of setting, further by composts or fertilisers of cultivating compacting, can improve operating rate.

Accompanying drawing explanation

Fig. 1 is a kind of structural representation of sack filling machine for edible fungi culture stuff.

Fig. 2 is a kind of close-up schematic view of sack filling machine for edible fungi culture stuff.

In figure: 1-frame, 2-base, 3-motor, 4-motor base, 5-driving pulley, 6-first driven pulley, 7-second driven pulley, 8-the 3rd driven pulley, the left fixed block of 9-, 10-binder helical axis, 11-first feeding warehouse, 12-second feeding warehouse, 13-observation window, 14-discharge nozzle, 15-discharging spiral, 16-feed helical axis, the right fixed block of 17-, 18-first gear, 19-turning cylinder, 20-rod for stiring materials, 21-hopper, 22-top board, 23-spring, 24-piston rod, 25-cylinder head, 26-air admission hole, 27-cylinder, 28-piston, 29-second fixed mount, 30-air cylinder base, 31-wireway, 32-resistance is caught, 33-exhaust nozzle, 34-ball, 35-suction nozzle, 36-the 3rd gear.

Embodiment

Be described in more detail below in conjunction with the technical scheme of embodiment to this patent.

Refer to Fig. 1-2, a kind of sack filling machine for edible fungi culture stuff, comprise base 2, binder helical axis 10, air damping pressurizer and the second base 29, the left upper end of described base 2 is provided with frame 1, motor 3 is provided with in frame 1, motor 3 is fixed on base 2 by motor base 4, the left side of motor 3 is provided with driving pulley 5, the top of frame 1 is installed with feed helical axis 16, the left end of feed helical axis 16 is provided with the first driven pulley 6 and the second driven pulley 7 from left to right successively, first driven pulley 6 is connected by belt with between driving pulley 5, right section of feed helical axis 16 is arranged with discharge nozzle 14, and feed helical axis 16 in discharge nozzle 14 is provided with discharging spiral 15, the left side vertical of discharge nozzle 14 is provided with coupled the second logical feeding warehouse 12, second feeding warehouse 12 is provided with observation window 13, first feeding warehouse 11 of the upper left-hand vertical connecting of the second feeding warehouse 12, the right side of the first feeding warehouse 11 bottom is connected with the left side on the second feeding warehouse 12 top, the left end of described binder helical axis 10 is provided with the 3rd driven pulley 8, be connected by belt between 3rd driven pulley 8 with the second driven pulley 7, the right-hand member of binder helical axis 10 is provided with the first gear 18, binder helical axis 10 is through the first feeding warehouse 11 and the second feeding warehouse 12, the binder helical axis 10 being positioned at the first feeding warehouse 11 is provided with binder spiral, and left section of binder helical axis 10 is fixed on the first feeding warehouse 11 by left fixed block 9, the right-hand member of binder helical axis 10 is fixed on the second feeding warehouse 12 by right fixed block 17, in addition, hopper 21 is provided with in the upper end of the first described feeding warehouse 11, the top of the first feeding warehouse 11 is provided with the turning cylinder 19 running through its inside, be located on the turning cylinder 19 in the first feeding warehouse 11 and be laid with several rod for stiring materials 20, the right side of turning cylinder 19 is provided with the 3rd gear the 36, three gear 36 and is connected by gears meshing with between the first gear 18, during work, composts or fertilisers of cultivating is added in material bin 21, after starter motor 3, motor 3 drives feed helical axis 16, binder helical axis 10 rotates with turning cylinder 19, composts or fertilisers of cultivating is sent into the bottom of the first feeding warehouse 11 by turning cylinder 19 by rod for stiring materials 20, binder spiral in first feeding warehouse 11 will be delivered in the second feeding warehouse 12 again after composts or fertilisers of cultivating compacting, the composts or fertilisers of cultivating through initial pass enters in discharge nozzle 14 from the second feeding warehouse 12, and then composts or fertilisers of cultivating is by discharging spiral 15 compacting discharging again, cylinder 27 is provided with in described air damping pressurizer, air cylinder base 30, cylinder head 25, air admission hole 26, piston 28, piston rod 24, wireway 31, exhaust nozzle 33, suction nozzle 35, ball 34, spring 23, top board 22 and resistance are caught 32, cylinder 27 is located on the second fixed mount 29, second fixed mount 29 is located at the left side of base 2 upper end, air cylinder base 30 and wireway 31 are a single-casting, cylinder 27 and air cylinder base 30 are tightly connected, piston 28 is combined closely air tight with cylinder 27 inwall, the bottom of piston rod 24 is connected with piston 28, the top of piston rod 24 connects top board 22, cylinder head 25 at the top of cylinder 27 with screw thread compact siro spinning technology, the hole through piston rod 24 is provided with at cylinder head 25 center, air admission hole 26 is circumferentially with 2-4 in cylinder head 25, spring 23 is arranged on the periphery of piston rod 24, and spring 23 is between cylinder head 25 and top board 22, exhaust nozzle 33 controls the exhaust velocity of exhaust outlet by threaded screw rod, entirety is copper fitting, suction nozzle 35 controls the intake velocity of air inlet by threaded screw rod, entirety is copper fitting, the ball 34 that a rigid plastics is made is provided with in the porch of suction nozzle 35 air inlet, be provided with resistance on the right side of ball 34 and be caught 32, when composts or fertilisers of cultivating is advanced the plastic sack be enclosed within discharge nozzle 14 by discharging spiral 15, plastic sack just slowly retreats and contacts with top board 22, promote piston 28 to move to cylinder bottom, gas in the jar pressurized produces reaction force and makes composts or fertilisers of cultivating compacting in plastic sack, now exhaust nozzle 33 is opened an osculum, then gas in the jar constantly will be discharged from exhaust nozzle 33 with pressure increase, piston 28 just slowly runs to cylinder bottom under certain constant voltage, until when in plastic sack, composts or fertilisers of cultivating is completely to the degree needed, shut down, bag taking, regulate the size of exhaust nozzle 33 just can regulate the degree of packing of composts or fertilisers of cultivating in plastic sack, after taking off cultivation pocket, piston 28 starts to reset under the elastic force of spring 23, now be almost vacuum in cylinder 27, the bottom surface air pressure of piston 28 is very little, and piston 28 end face air pressure is very large, along with air enters from the air admission hole 26 cylinder head 25, the pressure differential on piston 28 two sides reduces gradually, piston 28 slowly resets under the elastic force of spring 23, regulate the air inlet size of suction nozzle 14, adjustable reset speed, there has been the time of sleeving plastic bag on guide cylinder 5 like this, the effect of the ball 34 that rigid plastics makes blocks suction nozzle 35 when cylinder 27 is vented, prevent from being from then on vented, then automatically open during air inlet, can air inlet smoothly, resistance below ball 34 is caught the activity space of 32 balls 34 when defining cylinder 27 air inlet.

Above the better embodiment of this patent is explained in detail, but this patent is not limited to above-mentioned embodiment, in the ken that one skilled in the relevant art possesses, various change can also be made under the prerequisite not departing from this patent aim.

Claims (3)

1. a sack filling machine for edible fungi culture stuff, comprise base (2), binder helical axis (10), air damping pressurizer and the second base (29), it is characterized in that, the left upper end of described base (2) is provided with frame (1), motor (3) is provided with in frame (1), motor (3) is fixed on base (2) by motor base (4), the left side of motor (3) is provided with driving pulley (5), the top of frame (1) is installed with feed helical axis (16), the left end of feed helical axis (16) is provided with the first driven pulley (6) and the second driven pulley (7) from left to right successively, be connected by belt between first driven pulley (6) with driving pulley (5), right section of feed helical axis (16) is arranged with discharge nozzle (14), and feed helical axis (16) in discharge nozzle (14) is provided with discharging spiral (15), the left side vertical of discharge nozzle (14) is provided with coupled logical the second feeding warehouse (12), second feeding warehouse (12) is provided with observation window (13), first feeding warehouse (11) of the upper left-hand vertical connecting of the second feeding warehouse (12), the right side of the first feeding warehouse (11) bottom is connected with the left side on the second feeding warehouse (12) top, the left end of described binder helical axis (10) is provided with the 3rd driven pulley (8), 3rd driven pulley (8) is connected by belt with between the second driven pulley (7), the right-hand member of binder helical axis (10) is provided with the first gear (18), binder helical axis (10) is through the first feeding warehouse (11) and the second feeding warehouse (12), the binder helical axis (10) being positioned at the first feeding warehouse (11) is provided with binder spiral, and left section of binder helical axis (10) is fixed on the first feeding warehouse (11) by left fixed block (9), the right-hand member of binder helical axis (10) is fixed on the second feeding warehouse (12) by right fixed block (17), in addition, hopper (21) is provided with in the upper end of described the first feeding warehouse (11), the top of the first feeding warehouse (11) is provided with the turning cylinder (19) running through its inside, be located on the turning cylinder (19) in the first feeding warehouse (11) and be laid with several rod for stiring materials (20), the right side of turning cylinder (19) is provided with the 3rd gear (36), and the 3rd gear (36) is connected by gears meshing with between the first gear (18), cylinder (27) is provided with in described air damping pressurizer, air cylinder base (30), cylinder head (25), air admission hole (26), piston (28), piston rod (24), wireway (31), exhaust nozzle (33), suction nozzle (35), ball (34), spring (23), (32) are caught in top board (22) and resistance, cylinder (27) is located on the second fixed mount (29), second fixed mount (29) is located at the left side of base (2) upper end, air cylinder base (30) and wireway (31) are a single-casting, piston (28) and cylinder (27) inwall are combined closely, the bottom of piston rod (24) is connected with piston (28), the top of piston rod (24) connects top board (22), cylinder head (25) at the top of cylinder (27) with screw thread compact siro spinning technology, spring (23) is arranged on the periphery of piston rod (24), and between spring (23) position cylinder head (25) and top board (22), exhaust nozzle (33) and suction nozzle (35) entirety are copper fitting, the ball (34) that a rigid plastics is made is provided with in the porch of suction nozzle (35) air inlet, be provided with resistance on the right side of ball (34) and be caught (32).

2. a kind of sack filling machine for edible fungi culture stuff according to claim 1, is characterized in that, described air admission hole (26) is circumferentially with 2-4 in cylinder head (25).

3. a kind of sack filling machine for edible fungi culture stuff according to claim 1, is characterized in that, described cylinder (27) and air cylinder base (30) are tightly connected.