CN215683821U - Forage pressing mechanism of cubic feeding machine - Google Patents

Abstract

The utility model provides a forage pressing mechanism of a tertiary feeding machine, and belongs to the technical field of machinery. It has solved the problem that current equipment influences the soil material and lays. The forage pressing and holding mechanism of the tertiary feeding machine comprises a rack and a conveying belt horizontally arranged on the rack, wherein a support and a pressing roller are arranged above the conveying belt, the axial line of the pressing roller is distributed along the width direction of the conveying belt, and two ends of the pressing roller are rotatably supported on the support; the number of the compression rollers is at least two and the compression rollers are distributed along the conveying direction of the conveying belt, and the positions of the compression rollers are gradually reduced along the conveying direction of the conveying belt; the support is hinged with the frame through a rotating shaft which is horizontally arranged, the rotating shaft is arranged in parallel with the compression roller, and a driving piece which enables the support to swing around the axis of the rotating shaft is arranged on the frame; and the support is also provided with a rotating mechanism for driving the plurality of press rollers to synchronously rotate. This cubic material loading machine forage pressure is held the mechanism and can be improved soil material and lay the effect.

Description

Forage pressing mechanism of cubic feeding machine

Technical Field

The utility model belongs to the technical field of machinery, and relates to a three-time feeding machine, in particular to a forage pressing mechanism of the three-time feeding machine.

Background

At present, many fungi completely depend on nutrient substances in a culture medium for growth and development. The existing culture medium for bacteria generally consists of forage and auxiliary materials, and the auxiliary materials generally adopt a mixture formed by chicken manure, gypsum, soil materials and the like.

At present, the culture medium is generally processed by adopting mechanical equipment, and the mechanical equipment generally comprises a conveying belt and a forage feeding mechanism, a forage pressing mechanism and an earth covering conveying mechanism which are sequentially arranged on the conveying belt. When the straw mulching machine is used, forage is sent into the forage pressing and holding mechanism by the forage feeding mechanism, the forage is compacted downwards by the forage pressing and holding mechanism and then is conveyed forwards to the soil covering conveying mechanism under the action of the conveying belt, and then soil is poured into the forage by the soil covering conveying mechanism so as to pave a layer of soil on the forage.

The above-described apparatus has a problem: when earthing conveying mechanism does not have the soil charge on, it can stop the conveyer belt and move until having detected the soil charge, when the conveyer belt stopped to move, the forage can be pressed in forage pressure and hold the mechanism below always, leads to the hole to appear in forage top, influences follow-up soil charge tiling to influence culture medium quality.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems in the prior art and provides a tertiary forage pressing and holding mechanism of a feeder, which can improve the paving quality of soil.

The purpose of the utility model can be realized by the following technical scheme: the third-time feeding machine forage pressing mechanism comprises a rack and a conveying belt horizontally arranged on the rack, and is characterized in that a support and a pressing roller are arranged above the conveying belt, the axial line of the pressing roller is distributed along the width direction of the conveying belt, and two ends of the pressing roller are rotatably supported on the support; the number of the compression rollers is at least two and the compression rollers are distributed along the conveying direction of the conveying belt, and the positions of the compression rollers are gradually reduced along the conveying direction of the conveying belt; the support is hinged with the frame through a rotating shaft which is horizontally arranged, the rotating shaft is arranged in parallel with the compression roller, and a driving piece which enables the support to swing around the axis of the rotating shaft is arranged on the frame; and the support is also provided with a rotating mechanism for driving the plurality of press rollers to synchronously rotate.

In the actual product, cubic material loading machine still includes the earthing conveying mechanism who is used for inputing the soil material, and forage pressure holds mechanism and earthing conveying mechanism and distributes along conveyer belt direction of delivery in proper order.

During the use, forage transports to the compression roller below through the conveyer belt, utilizes many compression rollers of height configuration and synchronous rotation, and the forage is compacted downwards, and earthing conveying mechanism pours into the soil material gradually towards compaction forage top after that, realizes the earthing operation. When no forage is loaded on the earthing conveying mechanism, the driving piece drives the support to swing upwards to enable the compression roller to move upwards to be separated from the forage, the compression roller is prevented from being pressed on the forage for a long time, a pit formed by sinking of the top of the forage is effectively avoided, the forage is ensured to be better paved on the forage, the paving quality is improved, and the processing quality of the culture medium is improved.

In the third-time feeding machine forage pressing and holding mechanism, the bracket comprises two baffles which are arranged in parallel along the width direction of the conveying belt, and two ends of the press roller are respectively and rotatably supported on the two baffles; two baffle one end all is articulated through above-mentioned pivot and frame, and the driving piece has two and is connected with two baffle other ends respectively. By adopting the design, the device has the advantages of simple structure and convenience in assembly.

In foretell cubic material loading machine forage pressure held mechanism, be equipped with the crossbeam between two baffles, crossbeam length extends along conveyer belt width direction, and the crossbeam both ends link firmly with two baffles respectively. The crossbeam is connected two baffles, ensures two baffles synchronous operation, improves job stabilization nature.

In the third-time feeding machine forage pressing and holding mechanism, the frame is provided with two slots with the shapes and the sizes matched with the baffles, the ends of the two baffles, which are not connected with the driving piece, are respectively inserted into the two slots, the two rotating shafts are respectively and fixedly arranged in the two slots, and the baffles are provided with round holes for the corresponding rotating shafts to pass through.

In the third-time feeding machine forage pressing and holding mechanism, the slot extends out of two ends of the rotating shaft, the annular raised head is arranged at one end of the rotating shaft, the limiting part is fixedly arranged at the other end of the rotating shaft, and the annular raised head and the limiting part are tightly pressed on the outer wall of the slot to form larger friction to limit the rotating shaft.

In the third-time feeding machine forage pressing mechanism, the rotating shaft is provided with a through hole which radially penetrates through the rotating shaft, the limiting part is a limiting column which is clamped in the through hole, and two ends of the limiting column extend out of the through hole and are tightly pressed on the outer wall of the slot.

As another scheme, in the third-time feeding machine forage pressing mechanism, the limiting member is a nut screwed on the rotating shaft, and the end face of the nut is tightly pressed on the outer wall of the slot.

In foretell cubic material loading machine forage pressure held mechanism, the driving piece is cylinder or hydro-cylinder, and the driving piece includes cylinder body and piston rod, and cylinder body and piston rod all are connected with frame and baffle respectively through the axis body that the level set up, and axis body and pivot parallel arrangement.

As another scheme, in the forage pressing mechanism of the three-time feeding machine, the driving part is an electric push rod, and a main shaft of the electric push rod is fixedly connected with the baffle.

In the forage pressing and holding mechanism of the three-time feeding machine, two ends of the compression roller respectively penetrate through the two baffles, the rotating mechanism comprises a motor fixed on the cross beam, and the motor drives all the compression rollers to synchronously rotate through a transmission structure.

In foretell cubic material loading machine forage pressure held mechanism, drive structure is including fixing the driven sprocket in pivot one end, and all driven sprockets all are in same one side, are fixed with drive sprocket on the motor spindle, and drive sprocket and driven sprocket pass through the chain and connect.

As another scheme, in the third-time feeding machine forage pressing and holding mechanism, the transmission structure comprises driven gears fixed at one end of the rotating shaft, all the driven gears are positioned at the same side, two adjacent driven gears are meshed through a transmission gear arranged between the two driven gears, the transmission gear is rotatably connected with the baffle, a driving gear is fixed on a main shaft of the motor, and the driving gear is meshed with one driven gear.

Compared with the prior art, this cubic material loading machine forage pressure holds mechanism when in-service use, when there is not the soil mass on the earthing conveying mechanism of cubic material loading machine, the driving piece drives the support upswing and makes the compression roller shift up and break away from the forage, prevents that the compression roller from pressing on the forage for a long time, effectively avoids the forage top to sink and forms the pit, ensures that the better flat of soil mass is spread on the forage to improve and lay the quality, thereby improve culture medium processingquality.

Drawings

Fig. 1 is a schematic structural view of a tertiary feeding machine.

Fig. 2 is a schematic structural view of the grass holding mechanism.

Fig. 3 is a perspective view of the baffle installation.

Fig. 4 is a schematic sectional structure diagram of the baffle installation.

In the figure, 1, a frame; 1a, a slot; 2. a conveyor belt; 3. an earth covering conveying mechanism; 4. a support; 4a, a baffle plate; 4b, a cross beam; 5. a compression roller; 6. a rotating shaft; 6a, an annular raised head; 7. a drive member; 8. a limiting member; 9. a motor; 10. a driven sprocket; 11. a drive sprocket.

Detailed Description

The following are specific embodiments of the present invention and are further described with reference to the drawings, but the present invention is not limited to these embodiments.

Example one

As shown in fig. 1, the tertiary feeding machine includes a frame 1 and a conveying belt 2 horizontally disposed on the frame 1, a forage holding mechanism and a covering conveying mechanism 3 are disposed above the conveying belt 2, and the forage holding mechanism and the covering conveying mechanism 3 are sequentially distributed along the conveying direction of the conveying belt 2, wherein the covering conveying mechanism 3 is an existing structure and will not be described in detail herein.

In particular, the present invention relates to a method for producing,

as shown in fig. 2 and fig. 3, the forage holding mechanism comprises a support 4 and a horizontally arranged press roller 5, wherein the press roller 5 is in a shape of a round roller, the axis of the press roller 5 is distributed along the width direction of the conveyer belt 2, and both ends of the press roller 5 are rotatably supported on the support 4. The number of the compression rollers 5 is at least two, the compression rollers are distributed along the conveying direction of the conveying belt 2, the positions of the compression rollers 5 are gradually reduced along the conveying direction of the conveying belt 2, the support 4 is further provided with a rotating mechanism used for driving the compression rollers 5 to rotate synchronously, and the rotating directions of all the compression rollers 5 are the same. The bracket 4 is hinged with the frame 1 through a rotating shaft 6 which is horizontally arranged, so that the bracket 4 can swing around the axis of the rotating shaft 6. The rotating shaft 6 is arranged in parallel with the press roller 5, at the moment, the axis of the rotating shaft 6 extends along the width direction of the conveying belt 2, and a driving piece 7 which enables the support 4 to swing around the axis of the rotating shaft 6 is arranged on the rack 1.

In the present embodiment, it is preferred that,

the number of press rolls 5 is preferably 4.

The support 4 has the following structure: the support 4 includes two baffles 4a arranged side by side in the width direction of the conveyor 2 and a cross member 4b provided between the two baffles 4 a. Wherein, crossbeam 4b length extends along 2 width direction on the conveyer belt, and crossbeam 4b both ends link firmly with two baffles 4a respectively. Preferably, the two cross beams 4b are distributed along the conveying direction of the conveying belt 2; one ends of the two baffles 4a are hinged with the frame 1 through the rotating shaft 6, and the driving pieces 7 are provided with two ends which are respectively connected with the other ends of the two baffles 4 a.

The baffle 4a is mounted as follows: two slots 1a with the shape and the size matched with the baffle 4a are formed in the rack 1, one ends of the two baffles 4a, which are not connected with the driving piece 7, are respectively inserted into the two slots 1a, the two rotating shafts 6 are respectively and fixedly arranged in the two slots 1a, and round holes for the corresponding rotating shafts 6 to pass through are arranged on the baffles 4a in a penetrating manner.

As shown in fig. 3 and 4, the rotating shaft 6 is positioned as follows: the two ends of the rotating shaft 6 extend out of the slot 1a, one end of the rotating shaft 6 is provided with an annular raised head 6a, the annular raised head 6a and the rotating shaft 6 are coaxial and are of an integral structure, the other end of the rotating shaft 6 is fixedly provided with a limiting piece 8, and the annular raised head 6a and the limiting piece 8 are tightly pressed on the outer wall of the slot 1a so as to limit the rotating shaft 6 by large friction. The preferred pivot 6 is last to have along the radial through-hole that runs through the setting of pivot 6, and locating part 8 is the spacing post of establishing in the through-hole for the card, and spacing post both ends all stretch out the through-hole and sticiss on slot 1a outer wall.

The installation mode of the press roll 5 is as follows: two ends of the press roller 5 are rotatably supported on the two baffles 4a respectively, preferably, two ends of the press roller 5 penetrate through the two baffles 4a respectively, and two ends of the press roller 5 are rotatably connected with the two baffles 4a respectively through bearing seats with bearings.

The driving member 7 is structured as follows: the driving part 7 is a cylinder or an oil cylinder, the driving part 7 comprises a cylinder body and a piston rod, the cylinder body and the piston rod are respectively connected with the frame 1 and the baffle 4a through a shaft body horizontally arranged, and the shaft body and the rotating shaft 6 are arranged in parallel.

The rotating mechanism comprises a motor 9 fixed on the cross beam 4b, and the motor 9 drives all the compression rollers 5 to synchronously rotate through a transmission structure. In this embodiment, the transmission structure includes a driven sprocket 10 fixed at one end of the rotating shaft 6, all the driven sprockets 10 are located at the same side, a driving sprocket 11 is fixed on the main shaft of the motor 9, and the driving sprocket 11 and the driven sprockets 10 are connected by a chain.

During the use, forage transports to compression roller 5 below through conveyer belt 2, utilizes many compression rollers 5 of height configuration and synchronous rotation, and the forage is compacted downwards, and earthing conveying mechanism 3 pours into the soil material gradually towards compaction forage top after that, realizes the earthing operation. When no soil exists on the earthing conveying mechanism 3, the driving piece 7 drives the support 4 to swing upwards to enable the compression roller 5 to move upwards to be separated from the forage, the compression roller 5 is prevented from being pressed on the forage for a long time, the top of the forage is effectively prevented from sinking to form a pit, the soil is guaranteed to be better paved on the forage, the paving quality is improved, and the processing quality of the culture medium is improved.

Example two

The structure and principle of the second embodiment are basically the same as those of the first embodiment, and different points are as follows: the limiting part 8 is a nut screwed on the rotating shaft 6, and the end face of the nut is tightly pressed on the outer wall of the slot 1 a.

EXAMPLE III

The structure and principle of the third embodiment are basically the same as those of the first embodiment, and different points are as follows: the driving piece 7 is an electric push rod, and a main shaft of the electric push rod is fixedly connected with the baffle 4 a.

Example four

The structure and principle of the fourth embodiment are basically the same as those of the first embodiment, and different points are that: the transmission structure comprises driven gears fixed at one end of the rotating shaft 6, all the driven gears are positioned at the same side, two adjacent driven gears are meshed through a transmission gear arranged between the two driven gears, the transmission gear is rotatably connected with the baffle 4a, a driving gear is fixed on a main shaft of the motor 9, and the driving gear is meshed with one of the driven gears.

The specific embodiments described herein are merely illustrative of the spirit of the utility model. Various modifications or additions may be made to the described embodiments or alternatives may be employed by those skilled in the art without departing from the spirit or ambit of the utility model as defined in the appended claims.

Claims (10)

1. The forage pressing mechanism of the tertiary feeding machine comprises a rack (1) and a conveying belt (2) horizontally arranged on the rack (1), and is characterized in that a support (4) and a pressing roller (5) are arranged above the conveying belt (2), the axis of the pressing roller (5) is distributed along the width direction of the conveying belt (2), and two ends of the pressing roller (5) are rotatably supported on the support (4); at least two press rollers (5) are distributed along the conveying direction of the conveying belt (2), and the positions of the press rollers (5) are gradually reduced along the conveying direction of the conveying belt (2); the support (4) is hinged with the frame (1) through a rotating shaft (6) which is horizontally arranged, the rotating shaft (6) is arranged in parallel with the press roll (5), and a driving piece (7) which enables the support (4) to swing around the axis of the rotating shaft (6) is arranged on the frame (1); the support (4) is also provided with a rotating mechanism for driving the plurality of press rollers (5) to synchronously rotate.

2. The forage holding mechanism of the cubic feeder according to claim 1, wherein the support (4) comprises two baffles (4a) arranged side by side along the width direction of the conveyor belt (2), and two ends of the press roller (5) are respectively and rotatably supported on the two baffles (4 a); one ends of the two baffles (4a) are hinged with the rack (1) through the rotating shaft (6), and the driving pieces (7) are provided with two parts and are respectively connected with the other ends of the two baffles (4 a).

3. The third-time forage holding mechanism of the feeding machine according to claim 2, wherein a beam (4b) is arranged between the two baffles (4a), the length of the beam (4b) extends along the width direction of the conveyer belt (2), and two ends of the beam (4b) are respectively fixedly connected with the two baffles (4 a).

4. The mechanism for pressing and holding the forage of the tertiary feeding machine according to claim 2 or 3, characterized in that two slots (1a) with the shape and the size matched with the baffle (4a) are formed on the frame (1), the ends of the two baffles (4a) which are not connected with the driving piece (7) are respectively inserted into the two slots (1a), the two rotating shafts (6) are respectively and fixedly arranged in the two slots (1a), and round holes for the corresponding rotating shafts (6) to pass through are arranged on the baffles (4a) in a penetrating way.

5. The mechanism for holding hay of a cubic feeder as defined in claim 4, wherein both ends of the shaft (6) extend out of the slots (1a), one end of the shaft (6) has a ring-shaped protrusion (6a), the other end of the shaft (6) is fixedly provided with the limiting member (8), and the ring-shaped protrusion (6a) and the limiting member (8) are pressed against the outer walls of the slots (1 a).

6. The third-time feeding machine forage holding mechanism according to claim 5, wherein the rotating shaft (6) is provided with a through hole penetrating along the radial direction of the rotating shaft (6), the limiting member (8) is a limiting post clamped in the through hole, and both ends of the limiting post extend out of the through hole and are tightly pressed on the outer wall of the slot (1 a).

7. The third-time forage pressing and holding mechanism of the feeding machine according to claim 5, wherein the limiting member (8) is a nut screwed on the rotating shaft (6), and the end face of the nut is tightly pressed on the outer wall of the slot (1 a).

8. The third-time forage pressing and holding mechanism of the feeding machine as claimed in claim 2, wherein the driving member (7) is a cylinder or an oil cylinder, the driving member (7) comprises a cylinder body and a piston rod, the cylinder body and the piston rod are respectively connected with the frame (1) and the baffle (4a) through a horizontally arranged shaft body, and the shaft body and the rotating shaft (6) are arranged in parallel.

9. The forage holding mechanism of the cubic feeder according to claim 2, wherein both ends of the press roller (5) respectively pass through the two baffles (4a), the rotating mechanism comprises a motor (9) fixed on the cross beam (4b), and the motor (9) drives all the press rollers (5) to rotate synchronously through a transmission structure.

10. The third-time forage holding mechanism of the feeding machine according to claim 9, wherein the transmission structure comprises a driven sprocket (10) fixed at one end of the rotating shaft (6), all the driven sprockets (10) are located at the same side, a driving sprocket (11) is fixed on a main shaft of the motor (9), and the driving sprocket (11) and the driven sprockets (10) are connected through a chain.

Images