CN221178732U - Automatic cutting device for rosin exploitation - Google Patents

Abstract

The utility model discloses an automatic cutting device for rosin exploitation, which is characterized in that a triangular handheld frame, a driving sprocket positioning shaft, an arc chute, a pulley and a first motor are arranged on a U-shaped positioning plate, a motor positioning seat is welded on the U-shaped positioning plate, a bearing is arranged below the whole cutting device and is arranged in the arc chute through the bearing, a trapezoid connecting piece is arranged together with a first chain and a feeding chute, a small pulley is arranged on the side edge of the arc chute, the first driving sprocket is connected with the motor, a blade is arranged on the blade positioning seat through a bolt, the blade positioning seat is arranged on a fourth driving sprocket, and the motor and the driving sprocket are arranged together and then transmit power through the chain. The utility model can realize the electric exploitation of rosin and solve the problem of low exploitation efficiency of rosin harvesting at present.

Description

Automatic cutting device for rosin exploitation

Technical Field

The utility model relates to the technical field of rosin exploitation equipment, in particular to an automatic cutting device for rosin exploitation.

Background

The existing rosin collection mode is mainly descending collection and drilling type collection, the adopted exploitation tool is relatively traditional, and is mainly a grease exploitation knife, and the grease exploitation tool is long in time consumption, high in labor consumption and low in grease exploitation efficiency. The operation requirements of the new rosin exploitation device in recent years are high. With the development of the mechanized industry, the development of rosin is not mechanized all the time due to the complexity of the terrain and the difficulty of the development. At present, the exploitation of rosin still depends on manpower.

Disclosure of utility model

The utility model aims to provide an automatic cutting device for rosin exploitation, which can reduce the labor cost, lighten the labor intensity, has strong practicability, is convenient to operate, and is quick and efficient.

The utility model provides a technical scheme that the automatic cutting device for rosin exploitation comprises a U-shaped locating plate, a triangular handheld frame, a first motor, a second motor, a first motor locating seat, a second motor locating seat, an arc-shaped chute, a first transmission chain wheel, a second transmission chain wheel, a first pulley, a second pulley, a first chain, a first fixing screw, a second fixing screw, a first bearing, a trapezoid connecting piece, an arc-shaped sliding block, a feeding chute, a first round table roller, a second round table roller, a locating seat, a rotating handle, a second bearing, a third transmission chain wheel, a fourth transmission chain wheel, a second chain, a blade locating seat and a blade, wherein the specific structure and the connection relation of the component are as follows:

The three-dimensional cutter comprises a triangular handheld frame, a first driving sprocket, a second driving sprocket, a first fixing screw and a second fixing screw, wherein the lower part of a U-shaped locating plate is provided with an arc-shaped chute in a welding mode, the lower part of the U-shaped locating plate is provided with a first motor locating seat in a welding mode, the second motor locating seat is welded on a feeding chute, a first pulley and a second pulley are arranged on the arc-shaped chute, the first motor and the second motor are fixed on the first motor locating seat and the second motor locating seat through locating bolts, a first bearing is arranged on a rotating shaft below the feeding chute and is arranged in the arc-shaped chute, a trapezoid connecting piece is used for connecting a first chain with the feeding chute through a fixing shaft, an arc-shaped sliding block is arranged on a groove above the trapezoid connecting piece and the arc-shaped chute, a rotating handle is arranged on the feeding chute and the locating seat, a first round table roller and a second round table roller are arranged on the rotating shaft below the locating seat, a third driving sprocket is arranged on the second motor rotating shaft through the fixing screw, a second bearing is arranged on the locating seat, a fourth driving sprocket is arranged on the second bearing, a fourth driving sprocket is arranged on the second bearing, a cutter blade is arranged on the fourth driving sprocket and a cutter blade is arranged on the fourth driving sprocket through the fixing sprocket.

The front end of the U-shaped locating plate is 40cm wide.

The first round platform roller and the second round platform roller are rollers with one end having a large diameter and the other end having a small diameter, the upper part of the rollers is a plane, and the diameter of the large end is equal to the width of the feeding chute.

The rotating handle is arranged on a nut fixed on the side face of the feeding chute, and the tail end of the rotating handle is contacted with a baffle plate on the positioning seat.

The diameter of the first bearing is equal to the width of the arc chute.

Compared with the prior art, the utility model has the beneficial effects that:

1. The first motor is used for providing power for the first chain to rotate, the first chain drives the cutter structure to realize arc-shaped movement, and the second motor is used for providing power for the second chain to rotate, so that the blade can cut pine bark, and exploitation of rosin is realized. When the cutter is used, the U-shaped locating plate is only required to be aligned with pine, cutting feed is adjusted, exploitation of rosin can be achieved, labor intensity of manual exploitation is reduced, and efficiency of rosin exploitation is improved.

2. The device adopts the battery to provide power for the motor, saves energy, reduces emission, protects the environment, and uses conveniently, does not receive the restriction of open-air no alternating current.

3. The device is small and light, simple in structure and easy to operate.

Drawings

Fig. 1 is a block diagram of an automatic cutting device for rosin exploitation according to the present utility model.

Fig. 2 is a rear view of the automatic cutting device for rosin exploitation according to the present utility model.

Fig. 3 is a view showing a cutter part of the automatic cutting device for rosin exploitation according to the present utility model.

Fig. 4 is a rear view showing the structure of a cutter portion of the automatic cutting device for rosin exploitation according to the present utility model.

Marked in the figure as: the three-dimensional hand-held frame 1, the U-shaped positioning plate 2, the first fixing screw 3, the second fixing screw 4, the first motor 5, the arc chute 6, the first fixing screw 7, the second fixing screw 8, the first driving sprocket 9, the first driving sprocket fixing nut 10, the first chain 11, the first pulley fixing screw 12, the second pulley fixing screw 13, the second driving sprocket fixing nut 14, the second driving sprocket 15, the feeding chute 16, the positioning seat 17, the rotating handle 18, the second chain 19, the third driving sprocket 20, the first blade fixing screw 21, the second blade fixing screw 22, the blade 23, the third blade fixing screw 24, the first pulley 25, the second pulley 26, the first motor positioning seat 27, the second motor 28, the first trapezoidal connecting member 29, the first bearing 30, the first round table roller 31, the second round table 32, the second bearing 33, the second motor positioning seat 34, the fourth driving sprocket 35, the fixing screw 36, the first fixing shaft 37, the second fixing shaft 38, the arc slider 39, the second trapezoidal connecting member 40, the third blade positioning seat 41, the third blade fixing screw 24, the first pulley 25, the second fixing shaft 48, the feeding screw 46, the feeding screw fixing nut 46, the third fixing shaft 45, the feeding screw fixing nut 46.

Detailed Description

The technical scheme of the present utility model will be clearly and completely described in the following in conjunction with the accompanying drawings and examples.

It should be noted that, in the description of the present utility model, unless explicitly specified and limited otherwise, the terms "connected" and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, integrally connected, mechanically connected, or electrically connected; either directly or indirectly via an intermediary. The specific meaning of the above terms in the present utility model can be understood by those of ordinary skill in the art according to the specific circumstances.

In the description of the present utility model, unless otherwise indicated, the meaning of "a plurality" is two or more; the terms "upper," "lower," "left," "right," "inner," "outer," "front," "rear," "head," "tail," and the like are used as an orientation or positional relationship based on that shown in the drawings, merely to facilitate description of the utility model and to simplify the description, and do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and therefore should not be construed as limiting the utility model. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

As shown in fig. 1 to 4, the automatic cutting device for rosin exploitation according to the present utility model comprises the following components: the three-dimensional hand-held frame 1, the U-shaped positioning plate 2, the first fixing screw 3, the second fixing screw 4, the first motor 5, the arc chute 6, the first fixing screw 7, the second fixing screw 8, the first driving sprocket 9, the first driving sprocket fixing nut 10, the first chain 11, the first pulley fixing screw 12, the second pulley fixing screw 13, the second driving sprocket fixing nut 14, the second driving sprocket 15, the feeding chute 16, the positioning seat 17, the rotating handle 18, the second chain 19, the third driving sprocket 20, the first blade fixing screw 21, the second blade fixing screw 22, the blade 23, the third blade fixing screw 24, the first pulley 25, the second pulley 26, the first motor positioning seat 27, the second motor 28, the first trapezoidal connecting member 29, the first bearing 30, the first round table roller 31, the second round table 32, the second bearing 33, the second motor positioning seat 34, the fourth driving sprocket 35, the fixing screw 36, the first fixing shaft 37, the second fixing shaft 38, the arc slider 39, the second trapezoidal connecting member 40, the third blade positioning seat 41, the third blade fixing screw 24, the first pulley 25, the second fixing shaft 48, the feeding screw 46, the feeding screw fixing nut 46, the third fixing shaft 45, the feeding screw fixing nut 46. The specific structure and connection relation of the component members are as follows:

The triangular handheld frame 1, the first driving sprocket 9, the second driving sprocket 15, the first fixing screw 3 and the second fixing screw 4 are arranged on the U-shaped locating plate 2, an arc chute 6 is welded above the U-shaped locating plate 2, a first motor locating seat 27 is welded below the U-shaped locating plate 2, a second motor locating seat 34 is welded on the feeding chute 16, a first pulley 25 and a second pulley 26 are arranged on the arc chute 6 through a first pulley fixing bolt 12 and a second pulley fixing bolt 13, a first fixing nut 46 and a second fixing nut 47 are fixed below the U-shaped locating plate 2, the first fixing screw 3 and the second fixing screw 4 are arranged below the U-shaped locating plate 2 through a first fixing nut 46 and a second fixing nut 47, a first motor 5 and a second motor 28 are fixed on the first motor locating seat 27 and the second motor locating seat 34 through a first fixing bolt 7 and a second fixing bolt 8, the first driving sprocket fixing nut 10 is installed on the rotating shaft of the first motor 5, the second driving sprocket fixing nut 14 is installed on the rotating shaft of the second motor 28, the first bearing 30 is connected with the rotating shaft below the feeding chute 16 and installed in the arc chute 6, the first trapezoid connecting piece 29 and the second trapezoid connecting piece 40 connect the first chain 11 and the feeding chute 16 together through the first fixed shaft 37, the second fixed shaft 38, the third fixed shaft 42 and the fourth fixed shaft 43, the arc slider 39 is installed on the second trapezoid connecting piece 40, the feeding baffle 44 is welded on the positioning seat 17, the feeding nut 45 is welded on the feeding chute 16, the rotating handle 18 comprises a handle 48, a rotating wheel 49 and a feeding bolt 50, the handle 48 is installed on the outer edge of the rotating wheel 49, the feeding bolt 50 is installed at the center of the rotating wheel 49, the feeding bolt 50 is screwed with the feeding nut 45 and then contacts with the feeding baffle 44, the first round table roller 31, the second round table roller 32 are installed below the positioning seat 17, the third driving sprocket 20 is installed on the rotating shaft of the second motor 28 through a fixing screw 36, the second bearing 33 is installed on the positioning seat 17, the fourth driving sprocket 35 is installed on the second bearing 33, the blade positioning seat 41 is fixed on the fourth driving sprocket 35, the second chain 19 is installed on the third driving sprocket 20 and the fourth driving sprocket 35, and the blade 23 is installed on the blade positioning seat 41 through the first blade fixing bolt 21, the second blade fixing bolt 22 and the third blade fixing bolt 24.

The front end of the U-shaped locating plate 2 is 40cm wide.

The first round table roller 31 and the second round table roller 32 are rollers with a large diameter at one end and a small diameter at the other end, a plane is arranged above the rollers, and the diameter of the large end is equal to the width of the feeding chute 16.

The rotating handle 18 is arranged on a feed nut 45 welded on the side surface of the feed chute 16, and the tail end of the rotating handle is contacted with a feed baffle 44 on the positioning seat 17.

The diameter of the first bearing 30 is equal to the width of the arc chute 6.

Working principle:

The storage battery simultaneously supplies power to the first motor 5 and the second motor 28, the first motor 5 transmits driving force to the first driving sprocket 9, the first driving sprocket 9 transmits driving force to the second driving sprocket 15 through the first chain 11, the first chain 11 is connected with the feeding chute 16, the first bearing 30 is arranged on a rotating shaft below the feeding chute 16, the first bearing 30 is positioned in the chute 16, the diameter of the first bearing 30 is equal to the width of the arc chute 6, so that the movement of the first chain 11 can be converted into the rotation of the first bearing 30, the second motor 28 transmits driving force to the third driving sprocket 20, the third driving sprocket 20 transmits driving force to the fourth driving sprocket 35 through the second chain 19, the fourth driving sprocket 35 is fixed on the second bearing 33, the blade positioning seat 41 is fixed on the fourth driving sprocket 35, and the blade 23 is arranged on the blade positioning seat 41, so that the rotation of the second motor 28 is finally converted into the rotation of the blade 23. When cutting, the blade 23 is a movable knife, the whole device is fixed on pine tree through the fixed screws 3 and 4, the rotating handle 18 is adjusted to align the blade 23 with the bark of the pine tree, and the first motor 5 and the second motor 28 rotate simultaneously to realize exploitation of rosin.

Claims (5)

1. The utility model provides an automatic cutting device of rosin exploitation, the component includes U type locating plate, triangle handheld frame, first motor, second motor, first motor positioning seat, second motor positioning seat, arc spout, first drive sprocket, second drive sprocket, first pulley, second pulley, first chain, first fixing screw, second fixing screw, first bearing, trapezoidal connecting piece, arc slider, feed spout, first round platform gyro wheel, second round platform gyro wheel, positioning seat, twist grip, second bearing, third drive sprocket, fourth drive sprocket, second chain, blade positioning seat and blade, its characterized in that, the specific structure and the relation of connection of component are:

The three-dimensional cutter comprises a triangular handheld frame, a first driving sprocket, a second driving sprocket, a first fixing screw and a second fixing screw, wherein the lower part of a U-shaped locating plate is provided with an arc-shaped chute in a welding mode, the lower part of the U-shaped locating plate is provided with a first motor locating seat in a welding mode, the second motor locating seat is welded on a feeding chute, a first pulley and a second pulley are arranged on the arc-shaped chute, the first motor and the second motor are fixed on the first motor locating seat and the second motor locating seat through locating bolts, a first bearing is arranged on a rotating shaft below the feeding chute and is arranged in the arc-shaped chute, a trapezoid connecting piece is used for connecting a first chain with the feeding chute through a fixing shaft, an arc-shaped sliding block is arranged on a groove above the trapezoid connecting piece and the arc-shaped chute, a rotating handle is arranged on the feeding chute and the locating seat, a first round table roller and a second round table roller are arranged on the rotating shaft below the locating seat, a third driving sprocket is arranged on the second motor rotating shaft through the fixing screw, a second bearing is arranged on the locating seat, a fourth driving sprocket is arranged on the second bearing, a fourth driving sprocket is arranged on the second bearing, a cutter blade is arranged on the fourth driving sprocket and a cutter blade is arranged on the fourth driving sprocket through the fixing sprocket.

2. The automatic cutting device for rosin exploitation according to claim 1, wherein: the front end of the U-shaped locating plate is 40cm wide.

3. The automatic cutting device for rosin exploitation according to claim 1, wherein: the first round platform roller and the second round platform roller are rollers with one end having a large diameter and the other end having a small diameter, the upper part of the rollers is a plane, and the diameter of the large end is equal to the width of the feeding chute.

4. The automatic cutting device for rosin exploitation according to claim 1, wherein: the rotating handle is arranged on a nut fixed on the side face of the feeding chute, and the tail end of the rotating handle is contacted with a baffle plate on the positioning seat.

5. The automatic cutting device for rosin exploitation according to claim 1, wherein: the diameter of the first bearing is equal to the width of the arc chute.