CN111561662A - Conveying equipment for rosin - Google Patents

Abstract

The invention relates to a conveying device for rosin. Conveying equipment for rosin includes the box, locates power take off structure on the box and locating filtration in the box, the intercommunication has been seted up on the box inner chamber of the box and external feed port, install the motor on the lateral part of box, the motor with insert pivot in the filtration is connected, be provided with a plurality of helical blade in the pivot, it is a plurality of helical blade follows the axis direction of pivot sets gradually, power take off structure includes casing, power take off spare and power spare, the casing is located on the box, the position that sets up of casing with the position that sets up of feed port is corresponding, the inner chamber of casing holds the chamber for being used for holding the rosin. Conveying equipment for rosin can effectively separate the impurity in the rosin, has avoided the influence of impurity to rosin to improve rosin product quality.

Description

Conveying equipment for rosin

Technical Field

The invention relates to a conveying device for rosin.

Background

Colophonium is secreted from trunk of pine, and is an important raw material for producing rosin and turpentine. Rosin has the properties of moisture resistance, corrosion resistance, insulation and the like, is an important chemical raw material, and is widely applied to industries such as soap, papermaking, paint, rubber and the like; turpentine is an excellent organic solvent, is widely used in industries of paint, drier, adhesive and the like, and can be used as an antitoxic agent, a skin stimulant and the like in medicine.

During the process of collecting the rosin, impurities such as bark wood blocks are easily mixed, and therefore, the rosin is generally viscous semi-fluid with certain moisture and impurities. At present, the homogenization of the conveying equipment for the rosin in the market is serious, and the conveying equipment is difficult to remove impurities in the rosin in the conveying process, so that the use experience of a user is influenced.

Disclosure of Invention

In view of the above, it is necessary to provide a rosin conveying apparatus that addresses the above-described problems.

A conveying equipment for turpentine, the conveying equipment for turpentine includes the box, locate power take off structure on the box and locate the filtration in the box, set up the intercommunication on the box inner chamber and external feed port, install the motor on the lateral part of box, the motor is connected with the pivot of inserting in the filtration, be provided with a plurality of helical blade in the pivot, a plurality of helical blade sets gradually along the axis direction of pivot, power take off structure includes casing, power take off spare and power spare, the casing is located on the box, the position that sets up of casing and the position that sets up of feed port are corresponding, the inner chamber of casing is for the chamber that holds the turpentine, set up the intercommunication on the casing the chamber with the intercommunicating pore of feed port, power take off spare at least part accept in the casing, the power part with expose on the power take off spare and be connected to external one end, filtration includes that the interval sets up first filter and second filter, first filter on offer a plurality ofly with the first micropore of feed port intercommunication, the second filter presss from both sides and locates first filter with between the pivot, the second filter with space between the first filter is for the filter chamber that is used for holding impurity, a plurality of intercommunications have been seted up on the second filter the filter chamber with the second micropore of second filter inner chamber, the rosin via the feed port first micropore filter chamber with the filter chamber and the second micropore flows into in the second filter on the spiral blade.

Further, the hole wall of the first micropore is reduced from the feed hole to the second micropore, and the hole diameter of the first micropore close to the feed hole is larger than the hole diameter of the first micropore close to the second micropore.

Furthermore, the hole wall of the second micropore is reduced from the first micropore to the rotating shaft, and the hole diameter of the second micropore close to the first micropore is larger than the hole diameter of the second micropore close to the rotating shaft.

Further, any one of the second micro-holes is located between two adjacent first micro-holes, and a plurality of the second micro-holes are shielded by the first filter.

Furthermore, it is equipped with the third and filters the piece to hold the intracavity, the third filter is located power take off spare with between the feed port, the third filter be last seted up a plurality ofly with the third micropore of feed port intercommunication.

Furthermore, the hole wall of the third micro-hole decreases from the power output part to the feed hole, and the aperture of the third micro-hole on the side close to the power output part is larger than the aperture of the third micro-hole on the side close to the feed hole.

Further, be equipped with the partition portion in the box, the partition portion is platelike structure, the partition portion will the inner chamber of box separates to establish to first accepting the chamber and the second accepts the chamber, first accepting the chamber is used for holding filtration, the last mounting hole of having seted up of partition portion, the one end of pivot with the motor is connected, the other end of pivot is worn to locate extend to behind the mounting hole in the chamber is accepted to the second, set up a plurality of intercommunications on the partition portion first accept the chamber with the fourth micropore in chamber is accepted to the second.

Furthermore, a slag discharging hole which is communicated with the outside and the first accommodating cavity is formed in the box body, a first sealing element is arranged in the slag discharging hole, a discharging hole which is communicated with the outside and the second accommodating cavity is formed in the box body, and a second sealing element is arranged in the discharging hole.

Further, first sealing member is made by the silica gel material, first sealing member is used for the shutoff arrange the cinder notch, the second sealing member is made by rubber materials, the second sealing member is used for the shutoff the discharge opening.

Further, a movable cover is installed on one side, far away from the motor, of the box body, and the movable cover is used for plugging the second accommodating cavity.

According to the conveying equipment for the rosin, the rosin in the accommodating cavity flows onto the plurality of spiral blades in the second filter piece through the feeding hole, the first micropores and the second micropores under the pushing of the power output piece, and the rosin is viscous semifluid with certain moisture and impurities, so that when the rosin is contacted with the hole wall of the first micropores and the hole wall of the second micropores, the impurities in the rosin can be trapped into the filtering cavity through the hole wall of the first micropores and the hole wall of the second micropores, the impurities in the rosin can be effectively separated, the influence of the impurities on the rosin is avoided, and the quality of rosin products is improved. When the rosin contacts with the plurality of helical blades, the motor drives the rotating shaft to rotate, and then the rosin is conveyed.

Drawings

Fig. 1 is a schematic structural view of a transfer apparatus for rosin according to an embodiment.

FIG. 2 is an enlarged view of a portion of the conveyor apparatus shown in FIG. 1 at A;

FIG. 3 is an enlarged view of a portion of the conveyor apparatus shown in FIG. 1 at B;

FIG. 4 is a schematic structural diagram of a conveying apparatus according to an embodiment;

FIG. 5 is an enlarged view of a portion of the delivery apparatus of FIG. 4 at C;

FIG. 6 is a schematic structural diagram of a conveying apparatus according to an embodiment;

FIG. 7 is an enlarged view of a portion of the delivery apparatus of FIG. 6 at D;

FIG. 8 is a cross-sectional view of a second end face of the conveyor apparatus of FIG. 6; and

FIG. 9 is a schematic structural diagram of a steering assembly according to an embodiment.

Detailed Description

To facilitate an understanding of the invention, the invention will now be described more fully with reference to the accompanying drawings. Preferred embodiments of the present invention are shown in the drawings. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete.

It will be understood that when an element is referred to as being "secured to" another element, it can be directly on the other element or intervening elements may also be present. When an element is referred to as being "connected" to another element, it can be directly connected to the other element or intervening elements may also be present. The terms "vertical," "horizontal," "left," "right," and the like as used herein are for illustrative purposes only and do not represent the only embodiments.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1-3, a rosin conveying apparatus 100 includes a box 10, a power output structure 20 disposed on the box, and a filtering structure 30 disposed in the box, wherein the box is provided with a feeding hole 11 for communicating an inner cavity of the box with the outside, a motor 40 is mounted on a side portion of the box, the motor is connected to a rotating shaft 41 inserted into the filtering structure, the rotating shaft is provided with a plurality of helical blades 42, the helical blades are sequentially disposed along an axial direction of the rotating shaft, the power output structure includes a housing 21, a power output member 22, and a power member 23, the housing is disposed on the box, a position of the housing corresponds to a position of the feeding hole, the inner cavity of the housing is a receiving cavity for receiving rosin, the housing is provided with a communication hole for communicating the receiving cavity with the feeding hole, the power take off part at least part accept in the casing, the power with expose on the power take off part to external one end and be connected, filtration structure includes that the interval sets up first filter piece 31 and second filter piece 32, first filter piece on seted up a plurality ofly with the first micropore 311 of feed port intercommunication, the second filter piece presss from both sides and locates first filter piece with between the pivot, the second filter piece with space between the first filter piece is for being used for holding the filter chamber 312 of impurity, seted up a plurality of intercommunications on the second filter piece the filter chamber with the second micropore 321 of second filter piece inner chamber, the rosin via the feed port first micropore with the second micropore flows into a plurality of in the second filter piece on the spiral blade.

In conclusion, through the power part drives power take off spare removes, the rosin that holds in the chamber is under the promotion of power take off spare, the rosin via the feed port first micropore with the second micropore flows into on the second filters a plurality of on the piece the helical blade, because the rosin is for gluing thick and have certain moisture and impurity semifluid, work as the rosin with first micropore's pore wall, during the pore wall contact of second micropore, first micropore's pore wall, the pore wall of second micropore can with impurity in the rosin is held back to in the filter chamber, can effectively separate the impurity in the rosin, has avoided the influence of impurity to rosin to improve rosin product quality, improved user's use experience. When the rosin contacts with a plurality of helical blade, the motor drives the rotating shaft to rotate, and then the rosin is conveyed.

In this embodiment, the pore wall of the first micropore decreases from the feed port to the second micropore, and the pore diameter of the first micropore on the side close to the feed port is larger than the pore diameter of the first micropore on the side close to the second micropore. When the rosin with the pore wall contact of first micropore, because first micropore is close to the aperture of feed port one side is great, be convenient for the rosin flows in, because first micropore is close to the aperture of second micropore one side is less, is convenient for hold back impurity in the rosin.

In this embodiment, the hole wall of the second micro-hole decreases in the direction from the first micro-hole to the rotation axis, and the hole diameter of the second micro-hole on the side close to the first micro-hole is larger than the hole diameter of the second micro-hole on the side close to the rotation axis. When the rosin with during the pore wall contact of second micropore, because the second micropore is close to the aperture of first micropore one side is great, is convenient for the rosin flows in, because the second micropore is close to the aperture of pivot one side is less, is convenient for hold back impurity in the rosin.

In this embodiment, any one of the second micro holes is located between two adjacent first micro holes, and a plurality of the second micro holes are shielded by the first filter.

In this embodiment, a third filter member 33 is disposed in the accommodating cavity, the third filter member is located between the power output member and the feeding hole, and a plurality of third micropores communicated with the feeding hole are formed in the third filter member.

In this embodiment, the hole wall of the third micro-hole decreases in the direction from the power take-off to the feed hole, and the hole diameter of the third micro-hole on the side close to the power take-off is larger than the hole diameter of the third micro-hole on the side close to the feed hole. When the rosin with the pore wall contact of third micropore, because the third micropore is close to the aperture of power take off one side is great, is convenient for the rosin flows in, because the third micropore is close to the aperture of feed port one side is less, is convenient for hold back impurity in the rosin.

In this embodiment, a partition portion 12 is disposed in the box body, the partition portion is of a plate-shaped structure, the partition portion partitions an inner cavity of the box body into a first accommodating cavity 13 and a second accommodating cavity 14, the first accommodating cavity is used for accommodating the filtering structure, a mounting hole is formed in the partition portion, one end of the rotating shaft is connected with the motor, the other end of the rotating shaft penetrates through the mounting hole and extends into the second accommodating cavity, and a plurality of fourth micro holes 121 communicating the first accommodating cavity with the second accommodating cavity are formed in the partition portion. When the rosin and a plurality of helical blade contact, the motor drive the pivot rotates, and then carry the rosin, the rosin via a plurality of fourth micropore inflow to the second accepts the chamber.

In this embodiment, the box body is provided with a slag discharge hole for communicating the outside with the first accommodating cavity, a first sealing element 16 is arranged in the slag discharge hole, the box body is provided with a discharge hole for communicating the outside with the second accommodating cavity, and a second sealing element 18 is arranged in the discharge hole.

In this embodiment, first sealing member is made by the silica gel material, first sealing member is used for the shutoff arrange the cinder hole, the second sealing member is made by rubber materials, the second sealing member is used for the shutoff discharge opening.

In this embodiment, a movable cover 19 is installed on a side of the box body away from the motor, and the movable cover is used for blocking the second accommodating cavity to prevent the rosin in the second accommodating cavity from leaking to the outside.

Referring to fig. 1 to 5, it can be understood that, in one embodiment, an opening 51 communicating the second receiving cavity with the outside is formed in the box, a fixing member 52 is disposed in the second receiving cavity, one end of the fixing member is fixed to the partition portion, the other end of the fixing member extends toward the movable cover, a fixing opening is formed in the fixing member, a space between the fixing member and the box is an isolation cavity 53, and the rosin conveying apparatus further includes an operating assembly 60 disposed in the opening.

Specifically, in order to facilitate observation of the volume of the rosin in the second receiving chamber and whether the rosin in the second receiving chamber contains impurities, the operating assembly includes a first cylindrical member 61, a second cylindrical member 62, a pressing member 63, a liquid outlet member 64, and an observation member 65. The periphery of the opening and the periphery of the fixing opening are both made of flexible materials, the first cylinder piece is inserted into the opening to close the opening, the first cylinder piece comprises a first side wall 611 and a first end surface 612, the first end surface is located in the second accommodating cavity, the first side wall is arranged around the periphery of the first end surface, and the outer side of the first side wall abuts against the side wall of the opening and the side wall of the fixing opening. The outer diameter of the first side wall is gradually increased along the direction far away from the first end face. The first side wall is provided with a limiting member 613 and an elastic sealing member 614 in a protruding manner, the limiting member and the elastic sealing member are sequentially arranged along the axial direction of the first side wall from top to bottom, the elastic sealing member is arranged adjacent to the first end surface and surrounds the first side wall, and the top surface of the elastic sealing member abuts against the bottom surface periphery of the fixed port in a sealing manner. The limiting piece surrounds the first side wall, is located in the isolation cavity and is arranged at an interval with the second accommodating cavity. The first side wall is further provided with two liquid inlet holes 615, the two liquid inlet holes are oppositely formed, and the two liquid inlet holes are sealed by the side wall of the fixing port. Second barrel spare liftable set up in the first barrel spare, second barrel spare includes second terminal surface 621 and second lateral wall 622, the second terminal surface with first terminal surface is the interval setting each other, the second lateral wall encircles the second terminal surface sets up, the external diameter of second lateral wall is along keeping away from the direction of second terminal surface increases gradually. Go out liquid piece set up in the second barrel spare, the bottom of going out liquid piece is worn to locate on the second terminal surface and towards the first terminal surface of first barrel spare extends, it can for to go out liquid piece axial rebound and axial downstream, be provided with liquid water in the extruded piece, the extruded piece set up in go out the top of liquid piece, it locates to observe a protruding orientation on the second terminal surface and towards first terminal surface extends, the concave groove that burns of top surface of first terminal surface, the position in the groove that burns dry with the position of observing is corresponding. The distance between the bottom end of the observation piece and the bottom surface of the second end surface is smaller than the distance between the bottom end of the liquid outlet piece and the bottom surface of the second end surface.

When the volume of the rosin in the second accommodating cavity needs to be observed and whether the rosin in the second accommodating cavity contains impurities or not, the extrusion piece is extruded, and a drop of clear water is dripped onto the first end face through the liquid outlet piece, so that the clear water is not in contact with the second end face. The clean water is contracted into an ellipse on the first end surface due to the surface tension of the clean water. For example, the extrusion piece is used for dripping liquid water onto the first end surface through the liquid outlet piece during extrusion, so that the liquid water is contracted to form a convex lens structure. The user can open the observation piece and observe the turpentine in the second containing cavity by using the convex lens structure. The convex lens structure has an expansion effect and can improve observation precision. After the observation is finished, the second cylinder part is pressed downwards, the second cylinder part is bent to the liquid outlet part so as to destroy the convex lens structure, and therefore a flat water surface is formed, the observation part moves into the burning groove at the moment, namely the observation part is located at the lowest position of liquid, and the observation part burns the liquid through the heat of the observation part, so that the next observation is facilitated. Through setting up first barrel spare with second barrel spare, both convenient the closure the chamber is acceptd to the second, is convenient for again observe the rosin in the chamber is acceptd to the second.

Specifically, the first end face and the second end face are both made of a transparent material, for example, in the present embodiment, the first end face and the second end face are both made of a glass material. It is understood that, in another embodiment, in order to facilitate the observation of the rosin in the second receiving cavity, the first side wall and the second side wall are made of a transparent material, and the transparent material includes, but is not limited to, glass and the like.

Specifically, after the observation is finished, the second cylinder piece is pressed downwards, the liquid outlet piece can be bent by the second cylinder piece after being contacted with the first end face, and at least part of the liquid outlet piece is made of soft materials such as silica gel or rubber.

Specifically, observe the piece and be the LED bulb, work as observe the piece and remove the entering burn dry tank, observe the piece and utilize the heat of self to improve the heat of first terminal surface, and then make first terminal surface burns futilely liquid to observe next time.

Specifically, one side of the extrusion piece is provided with a one-way injection hole, and when the liquid in the extrusion piece is insufficient, the liquid can be filled into the extrusion piece through the one-way injection hole.

Further, when observing that the volume of the rosin in the second accommodating cavity is more, but can not accurately distinguish whether the rosin in the second accommodating cavity contains impurities, in order to take out the rosin sample for detection, a positioning part 623 is convexly arranged in the first side wall of the first cylinder part, two elastic parts 624 are arranged on the positioning part, and the distance between the two elastic parts is smaller than the inner diameter of the positioning part. The second side wall of the second cylinder part is pressed against the two elastic parts. When observation is required, the second side wall of the second barrel part is pressed against the two elastic parts. And when the sample of rosin needs to be taken out, the second cylinder part continues to be pressed downwards, the second cylinder part is opposite to the first cylinder part and descends, the second side wall of the second cylinder part extrudes the two elastic parts to deform and finally abut against the positioning part, the second cylinder part drives the first cylinder part to wholly descend until the limiting part on the first cylinder part abuts against the top surface of the fixing part, at the moment, the elastic sealing part is separated from the periphery of the fixing port and enters the rosin, the two liquid inlet holes are separated from the side wall of the fixing port and enter the rosin, and the rosin enters the first cylinder part through the two liquid inlet holes. After that, the second cylinder body part is pulled upwards until the elastic sealing element abuts against the bottom surface of the periphery of the fixing opening, and the material of the periphery of the fixing opening is elastically deformed and is matched with the elastic sealing element to tightly close the fixing opening. And then pulling out the second cylinder part, and sucking up the rosin in the first cylinder part by using the liquid outlet part for subsequent observation and experiment.

Specifically, when the user accurately identifies that the rosin in the second accommodating cavity is free of impurities, the second sealing element can be taken out, so that the discharge hole is opened, and at the moment, the rosin can flow out of the outside through the discharge hole.

Specifically, the movable cover includes a movable cover body 191 provided on the box body, and a pushing portion 192 and a guiding portion 193 provided on the movable cover body. The pushing portion and the guiding portion are located in the second accommodating cavity, the pushing portion is in threaded connection with the box body, an external thread section is arranged on the outer surface of the pushing portion, an internal thread section is arranged on the cavity wall of the second accommodating cavity, the setting position of the external thread section corresponds to the setting position of the internal thread section, and when the external thread section is connected with the internal thread section, the movable cover is rotated, so that the movable cover can move towards the control assembly. In addition, the one end of guide portion with removable cover body fixed connection, the other end slope downwardly extending of guide portion rotates the removable cover, can make the removable cover towards the in-process that the manipulation subassembly removed, the one end of keeping away from the removable cover body in the guide portion is close to the feed liquor hole, push away to the portion and promote the rosin on the second accepts the cavity wall drops to on the guide portion, in the user's process of taking out the rosin sample, the whole decurrent in-process of first barrel spare, because the guide portion is a downward inclined plane of slope, under the action of gravity, the rosin that drops to on the guide portion can pass through the feed liquor hole gets into in the first barrel spare. In addition, the pushing part can push the rosin to the discharge hole, so that the waste of the rosin is avoided.

Referring to fig. 1-8, rosin is a semi-fluid that is generally viscous and contains some moisture and impurities. When the temperature of the rosin is lower, the fluidity is poorer, and the phenomenon of conveying is easy to appear.

In an embodiment, the pivot is hollow tubular structure, the inner chamber of pivot is for being used for holding the stock solution chamber of liquid, adhere to on the internal surface of pivot by the heater strip, the heater strip is used for heating liquid in the stock solution chamber, the rosin is at the in-process of being carried, the heater strip heating liquid in the stock solution chamber to carry out the heat exchange with the rosin that carries, effectively improve the temperature of rosin, guarantee the mobility of rosin, increase conveying efficiency.

In one embodiment, when one end of the rotating shaft, which is far away from the motor, extends to the outside, the rotating shaft touches a human body, so that potential safety hazards are generated. One end of the rotating shaft, which is far away from the motor, is accommodated in the second accommodating cavity.

When the conveying equipment for turpentine stops using, in order to facilitate filling of liquid into the rotating shaft by a user, a waist-shaped arc groove 625 is formed in the second end face, a telescopic groove is formed in one end groove wall of the waist-shaped arc groove, two sliding grooves are formed in the groove wall of the telescopic groove at intervals from top to bottom, an elastic telescopic sheet 626 is movably arranged in the telescopic groove and is made of rubber materials, one end of the elastic telescopic sheet is contained in the telescopic groove, the other end of the elastic telescopic sheet is fixedly connected with the liquid outlet piece, two sliding rails are arranged in the part, contained in the telescopic groove, of the elastic telescopic sheet at intervals from top to bottom, and are respectively located in the two sliding grooves, so that the liquid outlet piece can move in the waist-shaped arc groove.

The rotating shaft is provided with a first single sealing element 627, a second single sealing element 628 is arranged on the first end face, the setting position of the second single sealing element corresponds to the setting position of the first single sealing element, the setting position of the second single sealing element corresponds to the setting position of the waist-shaped arc groove, the second single sealing element is located on one side, away from the telescopic groove, of the waist-shaped arc groove, and the first single sealing element and the second single sealing element are both check valves. When the liquid outlet piece moves to one side of the waist-shaped arc groove close to the telescopic groove, the specific operation steps of observing the volume of the rosin in the second accommodating cavity, observing whether the rosin in the second accommodating cavity contains impurities and taking out a rosin volume sample for detection are as described above, and are not described herein again. When the liquid outlet piece moves to one side, far away from the telescopic groove, of the waist-shaped arc groove, the position of the liquid outlet piece is opposite to the first single sealing piece and the second single sealing piece, the liquid outlet piece is pressed downwards to enable the liquid outlet piece to be in contact with the second single sealing piece, the second single sealing piece is opened gradually as the internal pressure of the second single sealing piece is increased gradually, the liquid outlet piece can penetrate through the second single sealing piece and extend to the first single sealing piece, the liquid outlet piece is pressed downwards continuously to enable the liquid outlet piece to be in contact with the first single sealing piece, the first single sealing piece is opened gradually as the internal pressure of the first single sealing piece is increased gradually, and liquid in the extrusion piece can flow into the liquid storage cavity through the liquid outlet piece. When the extrusion part finishes liquid injection into the liquid storage cavity through the liquid outlet part, the first single sealing part and the second single sealing part are automatically closed under the action of self elasticity by upwards drawing the liquid outlet part, so that liquid leakage in the liquid storage cavity is prevented.

Referring to fig. 1 to 9 together, it can be understood that the apparatus for delivering rosin is provided with a pressing member 66 and a liquid outlet pipe 67 separately in another embodiment. Specifically, the control assembly further comprises a pressing piece 66 and a liquid outlet pipe 67, the liquid outlet pipe sequentially penetrates through the second end face and the first end face, the liquid outlet pipe can move axially upwards and downwards relative to the first end face and the second end face, liquid water is arranged in the pressing piece, and the pressing piece is arranged at the top end of the liquid outlet pipe. When the volume of the rosin in the second accommodating cavity needs to be observed, whether the rosin in the second accommodating cavity contains impurities or not and a rosin volume sample is taken out for detection can be observed through the liquid outlet piece, and the specific operation steps are as described above and are not described herein again. When liquid needs to be filled into the rotating shaft, the operation can be performed by operating the liquid outlet pipe, and the specific operation steps are as described above and are not described herein again.

The technical features of the embodiments described above may be arbitrarily combined, and for the sake of brevity, all possible combinations of the technical features in the embodiments described above are not described, but should be considered as being within the scope of the present specification as long as there is no contradiction between the combinations of the technical features.

The above embodiments only express several embodiments of the present invention, and the description thereof is more specific and detailed, but not construed as limiting the scope of the present invention. It should be noted that, for a person skilled in the art, several variations and modifications can be made without departing from the inventive concept, which falls within the scope of the present invention. Therefore, the protection scope of the present patent shall be subject to the appended claims.

Claims (10)

1. The conveying equipment for the turpentine is characterized by comprising a box body, a power output structure arranged on the box body and a filtering structure arranged in the box body, wherein a feeding hole communicated with the inner cavity of the box body and the outside is formed in the box body, a motor is arranged on the side part of the box body and is connected with a rotating shaft inserted into the filtering structure, a plurality of spiral blades are arranged on the rotating shaft and are sequentially arranged along the axial direction of the rotating shaft, the power output structure comprises a shell, a power output part and a power part, the shell is arranged on the box body, the arrangement position of the shell corresponds to the arrangement position of the feeding hole, an inner cavity of the shell is an accommodating cavity used for accommodating the turpentine, and a communication hole communicated with the accommodating cavity and the feeding hole is formed in the shell, the power take off part at least part accept in the casing, the power with expose on the power take off part to external one end and be connected, filtration structure includes that the interval sets up first filter and second filter, first filter on offer a plurality ofly with the first micropore of feed port intercommunication, second filter presss from both sides and locates first filter with between the pivot, second filter with space between the first filter is for being used for holding impurity's filter chamber, second filter is last to have offered a plurality of intercommunications filter chamber with the second micropore of second filter inner chamber, the rosin via the feed port first micropore filter chamber and the second micropore flows into in the second filter a plurality of on the spiral blade.

2. The conveying apparatus for rosin according to claim 1, wherein a hole wall of said first fine hole decreases in a direction from said feed hole to said second fine hole, and a hole diameter of said first fine hole on a side close to said feed hole is larger than a hole diameter of said first fine hole on a side close to said second fine hole.

3. The apparatus for transporting rosin according to claim 2, wherein the hole wall of the second micro-hole decreases in the direction from the first micro-hole to the rotating shaft, and the hole diameter of the second micro-hole on the side close to the first micro-hole is larger than the hole diameter of the second micro-hole on the side close to the rotating shaft.

4. The apparatus according to claim 3, wherein any one of said second pores is located between two adjacent ones of said first pores, and a plurality of said second pores are shielded by said first filter.

5. The apparatus according to claim 4, wherein a third filter member is disposed in the accommodating chamber, the third filter member is disposed between the power take-off member and the inlet hole, and the third filter member has a plurality of third pores communicating with the inlet hole.

6. The apparatus according to claim 5, wherein the hole wall of the third fine hole decreases in the direction from the power take-off to the feed hole, and the hole diameter of the third fine hole on the side closer to the power take-off is larger than the hole diameter of the third fine hole on the side closer to the feed hole.

7. The rosin conveying apparatus according to claim 6, wherein a partition is provided in the box, the partition has a plate-like structure, the partition partitions an inner cavity of the box into a first receiving cavity and a second receiving cavity, the first receiving cavity is used for receiving the filter structure, the partition is provided with a mounting hole, one end of the rotating shaft is connected to the motor, the other end of the rotating shaft extends into the second receiving cavity after passing through the mounting hole, and the partition is provided with a plurality of fourth micro holes communicating the first receiving cavity with the second receiving cavity.

8. The conveying equipment for rosin as claimed in claim 7, wherein said box body is provided with a slag discharge hole communicating with the outside and said first receiving chamber, said slag discharge hole is provided with a first sealing member, said box body is provided with a discharge hole communicating with the outside and said second receiving chamber, and said discharge hole is provided with a second sealing member.

9. The conveying equipment for rosin according to claim 8, wherein said first sealing member is made of a silicone material, said first sealing member is used for blocking said slag discharge hole, said second sealing member is made of a rubber material, and said second sealing member is used for blocking said discharge hole.

10. The apparatus according to claim 9, wherein a movable cover is mounted on a side of the casing away from the motor, and the movable cover is used for sealing the second receiving cavity.

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