CN115753237A - Sampling device of tea-seed oil production - Google Patents

Abstract

The invention discloses a sampling device for tea oil production, and relates to the technical field of tea oil production; in order to solve the problem that the tea oil suction amount cannot be controlled; the sampling device comprises a sampling cylinder, wherein a plurality of sample cavities are formed in the circumferential inner wall of the sampling cylinder, the inner walls of the sample cavities are connected with the same piston extracting structure in a sliding manner, inclined through holes are formed in the circumferential outer wall of the sampling cylinder, which is opposite to each sample cavity, the inner walls of the inclined through holes are connected with a blocking plate in a sliding manner, and the top surfaces of a sealing block and the blocking plate are provided with the same sampling amount limiting part; a cylindrical seat is arranged on the outer wall of the top of the sampling cylinder, and a driving structure is arranged inside the cylindrical seat; the outer wall that the sampling tube is close to the bottom is provided with protective structure, and protective structure is including setting up in the storage box of sampling tube outer wall, setting up in storage box circumference inner wall and with the long section of thick bamboo chamber of sampling tube formation sliding fit. The invention is convenient to automatically control the oil liquid drawing amount, and avoids the waste caused by insufficient or excessive oil liquid drawing.

Description

Sampling device of tea-seed oil production

Technical Field

The invention relates to the technical field of tea oil production, in particular to a sampling device for tea oil production.

Background

The tea oil is commonly known as camellia oil, also called camellia oil and camellia seed oil, is pure natural high-grade edible plant oil extracted from common mature camellia seeds of camellia plants in the camellia family, and has golden or light yellow color, pure quality, clarity, transparency, faint scent and pure taste. At present, when oil tea production and processing are carried out, the raw material of the oil tea needs to be sampled so as to carry out quality detection, so as to ensure whether the processing requirement can be met.

Among the prior art, when the sampling device of tea-seed oil processing usefulness was taken a sample to tea-seed oil, it was difficult to carry out automatic control to the fluid sample and draws the volume, often because draw the volume too much and lead to the extravagant condition of unnecessary resource to take place, consequently, need improve here.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a sampling device for tea oil production.

In order to achieve the purpose, the invention adopts the following technical scheme:

a sampling device for tea oil production comprises a sampling cylinder, wherein a plurality of sample cavities are formed in the inner wall of the circumference of the sampling cylinder, the inner walls of the plurality of sample cavities are connected with the same piston extracting structure in a sliding mode, inclined through holes are formed in the outer wall, facing each sample cavity, of the circumference of the sampling cylinder, the inner wall of each inclined through hole is connected with a blocking plate in a sliding mode, and the top faces of a sealing block and the blocking plate are provided with the same sampling amount limiting portion;

the outer wall of the top of the sampling cylinder is provided with a cylindrical seat, and a driving structure is arranged inside the cylindrical seat;

the outer wall of the sampling cylinder, which is close to the bottom end, is provided with a protection structure, and the protection structure comprises a storage box arranged on the outer wall of the sampling cylinder, a long cylinder cavity arranged on the circumferential inner wall of the storage box and in sliding fit with the sampling cylinder, and a protection sleeve sleeved on the outer wall of the storage box;

the outer wall of storage box is provided with the angle modulation supporting part.

Preferably: the sampling amount limiting part comprises a continuous tying rope, a sliding wheel, a separating plate and a spring, wherein one end of the continuous tying rope is arranged on the top surface of the sealing block, the sliding wheel is fixed on the inner wall of the sampling barrel, the separating plate is fixed on the inner wall of the sampling barrel, the spring is fixedly connected to the bottom surface of the separating plate and the top surface of the separating plate, the continuous tying rope is arranged on the outer wall of the sliding wheel, and the other end of the continuous tying rope penetrates through the inner wall of the separating plate and then is arranged on the top surface of the separating plate.

Preferably: the driving structure comprises a motor fixed on the inner wall of the top of the cylindrical seat, a movable cavity arranged on the inner wall of the cylindrical seat, a movable plate connected to the inner wall of the movable cavity in a sliding mode, and a threaded column arranged on the inner wall of the movable cavity, wherein two ends of the threaded column are respectively connected to the inner wall of the top of the movable cavity and the inner wall of the bottom of the movable cavity in a rotating mode, the output end of the motor is connected with the top end of the threaded column through a connecting shaft, and the top end of the connecting column is fixedly connected to the bottom face of the movable plate.

Preferably: piston extraction structure comprises the spliced pole and the sealed piece that is equidistance formula fixed connection in spliced pole cylinder outer wall, and the quantity of sealed piece is the same with the quantity in sample chamber.

Preferably: the top end of the storage box is fixedly connected with a wire winding box, the interior of the wire winding box is rotatably connected with a wire roller, the outer wall of the wire roller is provided with a traction rope, and one end of the traction rope is arranged at the top end of the cylindrical seat;

one side of the wire coil box is rotatably connected with a handle, and one end of the handle is connected with one end of the wire roller through a connecting shaft.

Preferably: the angle modulation supporting part is including the backup pad that is fixed in storage box circumference outer wall, two settings in the regulation post of backup pad both sides inner wall, be fixed in the regulation pivot of adjusting the capital end, set up in the suction nozzle of adjusting the post bottom, rotate through the pivot and connect in the level bar of a backup pad side.

Preferably: the outer wall of storage box is provided with the spout, through slider sliding connection in the connecting plate of spout inner wall, and the inner wall of connecting plate sets up in the outer wall of adjusting the post, and the top of suction nozzle is fixed in the bottom face of connecting plate.

Preferably: the bottom end of the storage box is fixed with a conical block, the interior of the conical block is of a hollow structure, and the bottom end of the conical block is provided with a blanking hole communicated with the interior of the conical block;

the inner wall of the circumference of the conical block is fixed with a filter screen cylinder with the same aperture as the long cylinder cavity, and the inner wall of the circumference of the filter screen cylinder is fixed with a sealing ring in an equidistant mode.

Preferably: the storage box is sequentially provided with a heat insulation layer, a liquid cavity and a heat conduction column from an outer layer to an inner layer, the heat conduction column wraps the outer wall of the long cylinder cavity, the heat insulation layer is fixed on the circumferential inner wall of the protective sleeve, and the liquid cavity is arranged on the circumferential inner wall of the storage box between the heat insulation layer and the heat conduction column;

the circumference outer wall of storage box is provided with the inlet that is linked together with the liquid chamber.

Preferably: a separating pad is fixed at the bottom end of the sampling cylinder; and a graduated scale is arranged on the outer wall of the circumference of the sampling tube.

The invention has the beneficial effects that:

1. according to the invention, the piston extraction structure is driven by the driving structure to move up and down in each sample cavity through the sampling amount limiting part, and the connecting rope can be slowly drawn into the inner wall of the sampling cylinder under the elastic pulling of the spring along with the gradual rising of the sealing block during the oil extraction period until the blocking plate blocks the inclined through hole under the pushing of the spring, so that the continuous injection of oil into the sample cavity can be avoided, the oil extraction amount can be conveniently and automatically controlled, and the waste caused by insufficient or excessive oil extraction can be avoided.

2. According to the invention, when the connecting column drives the sealing block to move upwards in the sample cavity, the sealing block slowly leaves away from the inclined through hole and does not shield the inclined through hole, and negative pressure is generated in the sample cavity due to the pumping of the sealing block, so that external oil can be rapidly pumped into the sample cavity, and thus oil in different depths can be pumped; otherwise, when the sealing block moves downwards passively, the connecting rope pulls the blocking plate to move upwards, so that the spring is contracted, the inclined through hole is exposed, and the collected oil in the sample cavity is extruded out conveniently and fast.

3. The invention is provided with a plurality of sample cavities with different heights, which is convenient for realizing the purposes of sampling and storing oil liquid with different depths; during accomodating the sampler barrel, the part fluid of sampler barrel outer wall can directly be struck off by the import of toper piece, and because get into the sampler barrel outer wall in the storage box and closely laminate with the sealing washer, so can scrape the fluid of sampler barrel outer wall and get, the fluid of scraping getting directly passes the inner chamber gathering of filter screen section of thick bamboo infiltration toper piece, and drip back to in oil tank/section of thick bamboo from the feed opening under the dead weight influence, can effectively improve the cleaning efficiency of sampler barrel surface, and also avoided people to carry out the time of manual clearance to the sampler barrel outer wall, prevent the extravagant condition of tea-seed oil.

4. According to the invention, the sampling length of the sampling cylinder is adjusted according to the depth of tea oil to be sampled, the storage box is placed on the oil drum where the tea oil to be sampled is located, the support plate is abutted against the outer wall of the oil drum, the suction nozzle is adsorbed on the outer wall of the oil drum for temporary fixing, then the direction of the two ends of the horizontal ruler is taken as a reference, the adjusting pivot at the low position is rotated according to the inclination of the horizontal ruler, the height of the end of the support plate is adjusted under the driving of the adjusting column until the horizontal ruler is in a horizontal straight line, the straightness of the storage box, particularly the sampling cylinder during downward exploration is conveniently adjusted according to the verticality of an oil port of the oil drum, and the condition that oil layer samples at different depths cannot be obtained due to the integral inclination of the storage box is avoided.

5. According to the invention, the storage box is arranged, so that the sampling tube can be conveniently wrapped and protected in an all-around manner, the sampling tube is prevented from being exposed outside and easily damaged due to collision, and the storage box can be prevented from being broken due to strong collision through the arranged protective sleeve; utilize and lead the temperature environment of temperature post to long section of thick bamboo intracavity and carry out effective conduction low temperature to for the sampling tube that gets into long section of thick bamboo intracavity provides the low temperature and preserves the environment, can effectively separate the inside and outside temperature interaction conduction through outer heat insulating layer moreover, avoid the sampling tube to receive outside high temperature influence, prevent that the sample from receiving the influence and appearing changing, improve the storage quality of sample.

Drawings

FIG. 1 is a schematic diagram of the overall structure of a sampling device for tea oil production according to the present invention;

FIG. 2 is a schematic bottom view of a sampling device for tea oil production according to the present invention;

FIG. 3 is a schematic cross-sectional view of a cylindrical base and a sampling cylinder of a sampling device for tea oil production according to the present invention;

FIG. 4 is a schematic cross-sectional view of a sampling tube of a sampling device for tea oil production according to the present invention;

FIG. 5 is a schematic view of a connection column of a sampling device for tea oil production according to the present invention;

FIG. 6 is a schematic bottom view of a storage box of a sampling device for tea oil production according to the present invention;

fig. 7 is a schematic view of a bottom cross-sectional structure of a storage box of a sampling device for tea oil production according to the present invention.

In the figure: the device comprises a storage box 1, a 1021 protective sleeve, a 102 sliding groove, a 103 long barrel cavity, a 104 temperature conduction column, a 105 liquid cavity, a 106 thermal insulation layer, a 2 supporting plate, a 201 adjusting hinge, a 202 level gauge, a 203 adjusting column, a 204 suction nozzle, a 3 sampling barrel, a 301 inclined through hole, a 302 blocking plate, a 303 graduated scale, a 304 sample cavity, a 305 sealing block, a 306 spring, a 307 connecting rope, a 308 connecting column, a 4-line coil box, a 401 handle, a 402 traction rope, a 5 blanking hole, a 501 sealing ring, a 502 filter screen barrel, a 6 separating pad, a 7 cylindrical seat, a 701 movable plate, a 702 motor and a 703 threaded column.

Detailed Description

The technical solution of the present patent will be described in further detail with reference to the following embodiments.

Reference will now be made in detail to embodiments of the present patent, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the same or similar elements or elements having the same or similar functions throughout. The embodiments described below with reference to the drawings are illustrative only for the purpose of explaining the present patent and are not to be construed as limiting the present patent.

Example 1:

in order to rapidly sample tea oil, the sampling device for tea oil production comprises a sampling cylinder 3, wherein a cylindrical seat 7 is arranged on the outer wall of the top of the sampling cylinder 3, and a driving structure is arranged inside the cylindrical seat 7, as shown in figures 1-5; a plurality of sample cavities 304 are formed in the circumferential inner wall of the sampling cylinder 3, the inner walls of the plurality of sample cavities 304 are connected with the same piston extraction structure in a sliding manner, the piston extraction structure is composed of a connecting column 308 and a plurality of sealing blocks 305 welded to the cylindrical outer wall of the connecting column 308 in an equidistant manner, and the number of the sealing blocks 305 is the same as that of the sample cavities 304, so that the sealing blocks 305 can move up and down in the corresponding sample cavities 304; the sample cavities 304 with different heights are arranged, so that the purposes of sampling and storing oil liquid in and out at different depths independently are achieved.

Furthermore, an inclined through hole 301 is formed in the outer wall of the circumference of the sampling cylinder 3, which is opposite to each sample cavity 304, the inner wall of the inclined through hole 301 is connected with a blocking plate 302 in a vertical sliding manner, the top surfaces of the sealing block 305 and the blocking plate 302 which are positioned on the same layer are provided with the same sampling amount limiting part, the sampling amount limiting part comprises a connecting rope 307, one end of which is tied to the top surface of the sealing block 305, a sliding wheel fixed to the inner wall of the sampling cylinder 3, a separating plate fixed to the inner wall of the sampling cylinder 3, and a spring 306 welded to the bottom surface of the separating plate and the top surface of the blocking plate 302, the connecting rope 307 is wound on the outer wall of the sliding wheel, and the other end of the connecting rope 307 penetrates through the inner wall of the separating plate and then is tied to the top surface of the blocking plate 302;

the piston extraction structure is driven by the driving structure to move up and down in each sample cavity 304, when the connecting column 308 drives the sealing block 305 to move upwards in the sample cavity 304, the sealing block 305 is slowly far away from the inclined through hole 301 and does not shield the inclined through hole, and negative pressure is generated in the sample cavity 304 due to the extraction of the sealing block 305, so that external oil can be quickly extracted into the sample cavity 304, and oil in different depths can be extracted, along with the gradual rising of the sealing block 305, the connecting rope 307 can be slowly pulled down by the elasticity of the spring 306 and slowly drawn into the inner wall of the sampling cylinder 3 until the blocking plate 302 blocks the inclined through hole 301 under the pushing of the spring 306, and the oil is prevented from being continuously injected into the sample cavity 304; conversely, when the sealing block 305 moves downwards passively, the tying rope 307 pulls the blocking plate 302 to move upwards, so that the spring 306 contracts and the inclined through hole 301 is exposed, and the collected oil in the sample cavity 304 is extruded out, and the operation is convenient.

Further, the driving structure includes a motor 702 fixed on the inner wall of the top of the cylindrical seat 7, a movable cavity opened on the inner wall of the cylindrical seat 7, a movable plate 701 slidably connected to the inner wall of the movable cavity, and a threaded column 703 connected to the inner wall of the movable plate 701 through a thread, wherein two ends of the threaded column 703 are rotatably connected to the inner wall of the top of the movable cavity and the inner wall of the bottom of the movable cavity respectively, an output end of the motor 702 is connected to a top end of the threaded column 703 through a connecting shaft, and a top end of the connecting column 308 is welded to the bottom surface of the movable plate 701; the starting motor 702 drives the threaded column 703 to rotate, so that the movable plate 701 is lifted in the movable cavity, so as to drive the piston extraction structure to move up and down in the sample cavity 304 via the connection column 308, thereby realizing the extraction and discharge of liquid in the sample cavity 304.

Preferably, a separation pad 6 for preventing the sampling tube 3 from being in direct contact with an external structure is fixed to the bottom end of the sampling tube 3; the outer wall of the circumference of the sampling cylinder 3 is carved with a graduated scale 303 which is convenient for people to quickly judge the extending length of the sampling cylinder 3; the sampling length of the sampling cylinder 3 is adjusted in advance according to the depth of the tea oil to be sampled, and the method specifically comprises the following steps: the graduated scale 303 is referenced while holding the spacing pad 6, and then the sampling tube 3 is withdrawn from the storage case 1.

Additionally, the top end of the storage box 1 is fixed with a wire winding box 4 through a bolt, a wire roller is rotatably connected inside the wire winding box 4, a traction rope 402 is wound and wound on the outer wall of the wire roller, and one end of the traction rope 402 is tied to the top end of the cylindrical seat 7; one side surface of the wire coil box 4 is rotatably connected with a handle 401, and one end of the handle 401 is connected with one end of the wire roller through a connecting shaft; the handle 401 is rotated manually, the pulling rope 402 is retracted and released by utilizing the rotation of the wire roller, and then the cylindrical seat 7 and the lower structure thereof are pulled to move upwards, so that the sampling tube 3 is slowly retracted into the long tube cavity 103 for storage.

In order to improve the preservation quality of the sample; as shown in fig. 1 and fig. 6-7, a protective structure is arranged on the outer wall of the sampling tube 3 near the bottom end, and the protective structure includes a storage box 1 arranged on the outer wall of the sampling tube 3, a long tube cavity 103 arranged on the inner circumferential wall of the storage box 1 and forming a sliding fit with the sampling tube 3, and a protective sleeve 101 sleeved on the outer wall of the storage box 1; be convenient for carry out omnidirectional parcel protection to sampler barrel 3 through being provided with storage box 1, avoid it to expose and easily appear the collision and impaired outside, can avoid storage box 1 to receive to collide with and break vigorously through the lag 101 that sets up moreover.

Further, the storage box 1 is sequentially provided with a heat insulation layer 106, a liquid cavity 105 and a temperature conduction column 104 from the outer layer to the inner layer, the temperature conduction column 104 wraps the outer wall of the long cylinder cavity 103, the heat insulation layer 106 is fixed on the circumferential inner wall of the protective sleeve 101, and the liquid cavity 105 is arranged on the circumferential inner wall of the storage box 1 between the heat insulation layer 106 and the temperature conduction column 104;

preferably, the circumferential outer wall of the storage box 1 is provided with a liquid inlet communicated with the liquid cavity 105; in low-temperature liquid to liquid chamber 105 is poured into from the inlet, utilize and lead temperature post 104 to carry out effective conduction low temperature to the temperature environment in long section of thick bamboo chamber 103 to for the sampling tube 3 that gets into in long section of thick bamboo chamber 103 provides the low-temperature preservation environment, can effectively obstruct inside and outside temperature interactive conduction through outer heat insulating layer 106 in addition, avoid sampling tube 3 to receive outside high temperature to influence, prevent that the sample from receiving the influence and appearing changing, improve the storage quality of sample.

In order to adjust the sampling angle of the sampling cylinder 3; as shown in fig. 1-2, the outer wall of the storage box 1 is provided with an angle adjusting support, the angle adjusting support comprises a support plate 2 fixed on the outer wall of the circumference of the storage box 1, two adjusting columns 203 connected to the inner walls of the two sides of the support plate 2 through threads, an adjusting hinge 201 fixed on the top ends of the adjusting columns 203, a suction nozzle 204 arranged at the bottom ends of the adjusting columns 203, and a level 202 rotatably connected to one side of the support plate 2 through a rotating shaft; place storage box 1 on waiting to detect the oil drum at tea-seed oil place for 2 butts of backup pad are in the oil drum outer wall, and suction nozzle 204 adsorbs and carries out temporary fixation in the outer wall of oil drum, then regard as the reference with the pointing at level 202 both ends, rotate the regulation pivot 201 that is in the low position according to the gradient of level 202, make 2 this ends of backup pad carry out altitude mixture control under the drive of adjusting post 203, until level 202 is in the level straight line, be convenient for store box 1 especially the straightness when visiting under the sampling tube 3 according to the straightness adjustment of straightness that hangs down of oil drum hydraulic fluid port, avoid the condition that can not acquire different degree of depth oil layer samples that leads to because of its whole slope.

Furthermore, the outer wall of the storage box 1 is provided with a chute 102 and a connecting plate which is connected to the inner wall of the chute 102 in a sliding manner through a sliding block, the inner wall of the connecting plate is connected to the outer wall of the adjusting column 203 through a thread, and the top end of the suction nozzle 204 is fixed on the bottom surface of the connecting plate; through the connecting plate and the sliding chute 102 sliding fit that set up, stability when can effectively improve the regulation post 203 and use.

When the liquid cooling device is used, low-temperature liquid is injected into the liquid cavity 105 from the liquid inlet in advance; then according to the degree of depth regulation sampling tube 3's of waiting to sample tea-seed oil sample length specifically is: the graduated scale 303 is referenced while holding the spacing pad 6, and then the sampling tube 3 is withdrawn from the storage case 1. Place storage box 1 again on waiting to detect the oil drum at tea-seed oil place for 2 butts of backup pad are in the oil drum outer wall, and suction nozzle 204 adsorbs and carry out temporary fixation in the outer wall of oil drum, then regard as the reference with the pointing at level bar 202 both ends, rotate the regulation pivot 201 that is in the low position according to the gradient of level bar 202, make 2 this ends of backup pad carry out height control under the drive of adjusting post 203, until level bar 202 is in the horizontal straight line.

The driving structure drives the piston extraction structure to move up and down in each sample cavity 304, specifically: the motor 702 is activated to rotate the threaded post 703, so that the movable plate 701 is lifted up and down in the movable cavity, so as to drive the piston extracting structure to move up and down in the sample cavity 304 via the connecting post 308. When the connecting column 308 drives the sealing block 305 to move upwards in the sample cavity 304, the sealing block 305 is slowly away from the inclined through hole 301 and does not shield the inclined through hole, and negative pressure is generated in the sample cavity 304 due to the pumping of the sealing block 305, so that external oil can be quickly pumped into the sample cavity 304, and oil in different depths can be pumped, and when the sealing block 305 rises, the connecting rope 307 can be pulled down by the elasticity of the spring 306 and slowly drawn into the inner wall of the sampling cylinder 3 until the blocking plate 302 blocks the inclined through hole 301 under the pushing of the spring 306, so that the oil is prevented from being continuously injected into the sample cavity 304; conversely, when the connecting column 308 moves the sealing block 305 downward in the sample chamber 304, the sealing block 305 moves downward and pulls the blocking plate 302 upward via the tether 307, so that the spring 306 contracts and the inclined through hole 301 is exposed, so as to extrude the collected oil in the sample chamber 304.

After sampling, the handle 401 is manually rotated, the pulling rope 402 is retracted and released by the rotation of the wire roller, and the cylindrical seat 7 and the lower structure thereof are pulled to move upwards, so that the sampling tube 3 is slowly retracted into the long tube cavity 103 for low-temperature storage.

Example 2:

a sampling device for tea oil production is disclosed, as shown in figure 2 and figure 6, in order to automatically clean the oil on the outer wall of a sampling cylinder 3; the present embodiment is modified from embodiment 1 as follows: the bottom end of the storage box 1 is fixed with a conical block, the interior of the conical block is of a hollow structure, and the bottom end of the conical block is provided with a plurality of blanking holes 5 communicated with the interior of the conical block; a filter screen cylinder 502 with the same aperture as the long cylinder cavity 103 is fixed on the circumferential inner wall of the conical block, and a plurality of sealing rings 501 are fixed on the circumferential inner wall of the filter screen cylinder 502 in an equidistant manner;

preferably, the sealing ring 501 may be made of rubber; make sampler barrel 3 during the passive rebound through haulage rope 402's rolling, the partial fluid of 3 outer walls of sampler barrel can directly be struck off by the import of toper piece, and owing to get into 3 outer walls of sampler barrel in the storage box 1 and closely laminating with sealing washer 501, so can scrape the fluid of 3 outer walls of sampler barrel and get, the fluid of scraping the getting directly passes the inner chamber gathering of filter screen section of thick bamboo 502 infiltration toper piece, and drop back to oil tank/section of thick bamboo from unloading hole 5 under the dead weight influence, can effectively improve the cleaning efficiency of 3 surface of sampler barrel, and also avoided people to carry out the time of manual clearance to 3 outer walls of sampler barrel, prevent the tea-seed oil extravagant condition.

Preferably, the length of the long cylinder chamber 103 + the length of the conical block = the length of the cylindrical seat 7 x 2 + the length of the sampling cylinder 3; the sampling cylinder 3 ensuring the sampling state can also be fully retracted into the storage box 1.

This embodiment is manual rotation handle 401 after the sample is ended, utilize the rotatory receipts and release that realize haulage rope 402 of line roller, and then pull cylinder seat 7 and structurally move up down, make sampler barrel 3 slowly be taken in long section of thick bamboo chamber 103 interior low temperature preservation, during sampler barrel 3 is moved and is moved up, the partial fluid of sampler barrel 3 outer wall can directly be scraped by the import of toper piece, and because the sample barrel 3 outer wall that gets into in the storage box 1 closely laminates with sealing washer 501, so can scrape the fluid of sampler barrel 3 outer wall, the fluid of scraping directly passes the inner chamber gathering of filter screen cylinder 502 infiltration toper piece, and drip from feed opening 5 under the dead weight influence and return to in the oil tank/a section of thick bamboo.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered as the technical solutions and the inventive concepts of the present invention within the technical scope of the present invention.

Claims (10)

1. A sampling device for tea oil production comprises a sampling cylinder (3) and is characterized in that a plurality of sample cavities (304) are formed in the circumferential inner wall of the sampling cylinder (3), the inner walls of the sample cavities (304) are connected with the same piston extracting structure in a sliding mode, an inclined through hole (301) is formed in the circumferential outer wall, facing each sample cavity (304), of the sampling cylinder (3), the inner wall of each inclined through hole (301) is connected with a blocking plate (302) in a sliding mode, and the top faces of a sealing block (305) and the blocking plate (302) are provided with the same sampling amount limiting portion; a cylindrical seat (7) is arranged on the outer wall of the top of the sampling cylinder (3), and a driving structure is arranged inside the cylindrical seat (7); the outer wall of the sampling tube (3) close to the bottom end is provided with a protection structure, and the protection structure comprises a storage box (1) arranged on the outer wall of the sampling tube (3), a long tube cavity (103) arranged on the circumferential inner wall of the storage box (1) and in sliding fit with the sampling tube (3), and a protection sleeve (101) sleeved on the outer wall of the storage box (1);

the outer wall of storage box (1) is provided with the angle modulation supporting part.

2. The sampling device for tea oil production according to claim 1, wherein the sampling amount limiting portion comprises a connecting rope (307) with one end arranged on the top surface of the sealing block (305), a sliding wheel fixed on the inner wall of the sampling tube (3), a separating plate fixed on the inner wall of the sampling tube (3), and a spring (306) fixedly connected to the bottom surface of the separating plate and the top surface of the blocking plate (302), the connecting rope (307) is arranged on the outer wall of the sliding wheel, and the other end of the connecting rope (307) penetrates through the inner wall of the separating plate and then is arranged on the top surface of the blocking plate (302).

3. The sampling device for camellia oil production according to claim 1, wherein the driving structure comprises a motor (702) fixed on the inner wall of the top of the cylindrical seat (7), a movable cavity arranged on the inner wall of the cylindrical seat (7), a movable plate (701) slidably connected to the inner wall of the movable cavity, and a threaded column (703) arranged on the inner wall of the movable plate (701), two ends of the threaded column (703) are rotatably connected to the inner wall of the top and the inner wall of the bottom of the movable cavity respectively, the output end of the motor (702) is connected with the top end of the threaded column (703) through a connecting shaft, and the top end of the connecting column (308) is fixedly connected to the bottom surface of the movable plate (701).

4. A sampling device for tea oil production according to claim 3, characterized in that the piston extraction structure is composed of a connecting column (308) and sealing blocks (305) fixedly connected to the outer wall of the cylinder of the connecting column (308) in an equidistant manner, and the number of the sealing blocks (305) is the same as that of the sample cavities (304).

5. The sampling device for the tea oil production according to claim 4, characterized in that the top end of the storage box (1) is fixedly connected with a wire coil box (4), a wire roller is rotatably connected inside the wire coil box (4), a pulling rope (402) is arranged on the outer wall of the wire roller, and one end of the pulling rope (402) is arranged at the top end of the cylindrical seat (7); one side of the wire coil box (4) is rotatably connected with a handle (401), and one end of the handle (401) is connected with one end of the wire roller through a connecting shaft.

6. The sampling device for tea oil production according to claim 1, wherein the angle adjustment support part comprises a support plate (2) fixed on the outer wall of the circumference of the storage box (1), two adjustment columns (203) arranged on the inner walls of the two sides of the support plate (2), an adjustment pivot (201) fixed on the top ends of the adjustment columns (203), a suction nozzle (204) arranged at the bottom ends of the adjustment columns (203), and a level bar (202) rotatably connected to one side surface of the support plate (2) through a rotating shaft.

7. The sampling device for tea oil production according to claim 6, wherein the outer wall of the storage box (1) is provided with a sliding groove (102), and a connecting plate which is slidably connected with the inner wall of the sliding groove (102) through a sliding block, the inner wall of the connecting plate is arranged on the outer wall of the adjusting column (203), and the top end of the suction nozzle (204) is fixed on the bottom surface of the connecting plate.

8. The sampling device for the tea oil production according to claim 1, wherein a conical block is fixed at the bottom end of the storage box (1), the interior of the conical block is of a hollow structure, and a blanking hole (5) communicated with the interior of the conical block is formed in the bottom end of the conical block; the inner wall of the circumference of the conical block is fixed with a filter screen cylinder (502) with the same aperture as the long cylinder cavity (103), and the inner wall of the circumference of the filter screen cylinder (502) is fixed with a sealing ring (501) in an equidistant mode.

9. The sampling device for tea oil production according to claim 1, wherein the storage box (1) is sequentially provided with a thermal insulation layer (106), a liquid cavity (105) and a thermal conduction column (104) from an outer layer to an inner layer, the thermal conduction column (104) wraps the outer wall of the long cylinder cavity (103), the thermal insulation layer (106) is fixed on the inner circumferential wall of the protective sleeve (101), and the liquid cavity (105) is arranged on the inner circumferential wall of the storage box (1) at a position between the thermal insulation layer (106) and the thermal conduction column (104); the circumferential outer wall of the storage box (1) is provided with a liquid inlet communicated with the liquid cavity (105).

10. The sampling device for tea oil production as claimed in claim 2, characterized in that the bottom end of the sampling tube (3) is fixed with a spacing pad (6); and a graduated scale (303) is arranged on the circumferential outer wall of the sampling tube (3).

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