CN209722080U - A kind of yusho oil high efficiency extraction system of low cost - Google Patents

Abstract

A kind of yusho oil high efficiency extraction system of low cost, including blender, distiller, condenser, cooler, separator and cold water storage cistern, the blender is connected to by the first drainage tube with the distiller, the distiller is connected to by the second drainage tube with the condenser, the condenser is connected to by third drainage tube with the cooler, the cooler is connected to by the 4th drainage tube with the separator, the separator is connected to by the 5th drainage tube with the cold water storage cistern, the cold water storage cistern is connected to the condenser and the cooler respectively by the 6th drainage tube.The utility model structure is biased to Simple automation, and process flow is very simple, easy to operate, using the mutual cooperation of blender, distiller, condenser, cooler, separator and cold water storage cistern, so that working efficiency greatly enhances, reduces the production cost simultaneously；This knockdown production method is conducive to be quickly found out failure and handling failure, everyday devices maintenance and its simplicity.

Description

A kind of yusho oil high efficiency extraction system of low cost

Technical field

The utility model relates to camphor oil extractive technique fields, and in particular, to a kind of yusho oil high efficiency of low cost mentions Take system.

Background technique

With the development of China's science and technology, camphor oil extraction element develops industry and is also rapidly developed camphor oil extraction element It is the device that oily camphor tree leaf camphor oil extracts industry indispensability, currently, camphor oil extraction element mainly has reverse-flow type extraction element, extraction formula to mention Device is taken, structure is complicated for reverse-flow type extraction element, cost of manufacture height cannot carry out volume production on a large scale, extracts the extraction dress of formula It sets, during extraction, needs to be applied to a large amount of chemical agent, at high cost, and the high production cost of production is difficult to realize Volume production, most of distillation type camphor oil extraction element, directly distills oily camphor tree leaf in the market, can make the benefit of raw material in this way It is low with rate, it will increase production cost, have been unable to meet the existing market demand.

Therefore, it is necessary to a kind of yusho oil high efficiency extraction systems of low cost.

Utility model content

The purpose of this utility model is that the shortcomings that overcoming the above-mentioned prior art and deficiency, provides a kind of oil of low cost Camphor oil high efficiency extraction system, the utility model structure are biased to Simple automation, and process flow is very simple, easy to operate, adopt With the mutual cooperation of blender, distiller, condenser, cooler, separator and cold water storage cistern, so that working efficiency greatly enhances, It reduces the production cost simultaneously；This knockdown production method is conducive to be quickly found out failure and handling failure, everyday devices dimension Shield and its simplicity.

The technical scheme in the invention for solving the above technical problem is:

A kind of yusho oil high efficiency extraction system of low cost, including blender, distiller, condenser, cooler, separation Device and cold water storage cistern, the blender are connected to by the first drainage tube with the distiller, and the distiller passes through the second drainage tube It is connected to the condenser, the condenser is connected to by third drainage tube with the cooler, and the cooler passes through the 4th Drainage tube is connected to the separator, and the separator is connected to by the 5th drainage tube with the cold water storage cistern, and the cold water storage cistern is logical The 6th drainage tube is crossed to be connected to the condenser and the cooler respectively；The blender includes blender shell, described to stir It mixes device shell bottom end and is provided with support rod, blender outer casing bottom center is provided with stirring discharge port, the stirring Filter plate is also detachably provided on the inner wall of device shell, the inner space of the blender shell is separated by the filter plate Stir chamber and crude oil deposit cavity are provided with slagging-off controller on the blender outer shell outer wall, and the slagging-off controller is by pushing away Lever is connect with slagging-off push plate, and the catch bar is extend into the stir chamber through the blender shell, and the slagging-off pushes away The side of the filter plate is arranged in plate, and slag-drip opening is additionally provided on the blender shell, is also set up above the slag-drip opening There is deslagging damper actuator, the deslagging damper actuator is for controlling the unlatching of deslagging baffle and/or closing, the deslagging baffle The other side with the filter plate of the slagging-off push plate opposite direction is set, and the blender housing top end is provided with electric rotating Machine, the rotating electric machine are connect by rotating bar with the stirring flabellum being located in the stir chamber, and the rotating bar is through described Blender shell is extend into the stir chamber, and the side of the rotating electric machine is provided with Rotation Controllers, the rotating electric machine Top be provided with telescope motor, the telescope motor side is provided with expansion controller, also sets up on the blender shell There is feed hopper；The distiller includes support base, and the support base top is provided with heating room, the heating room upper end It is welded with sealing cover, distillation feeding pipe and distillation discharge nozzle, the support base internal water are provided through on the sealing cover It is flat to be provided with support isolation board, it is drying chamber below the support isolation board, is provided with desiccant, the branch in the drying chamber It supports isolation board upper end and having heaters storage case is set, be provided in the heater storage case for the oven heats Heater, the heating room bottom are provided with distillation slag-drip opening, wherein the stirring discharge port by first drainage tube with The distillation feeding pipe connection.

Further, the condenser includes condensation feeding inlet, condensation discharge port and condensation water inlet, the condensation pan feeding Mouth and the condensation water inlet are set to the upper end of the condenser, and the condensation discharge port is set under the condenser End, distillation discharge nozzle are connect by the second drainage tube with condensation feeding inlet.

Further, the cooler includes cooling feeding inlet, cooling discharging mouth and coolant intake, the cooling pan feeding Mouth is set to the cooler upper end, and the cooling discharging mouth is set to the lower end of the cooler, and the coolant intake is set It is placed in the side of the cooler, condensation discharge port is connect by third drainage tube with cooling feeding inlet.

Further, the separator includes separating feed mouth, separation discharge outlet, separator cover board and separates discharge port, The feed inlet is set to the side of the separator, and the separation discharge outlet is set to the lower end of the separator, and described point It is covered on the separator upper end from device cover board, the separation discharge port is set on the separator cover board, cooling discharging mouth It is connect by the 4th drainage tube with separating feed mouth.

Further, the cold water storage cistern includes water tank inlet and water outlet of water tank, and the water tank inlet is set to institute State the side of cold water storage cistern, the water outlet of water tank is set to the cold water storage cistern upper end, separation discharge outlet by the 5th drainage tube with Water tank inlet connection, water outlet of water tank are connect with condensation water inlet and coolant intake respectively by the 6th drainage tube.

The working principle of this programme is sketched: oily camphor tree leaf forms stirring crude oil and stirring slag after being sufficiently stirred in blender, Stirring crude oil is drained into distiller, blender is discharged in stirring slag；After distiller sufficiently distills, distillation crude oil gas is formed Body and distillation leftover drain into distillation crude oil gas in condenser, and distiller is discharged in distillation leftover；It is cold by condenser After solidifying, gas-liquid mixture is formed, gas-liquid mixture is drained into cooler；It is fully cooled through subcooler, becomes full liquid State is separated in draining into separator, and camphor oil can be obtained from separation discharge port.

To sum up, the beneficial effects of the utility model are:

The utility model structure is biased to Simple automation, and process flow is very simple, easy to operate, using blender, steams The mutual cooperation of device, condenser, cooler, separator and cold water storage cistern is evaporated, so that working efficiency greatly enhances, while reducing system Make cost；This knockdown production method is conducive to be quickly found out failure and handling failure, everyday devices maintenance and its simplicity.

Detailed description of the invention

Fig. 1 is the structural schematic diagram of the utility model.

Fig. 2 is the agitator structure schematic diagram of the utility model.

Fig. 3 is the distiller structural schematic diagram of the utility model.

Wherein, blender 1, blender shell 101, support rod 102, stir chamber 103, crude oil deposit cavity 104, filter plate 105, discharge port 107, slag-drip opening 108, deslagging baffle 109, deslagging damper actuator 110, slagging-off push plate 111, catch bar are stirred 112, remove the gred controller 113, stirring flabellum 114, rotating bar 115, rotating electric machine 116, Rotation Controllers 117, telescope motor 118, expansion controller 119, feed hopper 120, distiller 2, support base 201, heating room 202, sealing cover 203, distill into Expects pipe 204, distillation discharge nozzle 205, support isolation board 206, drying chamber 207, desiccant 208, heater storage case 209, heating It is device 210, distillation slag-drip opening 211, condenser 3, condensation feeding inlet 31, condensation discharge port 32, condensation water inlet 33, cooler 4, cold But feeding inlet 41, cooling discharging mouth 42, coolant intake 43, separator 5, separating feed mouth 51, separation discharge outlet 52, separator Cover board 53, separation discharge port 54, cold water storage cistern 6, water tank inlet 61, water outlet of water tank 62, the first drainage tube 71, the second drainage tube 72, third drainage tube 73, the 4th drainage tube 74, the 5th drainage tube 75, the 6th drainage tube 76.

Specific embodiment

It is at high cost in order to solve to make in the prior art, and high production cost, it is difficult to realize volume production, it is most of in the market Distillation type camphor oil extraction element, directly oily camphor tree leaf is distilled, the utilization rate of raw material can be made low in this way, will increase production Cost, the case where having been unable to meet the existing market demand, the utility model structure are biased to Simple automation, and process flow is very Simply, easy to operate, using the mutual cooperation of blender, distiller, condenser, cooler, separator and cold water storage cistern, so that work It greatly enhances as efficiency, reduces the production cost simultaneously；This knockdown production method is conducive to be quickly found out failure and handle Failure, everyday devices maintenance and its simplicity.Below with reference to examples and drawings, the utility model is made further specifically Bright, however, the embodiments of the present invention are not limited thereto, an example of only the utility model application in figure, practical to this Novel principle does not have essential constraint.

Embodiment:

As shown in Figure 1, Figure 2 and Figure 3, the yusho oil high efficiency extraction system of a kind of low cost, including blender 1, distillation Device 2, condenser 3, cooler 4, separator 5 and cold water storage cistern 6, the blender 1 pass through the first drainage tube 71 and the distiller 2 connections, the distiller 2 are connected to by the second drainage tube 72 with the condenser 3, and the condenser 3 passes through third drainage tube 73 are connected to the cooler 4, and the cooler 4 is connected to by the 4th drainage tube 74 with the separator 5, the separator 5 Be connected to by the 5th drainage tube 75 with the cold water storage cistern 6, the cold water storage cistern 6 by the 6th drainage tube 76 respectively with the condenser 3 are connected to the cooler 4；The blender 1 includes blender shell 101, and 101 bottom end of blender shell is provided with Support rod 102,101 bottom centre position of blender shell are provided with stirring discharge port 107, the blender shell 101 Inner wall on be also detachably provided with filter plate 105, the filter plate 105 is by the inner space of the blender shell 101 point It is divided into stir chamber 103 and crude oil deposit cavity 104, slagging-off controller 113 is provided on 101 outer wall of blender shell, it is described Slagging-off controller 113 is connect by catch bar 112 with slagging-off push plate 111, and the catch bar 112 runs through the blender shell 101 extend into the stir chamber 103, and the side of the filter plate 105, the blender is arranged in the slagging-off push plate 111 It is additionally provided with slag-drip opening 108 on shell 101, deslagging damper actuator 110, the row are additionally provided with above the slag-drip opening 108 Slag damper actuator 110 is opened and/or is closed for controlling deslagging baffle 109, the deslagging baffle 109 setting with it is described The other side of the filter plate 105 for 111 opposite direction of push plate that removes the gred, 101 top of blender shell is provided with rotating electric machine 116, the rotating electric machine 116 is connect by rotating bar 115 with the stirring flabellum 114 being located in the stir chamber 103, described Rotating bar 115 is extend into the stir chamber 103 through the blender shell 101, and the side of the rotating electric machine 116 is set It is equipped with Rotation Controllers 117, the top of the rotating electric machine 116 is provided with telescope motor 118,118 side of telescope motor It is provided with expansion controller 119, is additionally provided with feed hopper 120 on the blender shell 101；The distiller 2 includes branch Pedestal 201 is supportted, 201 top of support base is provided with heating room 202, and 202 upper end of heating room is welded with sealing cover 203, distillation feeding pipe 204 and distillation discharge nozzle 205 are provided through on the sealing cover 203, in the support base 201 Portion is horizontally disposed support isolation board 206, is drying chamber 207 below the support isolation board 206, sets in the drying chamber 207 It is equipped with desiccant 208, having heaters storage case 209, the heater storage case 209 is arranged in 206 upper end of support isolation board It is inside provided with the heater 210 for heating to the heating room 202,202 bottom of heating room is provided with distillation slag-drip opening 211, wherein the stirring discharge port 107 is connect by first drainage tube 71 with the distillation feeding pipe 204.

It is further in the present embodiment, the condenser 3 include condensation feeding inlet 31, condensation discharge port 32 and condense into The mouth of a river 33, the condensation feeding inlet 31 and the condensation water inlet 33 are set to the upper end of the condenser 3, the condensation discharging Mouth 32 is set to the lower end of the condenser 3, and distillation discharge nozzle 205 is connect by the second drainage tube 72 with condensation feeding inlet 31.

It is further in the present embodiment, the cooler 4 include cooling feeding inlet 41, cooling discharging mouth 42 and it is cooling into The mouth of a river 43, the cooling feeding inlet 41 are set to 4 upper end of cooler, and the cooling discharging mouth 42 is set to the cooler 4 lower end, the coolant intake 43 are set to the side of the cooler 4, and condensation discharge port 32 passes through third drainage tube 73 It is connect with cooling feeding inlet 41.

Further in the present embodiment, the separator 5 includes separating feed mouth 51, separation discharge outlet 52, separator Cover board 53 and separation discharge port 54, the feed inlet 51 are set to the side of the separator 5, and the separation discharge outlet 52 is set It is placed in the lower end of the separator 5, the separator cover board 53 is covered on 5 upper end of separator, the separation discharge port 54 It is set on the separator cover board 53, cooling discharging mouth 42 is connect by the 4th drainage tube 74 with separating feed mouth 51.

Further in the present embodiment, the cold water storage cistern 6 includes water tank inlet 61 and water outlet of water tank 62, the water Case water inlet 61 is set to the side of the cold water storage cistern 6, and the water outlet of water tank 62 is set to 6 upper end of cold water storage cistern, separation Discharge outlet 52 is connect by the 5th drainage tube 75 with water tank inlet 61, water outlet of water tank 62 pass through the 6th drainage tube 76 respectively with It condenses water inlet 33 and coolant intake 43 connects.

The working principle of this programme is sketched: oily camphor tree leaf forms stirring crude oil and stirring slag after being sufficiently stirred in blender 1, Stirring crude oil is drained into distiller 2, blender 1 is discharged in stirring slag；After distiller 2 sufficiently distillation, it is thick to form distillation Oil gas body and distillation leftover drain into distillation crude oil gas in condenser 3, and distiller 2 is discharged in distillation leftover；Through being subcooled After condenser 3 condenses, gas-liquid mixture is formed, gas-liquid mixture is drained into cooler 4；It is fully cooled, becomes through subcooler 4 Liquid condition is helped, is separated in draining into separator 5, camphor oil can be obtained from separation discharge port 54.

Above are merely preferred embodiments of the utility model, the protection scope of the utility model is not limited merely to above-mentioned Embodiment, technical solution belonging to the idea of the present invention belong to the protection scope of the utility model.It should be pointed out that pair For those skilled in the art, several improvements and modifications without departing from the principle of the utility model, It should be regarded as the protection scope of the utility model.

Claims (5)

1. a kind of yusho oil high efficiency extraction system of low cost, which is characterized in that including blender (1), distiller (2), cold Condenser (3), cooler (4), separator (5) and cold water storage cistern (6), the blender (1) by the first drainage tube (71) with it is described Distiller (2) connection, the distiller (2) are connected to by the second drainage tube (72) with the condenser (3), the condenser (3) it is connected to by third drainage tube (73) with the cooler (4), the cooler (4) passes through the 4th drainage tube (74) and institute Separator (5) connection is stated, the separator (5) is connected to by the 5th drainage tube (75) with the cold water storage cistern (6), the cold water storage cistern (6) it is connected to respectively with the condenser (3) and the cooler (4) by the 6th drainage tube (76)；The blender (1) includes Blender shell (101), blender shell (101) bottom end are provided with support rod (102), the blender shell (101) Bottom centre position is provided with stirring discharge port (107), is also detachably provided on the inner wall of the blender shell (101) The inner space of the blender shell (101) is separated into stir chamber (103) and thick by filter plate (105), the filter plate (105) Oily deposit cavity (104) is provided with slagging-off controller (113), the slagging-off controller on blender shell (101) outer wall (113) it is connect by catch bar (112) with slagging-off push plate (111), the catch bar (112) runs through the blender shell (101) it extend into the stir chamber (103), the slagging-off push plate (111) is arranged in the side of the filter plate (105), institute It states and is additionally provided on blender shell (101) slag-drip opening (108), be additionally provided with deslagging baffle control above the slag-drip opening (108) Device (110) processed, the deslagging damper actuator (110) is for controlling deslagging baffle (109) unlatching and/or closing, the deslagging Baffle (109) setting is outside the other side of the filter plate (105) with described slagging-off push plate (111) opposite direction, the blender Shell (101) top is provided with rotating electric machine (116), and the rotating electric machine (116) is by rotating bar (115) and is located at the stirring Stirring flabellum (114) connection in chamber (103), the rotating bar (115) extend into described through the blender shell (101) In stir chamber (103), the side of the rotating electric machine (116) is provided with Rotation Controllers (117), the rotating electric machine (116) Top be provided with telescope motor (118), telescope motor (118) side is provided with expansion controller (119), the stirring Feed hopper (120) are additionally provided on device shell (101).

2. a kind of yusho oil high efficiency extraction system of low cost according to claim 1, which is characterized in that the condensation Device (3) includes condensation feeding inlet (31), condensation discharge port (32) and condensation water inlet (33), the condensation feeding inlet (31) and institute The upper end that condensation water inlet (33) is set to the condenser (3) is stated, the condensation discharge port (32) is set to the condenser (3) lower end.

3. a kind of yusho oil high efficiency extraction system of low cost according to claim 1, which is characterized in that the cooling Device (4) includes cooling feeding inlet (41), cooling discharging mouth (42) and coolant intake (43), cooling feeding inlet (41) setting In the cooler (4) upper end, the cooling discharging mouth (42) is set to the lower end of the cooler (4), the cooling water inlet Mouth (43) is set to the side of the cooler (4).

4. a kind of yusho oil high efficiency extraction system of low cost according to claim 1, which is characterized in that the separation Device (5) include separating feed mouth (51), separation discharge outlet (52), separator cover board (53) and separate discharge port (54), it is described into Material mouth (51) is set to the side of the separator (5), and the separation discharge outlet (52) is set under the separator (5) End, the separator cover board (53) are covered on the separator (5) upper end, and the separation discharge port (54) is set to the separation On device cover board (53).

5. a kind of yusho oil high efficiency extraction system of low cost according to claim 1, which is characterized in that the cold water Case (6) includes water tank inlet (61) and water outlet of water tank (62), and the water tank inlet (61) is set to the cold water storage cistern (6) Side, the water outlet of water tank (62) is set to the cold water storage cistern (6) upper end.