CN109910339A - A kind of fuel-displaced oil collector sump tank of camellia oil filter press - Google Patents
A kind of fuel-displaced oil collector sump tank of camellia oil filter press Download PDFInfo
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- CN109910339A CN109910339A CN201910268179.1A CN201910268179A CN109910339A CN 109910339 A CN109910339 A CN 109910339A CN 201910268179 A CN201910268179 A CN 201910268179A CN 109910339 A CN109910339 A CN 109910339A
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Abstract
The invention discloses a kind of fuel-displaced oil collector sump tanks of camellia oil filter press, including squeeze and filter device, crushing chamber is provided in the squeeze and filter device, press mechanism is provided in the crushing chamber, the press mechanism includes that block and pressure-sizing squeezing block are squeezed in dynamic pressure, block is squeezed in the dynamic pressure and pressure-sizing squeezing block is detached from and cooperates, and the pressure-sizing is squeezed block and is fixedly installed on the right side of the crushing chamber on end wall, and the dynamic pressure squeezing block, which horizontally slips, to be set in the crushing chamber;The equipment is more rationally and ingenious in overall structure, installation, maintenance and maintenance are very convenient, and the equipment can be automatically aligned to the camellia seed got ready and carry out squeezing operation, and send out the camellia seed after squeezing outside equipment, human interaction in cyclic process twice is reduced, avoids equipment fault may be to security risk caused by staff's health, and reduce the intercycle time twice, equipment Milling Efficiencty is improved, cost, therefore equipment value for applications with higher are reduced.
Description
Technical field
The present invention relates to camellia oil production fields, and in particular to a kind of fuel-displaced oil collector sump tank of camellia oil filter press.
Background technique
With the development of society, requirement of the people to quality of life is continuously improved, the quality of edible product is continuously improved,
In, camellia oil is a kind of high quality food oil squeezed from camellia seed, and camellia oil is free of erucic acid, cholesterol, aflatoxins and
Other additives, and camellia oil contains the linolenic acid that the mankind must and can not synthesize, therefore camellia oil is by numerous people
Like.
Currently, the manufacturing process of camellia oil, camellia oil filter press is mostly used and in a manner of manual work, by ready mountain
Tea seed is put into squeezing container, is manually taken out again after the completion of squeezing, and this mode operation mode is cumbersome, and the activity duration is longer,
Efficiency is lower, increases cost.
Therefore, it is necessary to which camellia oil press apparatus in the prior art is further improved, and then improve camellia oil
Milling Efficiencty.
Summary of the invention
The purpose of the present invention is to provide a kind of fuel-displaced oil collector sump tanks of camellia oil filter press, can overcome the upper of the prior art
Defect is stated, camellia oil Milling Efficiencty is improved.
A kind of fuel-displaced oil collector sump tank of camellia oil filter press according to the present invention, including squeeze and filter device, the squeeze and filter
It is provided with crushing chamber in device, press mechanism is provided in the crushing chamber, the press mechanism includes that block and pressure-sizing are squeezed in dynamic pressure
Block is squeezed, block is squeezed in the dynamic pressure and the pressure-sizing is squeezed block and is detached from and cooperates, and the pressure-sizing is squeezed block and is fixedly installed on the right side of the crushing chamber
On end wall, the dynamic pressure squeezing block, which horizontally slips, to be set in the crushing chamber, is provided with oil-collecting in the crushing chamber bottom end wall
Mechanism, the oil-collecting mechanism include by-pass filtration component and secondary filtration component, and the by-pass filtration component includes that fixation is set
The coarse filter being placed in by-pass filtration bottom plate top end wall, the secondary filtration component include being fixedly installed on secondary filtration bottom
Fine filter in plate top end wall, the secondary filtration bottom plate are rotatably dispose in the filtering oil-collecting cavity, the level-one mistake
Filter bottom plate is rotatably dispose in the filtering oil-collecting cavity, is provided between the by-pass filtration component and the secondary filtration component
One power device drives the by-pass filtration component to rotate in one direction, while driving the secondary filtration component along opposite
Direction rotation, wherein driving mechanism includes main drive shaft and the main drive motor, is set in end wall on the left of the filtering oil-collecting cavity
Be equipped with pump power cavity, the main drive shaft is rotatably dispose in the pump power cavity, the main drive shaft top end wall with
It is fixedly installed on the pump to be connected by power with the main drive motor in power cavity top end wall, the oil-collecting mechanism and the driving
It is provided with transmission mechanism between mechanism, the by-pass filtration component and the secondary filtration component is driven to rotate.
Preferably, be provided with filtering power cavity in the filtering oil-collecting cavity bottom end wall, the filtering power cavity with it is described
Rotation is provided with the by-pass filtration axis extended up and down between filtering oil-collecting cavity, the filtering power cavity and the filtering oil-collecting cavity it
Between rotation be provided with the secondary filtration axis extended up and down, the secondary filtration axis and the by-pass filtration shaft clearance cooperate, described
By-pass filtration axis both-side ends are stretched out from the filtering oil-collecting cavity both ends, the by-pass filtration axis in the filtering oil-collecting cavity
Top end is fixedly connected with the by-pass filtration bottom plate, and the by-pass filtration axis bottom end in the filtering power cavity is solid
Surely secondary filtration bevel gear, the secondary filtration axis top end and the secondary filtration in the filtering oil-collecting cavity are provided with
Bottom plate is fixedly connected, and the secondary filtration axis bottom end in the filtering power cavity is fixedly installed by-pass filtration cone tooth
It takes turns, filtering power transmitting chamber is provided in pump power cavity bottom end wall, the filtering power transmits the intracavitary master
Drive shaft bottom end is fixedly installed filtering drive bevel gear, between the filtering power transmitting chamber and the filtering power cavity
Rotation is provided with the filtering transmission axle that left and right extends, and it is solid that the filtering power transmits the intracavitary filtering transmission axle left distal end
Surely it is provided with filtering driven wheel of differential, the filtering driven wheel of differential is engaged with the filtering drive bevel gear, and the filtering is dynamic
The intracavitary filtering transmission axle right end of power is fixedly installed filtering power bevel gear, the filtering power bevel gear and institute
Secondary filtration bevel gear and by-pass filtration bevel gear engagement are stated, the camellia oil for squeezing out press mechanism progress is conducive to
Filtering.
Preferably, it is provided with pressing oil in end wall on the left of the crushing chamber, what is horizontally slipped in the pressing oil sets
It is equipped with squeezing ejector piston, what is horizontally slipped between the pressing oil and the crushing chamber is provided with squeezing propulsion arm, described
The squeezing propulsion arm left distal end in pressing oil is fixedly connected with end wall on the right side of the squeezing ejector piston, the squeezing
Chamber right end is squeezed with the dynamic pressure and is fixedly connected between end wall on the left of block, is set between the press mechanism and the driving mechanism
It is equipped with hydraulic system, drives the press mechanism to work, advantageously ensures that expressing process uniform force is constant.
Preferably, the pump is fixedly installed pump main belt in the main drive shaft outer end wall in power cavity
It takes turns, rotation is provided with the pump power axis extended up and down, the pump power axis bottom end fixed setting in the pump power cavity
There is pump driven pulley, transmission is provided with pump power belt, the pump between the pump driven pulley and the pump driving pulley
Line shaft top end be fixedly installed on the pump and be connected by power with the booster pump in power cavity top end wall, the pump is with dynamic
Low-pressure oil storage chamber is provided in power chamber bottom end wall, what is be connected between the low-pressure oil storage chamber and the booster pump is provided with low pressure
Enter oil pipe line, mechanical commutation valve is fixedly installed in pump power cavity top end wall, the mechanical commutation valve is located at described
At the top of booster pump, what is be connected between the mechanical commutation valve and the booster pump is provided with high pressure oil inlet pipe, the low pressure storage
What is be connected between oil pocket and the mechanical commutation valve is provided with low-pressure oil return pipe road, the mechanical commutation valve and the pressing oil
What is be connected between right side is provided with low-pressure oil delivery pipe road, sets on the left of the pressing oil with what is be connected between the mechanical commutation valve
It is equipped with high-pressure pipeline road, is conducive to constant promotion squeezing ejector piston Slideslip to the right, guarantees that press mechanism is uniformly permanent
Level pressure squeezes camellia material.
Preferably, positive switching chamber, the positive switching chamber and the height are provided in the pressing oil bottom end wall
What is be connected between pressure pipeline road is provided with positive switching pipeline, and the positive intracavitary forward direction that is provided with to horizontally slip of switching is cut
Piston is changed, elasticity is provided with positive switching between end wall and positive switching chamber right side end wall on the right side of the forward direction switching piston
Reset spring, the intracavitary forward direction that is provided with to horizontally slip of the forward direction switching switch push rod, and the forward direction switches last on the left of push rod
End is fixedly connected with end wall on the right side of the positive switching piston, the positive switching push rod right end and the mechanical commutation valve
It is detached from cooperation, is conducive to the connected state for switching the mechanical commutation valve, controls the working condition of press mechanism, improve the equipment
The degree of automation.
Preferably, discharging power cavity, the discharging power cavity and the squeezing are provided in end wall on the left of the crushing chamber
It is rotated between chamber and is provided with the discharging line shaft that left and right extends, it is solid in the discharging line shaft outer end wall in the crushing chamber
Surely it is provided with discharging pawl, the discharging pawl is located at the dynamic pressure and squeezes on rear side of block, the discharging power in the discharging power cavity
Axis left distal end, which is fixedly installed, replys bevel gear, fixed in the discharging line shaft outer end wall in the discharging power cavity
It is provided with discharging bevel gear, the discharging bevel gear is located on the right side of the reply bevel gear, the discharging power cavity bottom end wall
It is inside provided with discharging transmitting chamber, rotation is provided with the discharging extended up and down between the discharging transmitting chamber and the discharging power cavity
Transmission axle, the discharging transmission axle top end in the discharging power cavity are fixedly installed fan-shaped bevel gear, the sector
Bevel gear engages with the reply bevel gear, and the discharging bevel gear and the fan-shaped bevel gear are detached from and cooperate, and the discharging passes
It passs the intracavitary discharging transmission axle bottom end and is fixedly installed discharging driven wheel of differential, the intracavitary rotation of discharging transmitting is set
It is equipped with the secondary drive shaft extended up and down, the secondary drive shaft bottom end is connected by power with the main drive motor, the discharging
It transmits the intracavitary secondary drive shaft top end and is fixedly installed discharging drive bevel gear, the discharging drive bevel gear and institute
It states discharging driven wheel of differential and is detached from cooperation.
Preferably, be provided with discharging control chamber on the left of discharging transmitting chamber in end wall, the discharging control chamber with it is described
The setting discharging transmitting sliding block to horizontally slip between discharging transmitting chamber, the intracavitary rotation of discharging transmitting are provided with discharging transmitting cone
Gear, the discharging transmitting bevel gear are rotatably dispose on the right side of the discharging transmitting sliding block on end wall, and sliding block is transmitted in the discharging
Elasticity is provided with discharging reset spring between end wall on the right side of right side end wall and the discharging control chamber, turns in the discharging control chamber
The dynamic discharging control line shaft for being provided with front and back and extending, the discharging control line shaft front side end are fixedly installed discharging control
Cam, the discharging control cam and discharging transmitting sliding block cooperation, the discharging control cam and the mechanical commutation valve
It is detached from cooperation, end is fixedly installed discharging power gear, the discharging control chamber top on rear side of the discharging control line shaft
Discharging control oil cylinder is provided in end wall, being provided with for being connected between the discharging control oil cylinder and the low-pressure oil delivery pipe road is unloaded
Expect control piper, what is slided up and down in discharging control oil cylinder is provided with discharging control piston, the discharging control oil cylinder with
What is slided up and down between the discharging control chamber is provided with the discharging control rack gear extended up and down, the discharging control rack gear top
End is fixedly connected with discharging control piston base end wall, and the discharging control rack gear is matched with the discharging power gear
It closes, is fixedly installed discharging check valve in the discharging control piper, the discharging check valve is matched with the discharging control piper
It closes, elasticity is provided with discharging and inhibits to reset between the discharging check valve bottom end wall and the discharging control piper bottom end wall
Spring after the completion of being conducive to squeezing, by the camellia material removal after squeezing, is conducive to second circulation progress.
The beneficial effects of the present invention are: the equipment is more rationally and ingenious in overall structure, installation, maintenance and maintenance
It is very convenient, and the equipment can be automatically aligned to the camellia seed got ready and carry out squeezing operation, and the camellia seed after squeezing is sent
Out outside equipment, human interaction in cyclic process twice is reduced, avoids equipment fault may be to safety caused by staff's health
Hidden danger, and reduce intercycle time twice, improves equipment Milling Efficiencty, reduces cost, therefore the equipment is with higher makes
With and promotional value.
Detailed description of the invention
It, below will be to embodiment or existing in order to illustrate more clearly of inventive embodiments or technical solution in the prior art
Attached drawing needed in technical description is briefly described, it should be apparent that, the accompanying drawings in the following description is only to invent
Some embodiments for those of ordinary skill in the art without creative efforts, can also basis
These attached drawings obtain other attached drawings.
Fig. 1 is a kind of overall structure diagram of fuel-displaced oil collector sump tank of camellia oil filter press of the invention;
Fig. 2 is the structural schematic diagram of A in Fig. 1.
Specific embodiment
All features disclosed in this specification or disclosed all methods or in the process the step of, in addition to mutually exclusive
Feature and/or step other than, can combine in any way.
Any feature disclosed in this specification (including any accessory claim, abstract and attached drawing), except non-specifically chatting
It states, can be replaced by other alternative features that are equivalent or have similar purpose.That is, unless specifically stated, each feature is only
It is an example in a series of equivalent or similar characteristics.
In the description of the present invention, it is to be understood that, term " center ", " longitudinal direction ", " transverse direction ", " length ", " width ",
" thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom", "inner", "outside", " up time
The orientation or positional relationship of the instructions such as needle ", " counterclockwise " is based on attached orientation or positional relationship shown in FIG. 1, merely to just
In description the present invention and simplify description, rather than the equipment of indication or suggestion meaning or element must have a particular orientation, with
Specific orientation construction and operation, therefore be not considered as limiting the invention.
As shown in Figs. 1-2, a kind of fuel-displaced oil collector sump tank of camellia oil filter press of the invention, including squeeze and filter device 111, institute
It states and is provided with crushing chamber 151 in squeeze and filter device 111, press mechanism, the press mechanism packet are provided in the crushing chamber 151
It includes dynamic pressure and squeezes block 175 and pressure-sizing squeezing block 150, block 175 is squeezed in the dynamic pressure and the pressure-sizing squeezes block 150 and is detached from cooperation, the essence
Squeezing block 150 is fixedly installed on the 151 right side end wall of crushing chamber, the dynamic pressure squeeze block 175 horizontally slip be set to it is described
In crushing chamber 151, oil-collecting mechanism is provided in 151 bottom end wall of crushing chamber, the oil-collecting mechanism includes by-pass filtration portion
Part and secondary filtration component, the by-pass filtration component include being fixedly installed in 145 top end wall of by-pass filtration bottom plate
Coarse filter 146, the secondary filtration component include the fine filter being fixedly installed in 143 top end wall of secondary filtration bottom plate
144, the secondary filtration bottom plate 143 is rotatably dispose in the filtering oil-collecting cavity 147, and the by-pass filtration bottom plate 145 rotates
It is set in the filtering oil-collecting cavity 147, one is provided between the by-pass filtration component and the secondary filtration component and is moved
Power device drives the by-pass filtration component to rotate in one direction, while the secondary filtration component being driven to turn in opposite direction
It is dynamic, wherein driving mechanism includes main drive shaft 133 and the main drive motor 164, the 147 left side end wall of filtering oil-collecting cavity
It is inside provided with pump power cavity 130, the main drive shaft 133 is rotatably dispose in the pump power cavity 130, the main driving
133 top end wall of axis is connected by power with the main drive motor 164 being fixedly installed in 130 top end wall of pump power cavity,
It is provided with transmission mechanism between the oil-collecting mechanism and the driving mechanism, drives the by-pass filtration component and the second level
Filter element rotation.
In the following, will introduce in detail for realizing the by-pass filtration component and the secondary filtration component rotation
Specific implementation, wherein filtering power cavity 176, the filtering power are provided in 147 bottom end wall of filtering oil-collecting cavity
Rotation is provided with the by-pass filtration axis 140 extended up and down, the filtering power cavity between chamber 176 and the filtering oil-collecting cavity 147
Rotation is provided with the secondary filtration axis 142 extended up and down, the secondary filtration axis 142 between 176 and the filtering oil-collecting cavity 147
With 140 clearance fit of by-pass filtration axis, 140 both-side ends of by-pass filtration axis are from described 147 liang of filtering oil-collecting cavity
End is stretched out, and 140 top end of by-pass filtration axis and the by-pass filtration bottom plate 145 in the filtering oil-collecting cavity 147 are solid
Fixed connection, 140 bottom end of by-pass filtration axis filtered in power cavity 176 are fixedly installed secondary filtration bevel gear
139,142 top end of secondary filtration axis filtered in oil-collecting cavity 147 and the secondary filtration bottom plate 143 are fixed and are connected
It connecing, 142 bottom end of secondary filtration axis in the filtering power cavity 176 is fixedly installed by-pass filtration bevel gear 141,
Filtering power transmitting chamber 135 is provided in the pump 130 bottom end wall of power cavity, the filtering power transmits in chamber 135
133 bottom end of main drive shaft is fixedly installed filtering drive bevel gear 134, the filtering power transmitting chamber 135 and institute
It states rotation between filtering power cavity 176 and is provided with the filtering transmission axle 137 that left and right extends, the filtering power transmits in chamber 135
137 left distal end of filtering transmission axle be fixedly installed filtering driven wheel of differential 136, the filtering driven wheel of differential 136
It is engaged with the filtering drive bevel gear 134,137 right end of filtering transmission axle in the filtering power cavity 176 is solid
Surely filtering power bevel gear 138, the filtering power bevel gear 138 and the secondary filtration bevel gear 139 and institute are provided with
The engagement of by-pass filtration bevel gear 141 is stated, the camellia oil for being conducive to squeeze out press mechanism is filtered.
Valuably, the press mechanism of the application is introduced in detail with reference to Fig. 1-Fig. 2, wherein 151 left side of crushing chamber
Pressing oil 112 is provided in end wall, ejector piston 113 is squeezed in being provided with for horizontally slipping in the pressing oil 112, described
Propulsion arm 114 is squeezed in being provided with for horizontally slipping between pressing oil 112 and the crushing chamber 151, in the pressing oil 112
114 left distal end of squeezing propulsion arm be fixedly connected with the 113 right side end wall of squeezing ejector piston, the crushing chamber
151 right ends and the dynamic pressure are squeezed to be fixedly connected between 175 left side end wall of block, the press mechanism and the driving mechanism it
Between be provided with hydraulic system, drive the press mechanism to work, advantageously ensure that expressing process uniform force is constant.
Next, carrying out the detailed hydraulic system for introducing described the application with reference to Fig. 1-Fig. 2, wherein the pump uses power
Pump driving pulley 131, the pump power cavity 130 are fixedly installed in 133 outer end wall of the main drive shaft in chamber 130
Interior rotation is provided with the pump power axis 127 extended up and down, and 127 bottom end of pump power axis is fixedly installed pump driven pulley
128, transmission is provided with pump power belt 129, the pump between the pump driven pulley 128 and the pump driving pulley 131
127 top end of line shaft is connected by power with the booster pump 125 being fixedly installed in 130 top end wall of pump power cavity,
Low-pressure oil storage chamber 132, the low-pressure oil storage chamber 132 and the booster pump are provided in the pump 130 bottom end wall of power cavity
The low pressure that is provided with being connected between 125 enters oil pipe line 126, is fixedly installed machinery in the pump 130 top end wall of power cavity
Reversal valve 122, the mechanical commutation valve 122 are located at 125 top of booster pump, the mechanical commutation valve 122 and the pressurization
What is be connected between pump 125 is provided with high pressure oil inlet pipe 124, between the low-pressure oil storage chamber 132 and the mechanical commutation valve 122
Connection is provided with low-pressure oil return pipe road 123, is connected between the mechanical commutation valve 122 and 112 right side of pressing oil
It is provided with low-pressure oil delivery pipe road 116,112 left side of pressing oil is provided with what is be connected between the mechanical commutation valve 122
High-pressure pipeline road 115 is conducive to the constant promotion squeezing ejector piston 113 Slideslip to the right, guarantees that press mechanism is uniform
Constant squeezing camellia material.
Next, carrying out the detailed switching mechanism for introducing the hydraulic system with reference to Fig. 1-Fig. 2, wherein the expressed oil
Positive switching chamber 119 is provided in 112 bottom end wall of cylinder, between the positive switching chamber 119 and the high-pressure pipeline road 115
Connection is provided with positive switching pipeline 117, and what is horizontally slipped in the positive switching chamber 119 is provided with positive switching piston
118, elasticity is provided with forward direction between the forward direction 118 right side end wall of switching piston and the positive switching 119 right side end wall of chamber
Switch back spring 120, the positive forward direction that is provided with to horizontally slip in chamber 119 that switches switch push rod 121, and the forward direction is cut
It changes 121 left distal end of push rod to be fixedly connected with the positive 118 right side end wall of switching piston, the positive switching push rod 121 is right
Side end and the mechanical commutation valve 122, which are detached from, to be cooperated, and is conducive to the connected state for switching the mechanical commutation valve 122, is controlled
The working condition of press mechanism improves the degree of automation of the equipment.
Valuably, carry out the detailed shedding mechanism for introducing the application with reference to Fig. 1-Fig. 2, wherein 151 left side of crushing chamber
Discharging power cavity 173 is provided in end wall, rotation is provided with left and right between the discharging power cavity 173 and the crushing chamber 151
The discharging line shaft 148 of extension is fixedly installed in 148 outer end wall of discharging line shaft in the crushing chamber 151 and unloads
Expect that pawl 149, the discharging pawl 149 are located at the dynamic pressure and squeeze 175 rear side of block, the discharging in the discharging power cavity 173 is dynamic
148 left distal end of power axis, which is fixedly installed, replys bevel gear 174, the discharging line shaft 148 in the discharging power cavity 173
Discharging bevel gear 172 is fixedly installed in outer end wall, the discharging bevel gear 172 is located at 174 right side of reply bevel gear,
Discharging transmitting chamber 168 is provided in 173 bottom end wall of discharging power cavity, the discharging transmitting chamber 168 and the discharging are dynamic
Rotation is provided with the discharging transmission axle 170 extended up and down between power chamber 173, and the discharging in the discharging power cavity 173 passes
It passs 170 top end of axis and is fixedly installed fan-shaped bevel gear 171, the fan-shaped bevel gear 171 is nibbled with the reply bevel gear 174
It closes, the discharging bevel gear 172 is detached from the fan-shaped bevel gear 171 to be cooperated, the discharging in the discharging transmitting chamber 168
170 bottom end of transmission axle is fixedly installed discharging driven wheel of differential 169, and rotation is provided in the discharging transmitting chamber 168
The secondary drive shaft 165 of lower extension, secondary 165 bottom end of drive shaft is connected by power with the main drive motor 164, described to unload
Secondary 165 top end of drive shaft in material transmitting chamber 168 is fixedly installed discharging drive bevel gear 166, the discharging master
Dynamic bevel gear 166 and the discharging driven wheel of differential 169, which are detached from, to be cooperated.
Next, carrying out the detailed control mechanism for introducing the shedding mechanism with reference to Fig. 1-Fig. 2, wherein the discharging passes
It passs and is provided with discharging control chamber 177 in 168 left side end wall of chamber, between the discharging control chamber 177 and discharging transmitting chamber 168
The setting discharging transmitting sliding block 161 to horizontally slip, the interior rotation of discharging transmitting chamber 168 are provided with discharging transmitting bevel gear 167,
The discharging transmitting bevel gear 167 is rotatably dispose on the discharging transmitting 161 right side end wall of sliding block, and sliding block is transmitted in the discharging
Elasticity is provided with discharging reset spring 162, the discharging between 177 right side end wall of 161 right side end walls and the discharging control chamber
Rotation is provided with the discharging control line shaft 159 that front and back extends, the 159 front side end of discharging control line shaft in control chamber 177
End is fixedly installed discharging control cam 160, and the discharging control cam 160 and discharging transmitting sliding block 161 cooperate, described
Discharging controls cam 160 and the mechanical commutation valve 122 is detached from and cooperates, and the discharging control 159 rear side end of line shaft is fixed
It is provided with discharging power gear 158, discharging control oil cylinder 155 is provided in 177 top end wall of discharging control chamber, it is described to unload
What is be connected between material control oil cylinder 155 and the low-pressure oil delivery pipe road 116 is provided with discharging control piper 152, the discharging control
What is slided up and down in liquefaction cylinder 155 is provided with discharging control piston 156, and the discharging control oil cylinder 155 and the discharging control
What is slided up and down between chamber 177 is provided with the discharging control rack gear 157 extended up and down, the 157 top end of discharging control rack gear
End is fixedly connected with discharging control 156 bottom end wall of piston, the discharging control rack gear 157 and the discharging power gear
158 cooperations, are fixedly installed discharging check valve 153 in the discharging control piper 152, the discharging check valve 153 with it is described
Discharging control piper 152 cooperates, 153 bottom end wall of discharging check valve and 152 bottom end wall of discharging control piper it
Between elasticity be provided with discharging inhibit reset spring 154, after the completion of being conducive to squeezing, by the camellia material removal after squeezing, favorably
It is carried out in second circulation.
In the following, applicant will refer to attached drawing 1-2 and a kind of camellia oil filter press of the application described above is fuel-displaced
The concrete composition of oil collector sump tank is introduced the use step of the fuel-displaced oil-collecting of filter press in detail: firstly, when original state, it is described
Dynamic pressure squeezes block 175 and is located at 151 left side of crushing chamber, the discharging control cam 160 and the mechanical commutation to greatest extent
Valve 122 is detached from cooperation, the discharging transmitting bevel gear 167 and the discharging driven wheel of differential 169 and the discharging initiative taper
Gear 166 is detached from cooperation, and the positive switching push rod 121 and the mechanical commutation valve 122, which are detached from, to be cooperated, the high pressure oil inlet pipe
Road 124 is connected to the high-pressure pipeline road 115, and the low-pressure oil return pipe road 123 is connected to the low-pressure oil delivery pipe road 116;
When the device is in use, the main drive motor 164 is started to work, and the main drive motor 164 drives the main driving
Axis 133 rotates, and the main drive shaft 133 drives the pump driving pulley 131 to rotate, and the pump is driven with driving pulley 131
The pump driven pulley 128 rotates, and the pump driven pulley 128 drives the pump power axis 127 to rotate, the pump power axis
127 drive the booster pump 125 to start to work, and the low-pressure hydraulic oil in the low-pressure oil storage chamber 132 enters oil by the low pressure
Pipeline 126 enters in the booster pump 125, and the booster pump 125 pressurizes to low-pressure hydraulic oil, and high pressure liquid pressure oil passes through the height
It is pressed into oil pipe line 124 to enter in the mechanical commutation valve 122, the high pressure liquid pressure oil in the mechanical commutation valve 122 passes through described
High-pressure pipeline road 115 enters in the pressing oil 112, and high pressure liquid pressure oil pushes squeezing ejector piston 113 Slideslip to the right,
The squeezing ejector piston 113 drives the squeezing propulsion arm 114 Slideslip to the right, and the squeezing propulsion arm 114 drives described
The Slideslip to the right of block 175 is squeezed in dynamic pressure, and the dynamic pressure is squeezed block 175 and squeezed to the expressing material in the crushing chamber 151, will press
The camellia oil squeezed in material extrudes, and the camellia oil of extrusion enters in the filtering oil-collecting cavity 147, simultaneously, the main driving
Axis 133 drives the filtering drive bevel gear 134 to rotate, and the filtering drive bevel gear 134 drives the filtering from mantle tooth
136 rotation of wheel, the filtering driven wheel of differential 136 drive the filtering transmission axle 137 to rotate, 137 band of filtering transmission axle
It moves the filtering power bevel gear 138 to rotate, the filtering power bevel gear 138 drives 139 turns of the secondary filtration bevel gear
Dynamic, the secondary filtration bevel gear 139 drives the by-pass filtration axis 140 to rotate, and the by-pass filtration axis 140 drives described one
Grade filtering bottom board 145 rotates, and the by-pass filtration bottom plate 145 drives the coarse filter 146 to rotate, the coarse filter 146
Coarse filtration is carried out to the camellia oil fallen into, meanwhile, the filtering power bevel gear 138 drives the by-pass filtration bevel gear 141
Rotation, the by-pass filtration bevel gear 141 drive the secondary filtration axis 142 to rotate, and the secondary filtration axis 142 drives described
Secondary filtration bottom plate 143 rotates, and the secondary filtration bottom plate 143 drives the fine filter 144 to rotate, the fine filter
144 pairs of camellia oils filtered for the first time carry out smart filtering, after dynamic pressure squeezing block 175 squeezes expressing material, the height
The high pressure liquid pressure oil in pipeline road 115 is pressed to enter in the positive switching chamber 119 by the positive switching pipeline 117, institute
It states the hydraulic oil in positive switching chamber 119 and pushes the positive switching piston 118 Slideslip to the right, the forward direction switching piston
118 drive the positive switching push rod 121 Slideslip to the right, and the positive switching push rod 121 is matched with the mechanical commutation valve 122
It closes, the low-pressure oil delivery pipe road 116 is connected to the high pressure oil inlet pipe 124, the high-pressure pipeline road 115 and the low pressure
Oil return line 123 is connected to, and high pressure liquid pressure oil enters 112 right side of pressing oil by the low-pressure oil delivery pipe road 116, described
High pressure liquid pressure oil pushes the squeezing ejector piston 113 Slideslip to the left, and the squeezing ejector piston 113 drives the squeezing to push up
Slideslip, the squeezing propulsion arm 114 drive the dynamic pressure to squeeze the Slideslip to the left of block 175 to push rod 114 to the left, when the dynamic pressure is squeezed
Block 175 slides into 151 left side of crushing chamber to greatest extent, and the high pressure liquid pressure oil in the low-pressure oil delivery pipe road 116 passes through
The discharging control piper 152 pushes 153 slide downward of discharging check valve, the discharging check valve 153 and the discharging
Control piper 152 is detached from cooperation, and high pressure liquid pressure oil enters in discharging control oil cylinder 155, and the high pressure liquid pressure oil promotion is unloaded
Material control 156 slide downward of piston, the discharging control piston 156 drive discharging to control 157 slide downward of rack gear, the discharging
Control rack gear 157 drives the discharging power gear 158 to rotate, and the discharging power gear 158 drives the discharging control dynamic
Power axis 159 rotates, and the discharging control line shaft 159 drives the discharging control cam 160 to rotate, and the discharging controls cam
160 cooperate with discharging transmitting sliding block 161, and the discharging control cam 160 drives the discharging transmitting sliding block 161 to the right
Sliding, the discharging transmitting sliding block 161 drive the discharging transmitting bevel gear 167 Slideslip to the right, the discharging transmitting cone tooth
Wheel 167 is engaged with the discharging driven wheel of differential 169 and the discharging drive bevel gear 166,164 band of main drive motor
It moves the secondary drive shaft 165 to rotate, the secondary drive shaft 165 drives the discharging drive bevel gear 166 to rotate, the discharging master
Dynamic bevel gear 166 drives discharging transmitting bevel gear 167 to rotate, the discharging transmitting bevel gear 167 drive the discharging from
Dynamic bevel gear 169 rotates, and the discharging driven wheel of differential 169 drives the discharging transmission axle 170 to rotate, the discharging transmission axle
170 drive the fan-shaped bevel gear 171 to rotate, and the fan-shaped bevel gear 171 is engaged with the discharging bevel gear 172, the fan
Shape bevel gear 171 drives the discharging bevel gear 172 to rotate, and the discharging bevel gear 172 drives 148 turns of the discharging line shaft
Dynamic, the discharging line shaft 148 drives the discharging pawl 149 to rotate, and the discharging pawl 149 send material remaining after squeezing
Out, after the discharging pawl 149 rotates 90 °, the fan-shaped bevel gear 171 is detached from the discharging bevel gear 172 to be cooperated, described
Fan-shaped bevel gear 171 is engaged with the reply bevel gear 174, and the fan-shaped bevel gear 171 drives described 174 turns of reply bevel gear
Dynamic, the reply bevel gear 174 drives the discharging line shaft 148 to rotate backward, and the discharging line shaft 148 drives described unload
Material pawl 149 rotates backward, and the discharging pawl 149 drives the discharging pawl 149 to rotate backward, and the discharging pawl 149 turns to just
Beginning position, the fan-shaped bevel gear 171 is detached from the reply bevel gear 174 to be cooperated, meanwhile, the discharging controls cam 160
It is detached from and cooperates with discharging transmitting sliding block 161, the discharging control cam 160 and the mechanical commutation valve 122 cooperate, described
High pressure oil inlet pipe 124 is connected to the high-pressure pipeline road 115, the low-pressure oil return pipe road 123 and the low-pressure oil delivery pipe
Road 116 is connected to the equipment and returns to initial position, which enters subsequent cycle.
By detailed analysis above it can be seen that due in the way of hydraulic squeezing, guarantee expressing process camellia seed by
Power is uniform, and press speed is controllable, and utilizes Double-filtering device, carries out smart filtering to squeezing camellia oil, reduces subsequent job
Step improves equipment operation efficiency.
Therefore the present processes are more rationally and ingenious in overall structure, and installation, maintenance and maintenance are very square
Just, and the equipment can be automatically aligned to the camellia seed got ready and carry out squeezing operation, and the camellia seed after squeezing is sent out outside equipment,
Human interaction in cyclic process twice is reduced, avoids equipment fault may be to security risk caused by staff's health, and subtract
Few intercycle time twice, equipment Milling Efficiencty is improved, cost, therefore equipment use with higher and promotion price are reduced
Value.
The above, the specific embodiment only invented, but invent protection scope be not limited thereto, it is any without
The change or replacement that creative work is expected are crossed, should all be covered within the protection scope of invention.Therefore, the protection scope of invention
It should be determined by the scope of protection defined in the claims.
Claims (7)
1. a kind of fuel-displaced oil collector sump tank of camellia oil filter press of the invention, including squeeze and filter device, set in the squeeze and filter device
Be equipped with crushing chamber, it is characterised in that: be provided with press mechanism in the crushing chamber, the press mechanism include dynamic pressure squeeze block and
Block is squeezed in pressure-sizing, and block is squeezed in the dynamic pressure and the pressure-sizing is squeezed block and is detached from and cooperates, and the pressure-sizing squeezes block and is fixedly installed on the crushing chamber
On the end wall of right side, the dynamic pressure squeezing block, which horizontally slips, to be set in the crushing chamber, is provided in the crushing chamber bottom end wall
Oil-collecting mechanism, the oil-collecting mechanism include by-pass filtration component and secondary filtration component, and the by-pass filtration component includes solid
Surely the coarse filter being set in by-pass filtration bottom plate top end wall, the secondary filtration component include being fixedly installed on second level mistake
Fine filter in filter bottom plate top end wall, the secondary filtration bottom plate are rotatably dispose in the filtering oil-collecting cavity, and described one
Grade filtering bottom board is rotatably dispose in the filtering oil-collecting cavity, is set between the by-pass filtration component and the secondary filtration component
Being equipped with a power device drives the by-pass filtration component to rotate in one direction, while driving secondary filtration component edge
Opposite direction rotation, wherein driving mechanism includes main drive shaft and the main drive motor, end wall on the left of the filtering oil-collecting cavity
It is inside provided with pump power cavity, the main drive shaft is rotatably dispose in the pump power cavity, the main drive shaft top end
Wall be fixedly installed on the pump and be connected by power with the main drive motor in power cavity top end wall, the oil-collecting mechanism with it is described
It is provided with transmission mechanism between driving mechanism, the by-pass filtration component and the secondary filtration component is driven to rotate.
2. one of the according to claim 1 fuel-displaced oil collector sump tank of camellia oil filter press, it is characterised in that: the filtering oil-collecting cavity
Filtering power cavity is provided in bottom end wall, rotation is provided with downward between the filtering power cavity and the filtering oil-collecting cavity
The by-pass filtration axis stretched, rotation is provided with the secondary filtration extended up and down between the filtering power cavity and the filtering oil-collecting cavity
Axis, the secondary filtration axis and the by-pass filtration shaft clearance cooperate, and the by-pass filtration axis both-side ends are from the filtering
Oil-collecting cavity both ends are stretched out, and the by-pass filtration axis top end in the filtering oil-collecting cavity is fixed with the by-pass filtration bottom plate
Connection, the by-pass filtration axis bottom end filtered in power cavity are fixedly installed secondary filtration bevel gear, the mistake
The secondary filtration axis top end in filter oil-collecting cavity is fixedly connected with the secondary filtration bottom plate, in the filtering power cavity
The secondary filtration axis bottom end be fixedly installed by-pass filtration bevel gear, setting in the pump power cavity bottom end wall
There is filtering power transmitting chamber, the filtering power transmits the intracavitary main drive shaft bottom end and is fixedly installed filtering actively
Bevel gear, rotation is provided with the filtering transmission axle that left and right extends between the filtering power transmitting chamber and the filtering power cavity,
The filtering power transmits the intracavitary filtering transmission axle left distal end and is fixedly installed filtering driven wheel of differential, the filtering
Driven wheel of differential is engaged with the filtering drive bevel gear, and the filtering transmission axle right end in the filtering power cavity is solid
Surely filtering power bevel gear, the filtering power bevel gear and the secondary filtration bevel gear and the by-pass filtration are provided with
Bevel gear engagement, the camellia oil for being conducive to squeeze out press mechanism are filtered.
3. one of -2 fuel-displaced oil collector sump tank of camellia oil filter press according to claim 1, it is characterised in that: the crushing chamber is left
Pressing oil is provided in the wall of side, what is horizontally slipped in the pressing oil is provided with squeezing ejector piston, the expressed oil
What is horizontally slipped between cylinder and the crushing chamber is provided with squeezing propulsion arm, and the squeezing propulsion arm in the pressing oil is left
Side end is fixedly connected with end wall on the right side of the squeezing ejector piston, and the crushing chamber right end and the dynamic pressure are squeezed on the left of block
It is fixedly connected between end wall, is provided with hydraulic system between the press mechanism and the driving mechanism, drive the squeezer
Structure work, advantageously ensures that expressing process uniform force is constant.
4. one of -3 fuel-displaced oil collector sump tank of camellia oil filter press according to claim 1, it is characterised in that: the pump uses power
It is fixedly installed pump driving pulley in the intracavitary main drive shaft outer end wall, rotates and is provided in the pump power cavity
The pump power axis extended up and down, the pump power axis bottom end are fixedly installed pump driven pulley, the pump driven pulley with
Transmission is provided with pump power belt between the pump driving pulley, the pump power axis top end and is fixedly installed on described
Pump is connected by power with the booster pump in power cavity top end wall, is provided with low-pressure oil storage in pump power cavity bottom end wall
Chamber, the low pressure that is provided with being connected between the low-pressure oil storage chamber and the booster pump enter oil pipe line, pump power cavity top
Be fixedly installed mechanical commutation valve in end wall, the mechanical commutation valve is located at the top of the booster pump, the mechanical commutation valve with
What is be connected between the booster pump is provided with high pressure oil inlet pipe, is connected between the low-pressure oil storage chamber and the mechanical commutation valve
Be provided with low-pressure oil return pipe road, on the right side of the mechanical commutation valve and the pressing oil between be connected to be provided with low pressure oil transportation
Pipeline, the pressing oil left side are provided with high-pressure pipeline road with what is be connected between the mechanical commutation valve, are conducive to constant
Squeezing ejector piston Slideslip to the right is pushed, guarantees that press mechanism homogeneous constant squeezes camellia material.
5. according to the fuel-displaced oil collector sump tank of one of claim 4 camellia oil filter press, it is characterised in that: the pressing oil bottom
Positive switching chamber is provided in portion's end wall, what is be connected between the positive switching chamber and the high-pressure pipeline road is provided with forward direction
Switch pipeline, the positive switching is intracavitary horizontally slip be provided with positive switching piston, the forward direction switching piston right-hand end
Elasticity is provided with positive switch back spring, the positive intracavitary left and right of switching between end wall on the right side of wall and the positive switching chamber
Sliding is provided with positive switching push rod, and end wall is solid on the right side of the positive switching push rod left distal end and the positive switching piston
Fixed connection, the positive switching push rod right end and the mechanical commutation valve, which are detached from, to be cooperated, and is conducive to switch the machinery and be changed
To the connected state of valve, the working condition of press mechanism is controlled, improves the degree of automation of the equipment.
6. one of the according to claim 1 fuel-displaced oil collector sump tank of camellia oil filter press, it is characterised in that: on the left of the crushing chamber
Discharging power cavity is provided in end wall, rotation is provided with the discharging that left and right extends between the discharging power cavity and the crushing chamber
Line shaft is fixedly installed discharging pawl in the discharging line shaft outer end wall in the crushing chamber, and the discharging pawl is located at
The dynamic pressure is squeezed on rear side of block, and the discharging line shaft left distal end in the discharging power cavity is fixedly installed reply cone tooth
It takes turns, is fixedly installed discharging bevel gear, the discharge cone in the discharging line shaft outer end wall in the discharging power cavity
Gear is located on the right side of the reply bevel gear, and discharging transmitting chamber, the discharging are provided in the discharging power cavity bottom end wall
Rotation is provided with the discharging transmission axle extended up and down, the institute in the discharging power cavity between transmitting chamber and the discharging power cavity
It states discharging transmission axle top end and is fixedly installed fan-shaped bevel gear, the fan-shaped bevel gear is engaged with the reply bevel gear,
The discharging bevel gear and the fan-shaped bevel gear, which are detached from, to be cooperated, and intracavitary discharging transmission axle bottom end is transmitted in the discharging
End is fixedly installed discharging driven wheel of differential, and the discharging transmits intracavitary rotation and is provided with the secondary drive shaft extended up and down, described
Secondary drive shaft bottom end is connected by power with the main drive motor, and end at the top of the intracavitary secondary drive shaft is transmitted in the discharging
End is fixedly installed discharging drive bevel gear, and the discharging drive bevel gear and the discharging driven wheel of differential, which are detached from, to be cooperated.
7. according to the fuel-displaced oil collector sump tank of one of claim 6 camellia oil filter press, it is characterised in that: chamber is transmitted in the discharging
Discharging control chamber is provided in the end wall of left side, the setting to horizontally slip between the discharging control chamber and discharging transmitting chamber is unloaded
Material transmitting sliding block, the intracavitary rotation of discharging transmitting are provided with discharging transmitting bevel gear, and the discharging transmitting bevel gear rotation is set
It is placed on the right side of the discharging transmitting sliding block on end wall, end wall and the discharging control chamber right-hand end on the right side of the discharging transmitting sliding block
Elasticity is provided with discharging reset spring between wall, and rotation is provided with the discharging control power that front and back extends in the discharging control chamber
Axis, the discharging control line shaft front side end are fixedly installed discharging control cam, and the discharging control cam is unloaded with described
Material transmitting sliding block cooperation, the discharging control cam and the mechanical commutation valve are detached from and cooperate, after the discharging control line shaft
Side end is fixedly installed discharging power gear, and discharging control oil cylinder is provided in the discharging control chamber top end wall, described
What is be connected between discharging control oil cylinder and the low-pressure oil delivery pipe road is provided with discharging control piper, and the discharging controls in oil cylinder
What is slided up and down is provided with discharging control piston, and what is slided up and down between the discharging control oil cylinder and the discharging control chamber sets
It is equipped with the discharging control rack gear extended up and down, the discharging control rack gear top end and the discharging control piston base end wall
It is fixedly connected, the discharging control rack gear and the discharging power gear cooperate, and are fixedly installed in the discharging control piper
Discharging check valve, the discharging check valve and the discharging control piper cooperate, the discharging check valve bottom end wall with it is described
Elasticity is provided with discharging inhibition reset spring between discharging control piper bottom end wall, after the completion of being conducive to squeezing, after squeezing
Camellia material removal, be conducive to second circulation progress.
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CN206434910U (en) * | 2017-01-04 | 2017-08-25 | 江西玖玢生态农业发展有限公司 | A kind of fuel-displaced oil collector sump tank of camellia oil filter press |
CN207345119U (en) * | 2017-06-09 | 2018-05-11 | 湘潭大学兴湘学院 | A kind of oil press that can filter residue |
CN207619059U (en) * | 2017-11-02 | 2018-07-17 | 浙江华宇纸业有限公司 | A kind of floatation equipment |
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EP1925217A1 (en) * | 2006-11-24 | 2008-05-28 | Emmanuel Ouranos | Unit for cold pressing the flesh of olives |
CN103862707A (en) * | 2014-03-19 | 2014-06-18 | 常山县普路米液压机械有限公司 | Full-automatic integrated device formed by improving manual horizontal hydraulic oil press |
CN204036893U (en) * | 2014-09-05 | 2014-12-24 | 赵波 | A kind of automatic horizontal hydraulic oil press |
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